RU191965U1 - SEWAGE TREATMENT PLANT - Google Patents

Abstract

The utility model relates to the field of domestic wastewater treatment, in particular to a treatment plant - a biological treatment station, and is intended for the integrated treatment of domestic wastewater. The wastewater treatment plant comprises a housing made of a polymeric material with inlet and outlet nozzles, a neck with a cap and stiffeners made on the body and neck, an inner flask, the side walls of which are in close contact with the walls of the body, made solid with a neck having common stiffeners with a body and made in the entire width of the body, the stiffening ribs of which have a transverse and longitudinal direction, characterized in that the neck is provided with a spacer element. The utility model provides increased structural strength as a whole.

Description

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

The prior art device for the treatment of domestic wastewater containing a housing with inlet and outlet nozzles, while the internal cavity of the housing is divided by partitions with overflow openings into three chambers, two necks, an air compressor installed in the neck, a pump installed in the third chamber, wherein the body is made of stiffeners vertical along its long sides and horizontal at the ends (see RF patent No. 155237, C02F 3/00, published September 27, 2015).

For the closest analogue to the patented solution, the design of a wastewater treatment plant (RF patent No. 167039, E03F5 / 04, C02F11 / 02, C02F1 / 52, C02F3 / 28, published on December 20, 2016), comprising a housing made of a polymer material with an input and outlet pipes, a neck with a cap and stiffeners, an inner flask made on the body and neck, the side walls of which are tightly in contact with the walls of the body, made integral with the neck, having common stiffening ribs with the body and made in the entire width of the body, the stiffening ribs of which eyut transverse and longitudinal direction.

The disadvantages of the closest analogue are insufficiently high strength characteristics of resistance to soil pressure outside in the upper part of the installation, which leads to the risk of deformation and depressurization of the structure, as well as inconvenience in the maintenance of the installation.

The technical problem of the claimed utility model is the creation of a volatile installation for wastewater treatment with high strength characteristics, convenience and safety in operation.

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 attaching partitions, the presence of an internal chamber that increases the rigidity of the structure, and the presence of a spacer element in the form box in the neck, which allows you to evenly distribute external loads.

The specified technical result is achieved in the installation for wastewater treatment, comprising a housing made of a polymeric material with inlet and outlet nozzles, a neck with a cap and stiffeners made on the body and neck, an inner flask, the side walls of which are in close contact with the walls of the body, made 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, characterized in that the neck is provided spacer.

Due to the implementation of the 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, an inner flask, the side walls of which are in close contact with the walls of the housing, ensures the rigidity of the product, which increases the tensile strength of the installation from the inside, the body made of one-piece with the neck, there is no connecting seam between the neck and the body, which leads to an increase in tensile strength having come from the inside, 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, reliable fixation of the installation in the ground and distribution of external loads is achieved, which increases the strength of the installation, the neck provided with a spacer element is provided uniform distribution of external loads in the neck, deformation of the installation is excluded, which further increases the strength of the structure as a whole.

In particular, the spacer element is made in the form of a duct fixed inside the neck with the help of retaining supports.

In particular, the inner bulb is attached to the neck and divides the interior of the housing into three sections.

In particular, the inner flask is attached to the neck by welding.

In particular, one of the sections performs the function of a receiving chamber and has an opening for an inlet pipe.

In particular, the inner flask is an internal chamber with a cleaning function and contains an opening with a filter of large fractions for the gravity flow of effluents from the receiving chamber, and the chamber for biochemical cleaning is an aeration tank.

In particular, the chamber for biochemical treatment is made with an opening for the gravity drainage pipe from the third section and an opening for the outlet pipe.

In particular, the casing and the neck of the installation are made of linear low-pressure polyethylene.

The essence of the proposed technical solution is illustrated by drawings.

In FIG. 1 is a perspective sectional view of a wastewater treatment plant with a spacer element.

In FIG. 2. A general sectional view of a wastewater treatment plant without a spacer is shown.

According to the claimed utility model, 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 input 3 and output 4 nozzles, the neck 2 is closed by a cover 5, and its size is made over the entire width of the housing 1, which additionally gives strength to 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.

A molded inner flask 6 is installed in the inner space of the casing 1, which increases the structural strength, preventing it from deformation, while the side walls of the inner flask 6 are in close contact with the walls of the casing 1. The inner flask 6 divides the inner space of the casing 1 into three sections (one of the sections is a receiving chamber 7) and having a hole under the inlet pipe 3 and is welded in the neck region 2.

The flask 6 is an internal chamber with a cleaning function and contains a chamber 8 that performs the function of a stilling unit of purified water, and a hole 9 for gravity to receive drains from the receiving chamber 7 and a hole 10 for communication with the third section 11, through which drains by gravity come from the inner flask 6 into the third section 11 of the housing 1.

The chamber 8 performing the function of a block-damper of purified water is made with an opening for a pipe 12 for supplying gravity drains from the third section 11 and an opening for an outlet pipe.

The spacer element 13 is installed in the neck, which increases the strength of the structure as a whole, protecting one of the most vulnerable installation locations from deformation due to the uniform distribution of external loads in the neck.

