RU162268U1 - PROTECTIVE COVERING OF THE SEWER WELL - Google Patents

Abstract

1. The protective lining of the sewer well, consisting of a tray part and a working chamber made of reinforced concrete and having a protective lining of the inner surfaces of the liner made of sheets with anchor ribs having irregularly shaped protrusions, while the dimensions of the sheets with anchor ribs are selected based on the dimensions of the reinforced concrete element, the liner is installed during the formation of the reinforced concrete structure of the well during its manufacture in the conditions of production, while the liner provides for the possibility of prefabricated reinforced concrete sewer wells directly at the construction site, including the repair of operated wells, characterized in that the surface of the sheet, free from anchor elements, is made by means of small cuts of a smooth surface to increase the adhesive properties of the sheet at the moment it comes into contact with the concrete surface ; while some of the anchor elements are made in the form of ribs, and part in the form of grips; while the ribs and grips are perpendicular to the plane of the sheet and evenly distributed on its surface; while the ribs and grips are made integral with the sheet; while the grips have dimensions corresponding to the size of the diameter of the reinforcement; while the ribs and grips are textured over the entire surface by means of small cuts of their surfaces; at the same time, a signal layer made of polyethylene is applied to the back surface of the sheet, which changes color in the places where mechanical damage and moisture penetrate into a color different from the color of the main sheet. 2. The protective lining of the sewer well according to claim 1,

Description

The utility model relates to the field of construction of underground engineering structures, namely, to the construction of all types of round viewing, overflow and rain wells of non-pressure household and rain sewers and can be used in the construction and construction of networks and structures of external sewers.

Currently, various technologies are used to protect the inner surface of the structural elements of sewer wells with facing corrosion-resistant polyethylene materials during their manufacture and repair.

Simplified and inexpensive methods of protecting concrete-metal structures are known, including surface cladding with sheets of polyethylene, PVC, polypropylene. Polymer sheets are attached to the surface of concrete using anchors or special structural elements.

The disadvantages of the known technical solutions are as follows:

- the constant presence of water and hydrogen sulfide behind the coating due to the presence of space between the cladding sheets and the surface to be protected

- squeezing hydrogen sulfide from the space between the surface to be protected and the protective coating with increasing water levels; absorption of hydrogen sulfide, air and water vapor while lowering the water level

- development of corrosion centers under the coating

- weakening of the fastening of the coating to the surface

- continued destruction of the structure

The known technology of composite polymer coatings (Internet. Linabond Co-Lining linabond.ru> targets http://www.linabond.ru/examples), which consists of sprayed polyurethane and a solid impermeable PVC sheet, forming a single monolith with the original protected structure. The coating combines the most successful characteristics of various polymeric materials. Constructive execution:

1. Concrete / brick / metal construction.

2. Penetrating primer (epoxy-urethane primer).

3. Structural polymer.

Provides both high adhesion to concrete surfaces and a very strong supporting protective layer for PVC. It is steady in a wide range of chemical influences. Penetrating into concrete until the final polymerization, it forms a zone saturated with high-strength polymer composite material - partially concrete and partially polymer. The material completely covers the surface, therefore the lateral migration of liquids and gases is excluded, which guarantees absolute protection and tightness.

4. Activator of cross-linking.

Creates a molecular bond between the PVC sheet and the structural polymer, providing a highly effective bonding mechanism.

5. Polyvinyl chloride sheet

Made by extrusion, it is micropore free and impervious to most gases and liquids. It has excellent chemical resistance in aggressive wastewater environments.

A disadvantage of the known device is the great complexity of construction and installation work associated with additional preparation of the base and walls of the pit for a polyethylene well, as well as with additional concrete work aimed at preventing the emergence of a polyethylene well when it is installed in water-saturated soils.

Known concrete - protective sheets SURE GRIP line AGRUSAFE (Internet. Http://prof-ar.com/agru.html) which are used for reliable and long-term protection of concrete structures from corrosion damage and / or abrasion. Concrete - Agru SURE GRIP protective sheets of the AGRUSAFE line are placed on formwork elements and poured with concrete. Lugs of a leaf are made together with a leaf, but not welded additionally. Sheets can be made with both smooth and structured surfaces.

