RU189627U1 - PIPE FOR INFORMATION-FREE DRAINAGE NETWORKS - Google Patents

Abstract

The pipe for free-flow sewage networks concerns, in particular, pipes intended for use in water supply networks, industrial and municipal water lines, domestic sewage systems and drainage systems. The pipe for non-pressure sewage networks contains an inner layer (1) and an outer layer (2), made in the form of a corrugated profile (3), the corrugated profile is filled with a filler (5), for example, a solution of concrete or plastic, or others, while the number of filled profiles and the sequence of their location are determined based on the mass of the pipe required for stationary immersion to a predetermined depth. The pipe can be made of polyethylene, or polypropylene, or vinyl plastic, etc. Holes (4) in corrugations (3) are plugged, for example, by welding. The technical result achieved by this useful model is to reduce buoyancy without the use of external weighting, increasing ring stiffness, reducing labor costs.

Description

The utility model relates to pipes, in particular, intended for use in water supply networks, industrial and municipal water lines, household sewage systems and sewage systems.

The utility model relates to the field of water supply and sewage and can be used in the construction and repair of communications, which can use pressureless water supply network structures of the system of water supply areas for domestic, industrial and rainwater, and, more specifically, to pipelines used in wetlands, at crossings through flooded obstacles, i.e. pipes with buoyancy, which must be reduced.

When laying pipes, in particular, plastics in these conditions, difficulties arise because of their possible ascent. In practice, a similar problem is solved, for example, with the help of weighting agents.

There is a method of laying pipelines on soils with low bearing capacity (RU, application number 2000127313, IPC F16L 1/024, publ. 10/27/2002). The essence of the method lies in the fact that the pipeline is mounted inside a soft shell assembled on the upper part of the pipeline.

This method of weighting is time consuming and expensive.

Also known tubular weighting agent (RU, patent No. 91127, RU, IPC F16L 1/024), which includes a container for filler, made of plastic pipe, which is filled with filler (sand, clay, gravel, soil, etc.) and plugged with ends In this case, two plastic pipes are used, which are interconnected by a flexible connection and suspended on the main pipe on belts, and the pipes must be parallel to each other.

This method is also laborious, in addition, it is very difficult to calculate the dimensions of the tanks and the type of filler to hold the main pipe at the desired depth.

The closest technical solution, selected as a prototype, is a polymer pipe (RU, patent for utility model No. 125668, IPC F16L 9/12, 9/16, publ. 10.03.2013,), including the inner layer and outer layer, made corrugated profile.

The disadvantage of this solution is the impossibility of its stationary location at the desired depth in flooded areas due to its high buoyancy, since when laying this pipe with a high groundwater level, the latter will float up and weighting will be necessary.

In addition, the use of external weighting will significantly increase labor costs and additional consumption of materials for their manufacture and installation.

The problem to which the proposed technical solution is aimed is to reduce buoyancy with a high level of groundwater, increasing the ring stiffness.

The technical result achieved by this utility model is to reduce buoyancy without the use of external weighting, increasing the ring stiffness.

This technical result is achieved due to the fact that in the pipe for free-flow sewage networks containing the inner layer and the outer layer, made in the form of a corrugated profile, the corrugated profile is filled with filler through specially prepared holes, the number of filled profiles and the sequence of their location is determined based on the mass of the pipe required for stationary immersion to a predetermined depth, the density of the immersion medium.

Preferably: various variations of a concrete mix, plastic or composite are used as a filler.

The pipe is made of polyethylene or polypropylene or PVC vinyl plastic, etc.

Holes in the corrugations can be plugged, for example, by welding.

The proposed solution allows to reduce the buoyancy of pipes without the manufacture and use of special weighting, which also simplifies the manufacturing technology, their installation and simultaneously increases the ring stiffness of the pipe and, consequently, increases reliability at elevated values of destructive pressure and increases the service life.

In connection with the above, the cost of production is reduced.

A utility model - a pipe for non-pressure sewer networks is illustrated by drawings.

FIG. 1 shows the appearance of a pipe, including a profiled outer layer (2), made in the form of a corrugated profile (3) and a hole 4 for filling the filler.

FIG. 2, a longitudinal section of the pipe is shown including the inner layer (1), the profiled outer layer (2).

FIG. 3, 4, 5 illustrate a picture of filling corrugated profiles with filler, where the number (5) denotes filled with filler corrugated profiles (3). FIG. 3 illustrates the filling of all profiles with filler, FIG. 4 illustrates the filling of profiles through one; FIG. 5 illustrates filling one after two, which is determined by the required weight of the pipe for its stationary location.

Works the proposed pipe for non-pressure sewer networks as follows.

During the design or prior to laying the pipeline, according to the data obtained, the depth of the pipe, the density of its medium, etc., calculate the required weight of the pipe for its stationary location. Then determine the number of filled corrugations.

Before filling with the outer surface of the corrugations form through holes (4). Through the holes (4) manually, for example, using a membrane pump injected filler, for example, a concrete solution. After that, the holes can be boiled for tightness, for example, by welding with a manual extruder or in another way. When this pipe is placed on a horizontal surface. Fill all the corrugations in a row, or one, or two, etc.

After pouring and closing the holes, the pipe with the solution is left in this position for approximately 12 hours, i.e. before the concrete hardens, which prevents its spreading. After which the pipe can be transported.

At the same time, 70% of the strength is reached after 7 days after pouring, and the maximum strength is achieved within 28 days. In the latter case, the integrity of the structure is achieved for the entire period of operation of the pipe.

This method of pipe preparation guarantees the elimination of their ascent without the use of additional weighting agents in places with high groundwater levels.

The proposed pipes have, above all, high strength and can be used in places of passage of large-sized transport, for example, with a weight on one axis of the order of more than 20 tons.

As a filler, it is preferable to use concrete based on sand, crushed stone of fine fraction and cement. It is also possible to use foam concrete, as well as various variations of plastic or composite.

For the manufacture of the proposed pipes, it is preferable to use pipes manufactured according to GOST 54475-2011, or their equivalents according to the specifications of manufacturers with a similar GOST profile.

The proposed utility model meets the criterion of "novelty", because The technical level has not revealed technical solutions with the proposed set of essential features and the criterion of industrial applicability, since the applicant has already made a set of the proposed pipes and conducted a pilot test.

Claims (4)

1. A pipe for non-pressure sewage networks containing an inner layer and an outer layer made in the form of a corrugated profile, characterized in that the corrugated profile is filled with filler through specially prepared holes, the number of filled profiles and the sequence of their location is determined based on the weight of the pipe required for stationary immersion to a predetermined depth. 2. A pipe according to claim 1, characterized in that it is made of polyethylene, or polypropylene, or vinyl plastic. 3. A pipe according to claim 1, characterized in that a solution of concrete or plastic is used as a filler. 4. Pipe under item 1, characterized in that the holes in the corrugations are plugged, for example, by welding.

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