The spacer element 13, made in the form of a box, with a compressor located in it, is installed in the neck 2 by means of retaining supports 14. The retaining supports are elements of various designs, allowing to protect the expansion element from displacement and falling. In one embodiment, the fastening of the spacer element is as follows. In the upper part of the neck during the manufacturing process of the body, two technological protrusions are formed for fastening the spacer element in the form of a box, inside which electrical equipment can be placed. On the outside of the box on at least two sides there are tides with reciprocal seats for mounting the box on the technological protrusions in the neck. The tides have a profile that repeats the profile of the neck, which allows you to reliably fix the spacer element in the neck, which increases the strength of the structure as a whole, eliminating the displacement of the spacer element during transportation and operation. Also technological protrusions can be performed on more than two sides.

The repeating pattern of the tidal profile of the box serves as guides when installing and removing the spacer element on the inside of the neck. The overall dimensions of the box are made in such a way that the box stands up as tightly as possible, relying on technological protrusions. This placement of the box allows you to create an additional spacer in the neck, which significantly increases the strength of the installation as a whole.

Fixing in the neck 2 of the spacer element 13, made in the form of a box, can be carried out in various other ways. The spacer element 13 can be fixed in the neck 2 by means of a bolted connection of the neck with the duct, or by means of retaining supports fixed to the neck by a bolted connection. Also, the spacer element can be installed by welding to the neck 2 holding supports of various designs on which the spacer element 13 can be mounted or to which can be attached, or, for example, a plate on which the spacer element will subsequently be installed.

Production of the installation and assembly of its parts is carried out in the factory, on modern equipment, by rotational molding. The manufacture of the housing from linear low-pressure polyethylene gives additional strength to the installation, providing the possibility of its use at low and high temperatures.

Principle of operation.

Wastewater through the inlet pipe enters the receiving chamber of the housing, in which the process of biochemical treatment begins under the influence of aerobic microorganisms that make up activated sludge. Further, the drains by gravity through a filter of large fractions enter the inner flask, which is an internal chamber with a cleaning function - aeration tank, where the process of fine bubble aeration takes place - the liquid is saturated with oxygen to maintain favorable conditions for aerobic microorganisms. After which the effluent flows by gravity into the third section, which is a gravity sedimentation chamber (compartment) of activated sludge, in which the liquid to be cleaned is at rest, due to which particles with a higher density are deposited on the bottom of the chamber. Settled activated sludge is sent to the receiving chamber with the help of an air circulation pump, and the treated water passes to the quencher block of purified water 8. The box is located in the upper part of the casing - neck 2. It houses a compressor that ensures uninterrupted operation of the aeration system under the condition of constant power supply .

The claimed design also has improved characteristics compared to existing models in terms of ease of use and maintenance, which increases the functionality of the product. These effects are achieved by placing a spacer element with electrical equipment in the upper part of the neck with fixing on special structural supports on the neck. This provides improved access for installation and maintenance of electrical equipment located in the box. If it is necessary to preserve the installation, the spacer element together with the electrical equipment is easy to dismantle and, subsequently, also to be installed in the neck of the structure. The advantage of this design is the safety of the installation. In case of emergency flooding of the station, the spacer element with electrical equipment always remains above the level of flooding, which ensures the safety of electrical equipment and current paths.

Thus, in the claimed utility model, an increase in the structural strength as a whole is achieved 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 attaching partitions, the presence of an internal chamber that increases the rigidity of the structure, and the presence of a throat spacer that allows uniform distribution of external load.

Claims (11)

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, 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 the full width of the body, the stiffening ribs of which have a transverse and longitudinal direction, characterized in that the neck is provided with a spacer element. 2. Installation for wastewater treatment according to claim 1, characterized in that the spacer element is made in the form of a duct fixed inside the neck with the help of retaining supports. 3. Installation for wastewater treatment according to claim 1, characterized in that the inner bulb is attached to the neck and divides the interior of the housing into three sections. 4. Installation for wastewater treatment according to claim 3, characterized in that the inner bulb is attached to the neck by welding. 5. Installation for wastewater treatment according to claim 3, characterized in that one of the sections performs the function of a receiving chamber and has an opening for an inlet pipe. 6. Installation for wastewater treatment according to claim 4, characterized in that the inner flask is an inner chamber with a purification function and contains an opening with a filter of coarse fractions for gravity flow of effluents from the receiving chamber, and a chamber for biochemical treatment - aeration tank. 7. Installation for wastewater treatment according to claim 6, characterized in that the chamber for biochemical treatment is made with an opening for the gravity feed pipe from the third section and an opening for the outlet pipe. 8. Installation for wastewater treatment according to claim 1, characterized in that the casing and neck of the installation are made of linear low-pressure polyethylene. 9. Installation for wastewater treatment according to claim 2, characterized in that the spacer element, made in the form of a box, is fixed inside the neck by means of a bolted connection of the neck with the box. 10. Installation for wastewater treatment according to claim 2, characterized in that the spacer element, made in the form of a duct, is fixed inside the neck on supports fixed by means of a bolted connection of the supports and the neck. 11. Installation for wastewater treatment according to claim 2, characterized in that the spacer element, made in the form of a box, is fixed inside the neck by welding to the neck of the supports holding the spacer element.

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