The disadvantages of the known technical solutions are the low operational reliability of the design.

As a prototype, a lined sewer well was selected (RF patent No. 152410, IPC E03F 5/00, op. May 27, 2015), which consists of a neck, a tray part and a working chamber. The elements of the prefabricated well are made of reinforced concrete and have a protective lining of the inner surfaces with a polyethylene liner made of polyethylene sheets with anchor ribs having t-shaped heads connected directly to concrete so that the inner surface of the lined well remains smooth, while the dimensions of the polyethylene sheets with anchor ribs selected based on the size of the reinforced concrete element.

The tray part is made of concrete. A polyethylene liner is installed in the process of molding a reinforced concrete structure of a well during its manufacture under production conditions. A polyethylene liner provides for the possibility of facing prefabricated reinforced concrete sewer wells directly at the construction site, including during the repair of operated wells.

The disadvantages of the known technical solutions are the low operational reliability of the design.

The objective of the utility model is to develop the design of the lining of internal surfaces, for example, a sewer well, the use of which will allow to reduce the laboriousness during construction and installation works and increase the service life of precast reinforced concrete sewer wells when operating in environments of various aggressiveness and in the presence of groundwater.

The technical result from the application of the utility model is to increase the bearing capacity and reliability of reinforced reinforced concrete structures by increasing the adhesion strength of reinforcement with concrete achieved by more efficient use of the surface of the polymer sheet. This eliminates the need or reduces the need for individual reinforcement elements that must be installed at the construction site

This is achieved due to the fact that the protective lining of the sewer well consists of a neck, a chute part and a working chamber made of reinforced concrete and having a protective lining of the internal surfaces by a liner made of sheets with anchor ribs having irregularly shaped protrusions connected directly to concrete in such a way that the inner surface of the lined well remains smooth, while the dimensions of the sheets with anchor ribs are selected based on the dimensions of the reinforced concrete element, the insert it is installed in the process of molding the reinforced concrete structure of the well during its manufacture under production conditions, while the liner provides for the possibility of facing prefabricated reinforced concrete sewer wells directly at the construction site, including when repairing operated wells, according to a utility model, the liner is made of a polymer sheet having two opposite surfaces, one of which is made rough with many irregularly shaped protrusions, which serve as a fastening of the sheet polymer construction of a reinforcement before the concrete; in this case, as protrusions of irregular shape, anchor elements in the form of ribs and grips, perpendicular to the sheet plane, uniformly distributed in the longitudinal and transverse directions. The ribs and grips are made of the same material as the polymer sheet. The dimensions of the grippers correspond to the diameter of the reinforcement. On the surface of the sheet, free from anchor elements, ribs and grips, the texture is made by cutting a smooth surface, to increase the adhesion properties at the moment the sheet touches the concrete surface. The ribs and grips are also textured over the entire surface by means of small cuts of their surfaces. At the same time, a signal layer is made on the back surface of the sheet, made of a material that changes color in places where mechanical damage occurs and moisture gets into a color different from the color of the main sheet. In this case, the polymer sheet is made of thermoplastic material. In this case, the signal layer is made of polyethylene.

The utility model is illustrated by drawings, where

in FIG. 1 shows a protective lining of a sewer well, general view;

in FIG. 2 - the same, node A in FIG. one;

in FIG. 3 - the same, node B in FIG. one;

Positions indicate: neck 1, working chamber 2, tray part 3, insert 4, anchor ribs having rib 5, gripper 6; texture 7; signal layer 8.

The utility model is a typical prefabricated reinforced concrete sewer well, consisting of a neck 1, a working chamber 2 and a chute part 3, the elements of which have a protective lining of the inner surfaces of a liner 4 made of sheets with anchor ribs having ribs 5 and grips 6.

The insert 4 is made of a polymer sheet, which has a smooth surface on one side, on the other hand, anchor elements are made in the form of ribs 5 and grippers 6. Over the entire surface of the sheet, with a certain step, grippers 6 are made for fastening the sheet to the reinforcement. The ribs 5 and grips 6 are made of the same material as the polymer sheet. On the surface of the sheet, free of anchor elements, ribs 5 and grips 6, the texture 7 is made by cutting a smooth surface, which increases the adhesive properties when the sheet touches the concrete surface. The ribs 5 and grips 6 are also textured over the entire surface by means of small cuts of their surfaces. A signal layer 8 is made on the back surface of the sheet, made of polyethylene of a color different from the color of the main anchor sheet with the ability to change color when moisture gets in. The sheet can be made of thermoplastic material, in particular PVC, PE, PP.

The polymer liner 4 is installed in the process of molding the reinforced concrete structure of the well during its manufacture under production conditions, with measures to increase the adhesion of the lining to the product. Profiled sheets are laid with concrete anchors, so that the inner surface of the lined well remains smooth. The dimensions of the polymer sheets with anchor ribs and grippers are selected based on the dimensions of the reinforced concrete element of the well, for example, reinforced concrete wall ring, floor slab, bottom plate, and are interconnected by butt welding with a manual extruder. The wall thickness of the polymer sheet must be at least 4 mm, the profile height at least 12 mm, the distance between the anchor elements from 24 to 28 mm.

The construction of the well is carried out in the following sequence: preparatory work, which includes the alignment work, the development of the pit, the construction of the foundation for the well; well device, which includes installation of prefabricated reinforced concrete, lined elements of the well, installation of bushings in the well, installation of the tray part, installation of undercarriage (support) brackets, installation of the manhole, testing the well for leaks, filling the foundation pit.

After installing all the elements of the well, the joints between the wall rings, floor slabs and the bottom plate are sealed with cement mortar with a surface grout and subsequent welding with a hand extruder.

When mounting the bushings in the through holes for the inlet and outlet sewer pipes, in the lined reinforced concrete well, the sleeve and the polymer liner are interconnected by manual extrusion.

The concrete tray part of the well is formed directly on the lined surface of the working chamber according to special patterns.

Lined with prefabricated reinforced concrete slabs, all types of wells are blocked, except for wells with a conical transition.

The manufacture of prefabricated well elements with cladding under production conditions requires mandatory quality control of the output parameters or the technical characteristics of the finished product.

The lined prefabricated reinforced concrete well has high operational characteristics, due to the resistance of the well material to aggressive environments and its tightness (for example, when the well is operated in the presence of groundwater). Due to possible fluctuations in the groundwater level, the well has external waterproofing of the walls and bottom, for example, paint from hot bitumen, applied in several (at least two) layers.

The utility model can also be used to install shut-off and control valves in it.

In the particular case of the utility model, it is possible to coat reinforced concrete wells with a polymer liner directly at the construction site, including during the repair of operated wells, while the neck of the well is not lined.

Claims (2)

1. The protective lining of the sewer well, consisting of a tray part and a working chamber made of reinforced concrete and having a protective lining of the inner surfaces of the liner made of sheets with anchor ribs having irregularly shaped protrusions, while the dimensions of the sheets with anchor ribs are selected based on the dimensions of the reinforced concrete element, the liner is installed during the formation of the reinforced concrete structure of the well during its manufacture in the conditions of production, while the liner provides for the possibility of prefabricated reinforced concrete sewer wells directly at the construction site, including the repair of operated wells, characterized in that the surface of the sheet, free from anchor elements, is made by means of small cuts of a smooth surface to increase the adhesive properties of the sheet at the moment it comes into contact with the concrete surface ; while some of the anchor elements are made in the form of ribs, and part in the form of grips; while the ribs and grips are perpendicular to the plane of the sheet and evenly distributed on its surface; while the ribs and grips are made integral with the sheet; while the grips have dimensions corresponding to the size of the diameter of the reinforcement; while the ribs and grips are textured over the entire surface by means of small cuts of their surfaces; at the same time, a signal layer made of polyethylene is applied to the back surface of the sheet, which changes color in the places where mechanical damage and moisture penetrate into a color different from the color of the main sheet. 2. The protective lining of the sewer well according to claim 1, characterized in that it is made of thermoplastic material, in particular PVC, PE, PP.

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