RU199364U1 - PIPELINE - Google Patents

Abstract

The utility model relates to the field of water, gas supply and cable lines, namely the manufacture of a pipeline system, and can be used to provide the ability to locate the pipeline after burial. The pipeline is made with the ability to locate and is formed by interconnected plastic pipes. Each tube is fitted with a coextruded electrically conductive strip. Said strips of each pair of adjacent pipes are connected by means of an electrically conductive mesh, fixed by a heat-shrinkable sleeve with an inner surface on an adhesive basis. The utility model makes it possible to increase the reliability of the connection of adjacent pipes with the formation of a single electrically conductive line. 2 wp f-ly, 1 dwg

Description

The utility model relates to the field of water and gas supply, namely, to the manufacture of a pipeline system, and can be used to provide the ability to locate pipes after burial.

In the construction of gas pipelines (HS), water supply systems (HS) and cable lines, polyethylene pipes are used. Traditionally, pipes for (HS), (VS) and the construction of cable lines are made black, and stripes are applied to distinguish them: blue and yellow. A yellow stripe on a pipe means that it is a gas pipeline, a blue one for a water supply. Pipes are mainly made from Russian-made PE-100 polyethylene and foreign analogues in accordance with GOST 18599-2001 (Water supply) and GOST R 58121.2-2018 (Gas).

With the advent of new requirements and equipment capabilities, new pipes appeared - multilayer (up to 4 layers). Multilayer made it possible to use each layer of the pipe with the addition of certain properties by introducing additives into the polymer at the extrusion stage. So, for example, three-layer pipes are obtained, where the outer layer protects the pipe from UV rays, preventing polyethylene from collapsing under the sun, and also acts as a marker to determine the degree of damage to the base layer in case the pipe was hit during transportation or installation. The main layer is made in accordance with GOST, and the inner layer is made of a modified PE-100 RC (Resistance Crack) polyethylene grade, resistant to cracking.

Along with these developments, the task of determining the exact location and depth of the pipeline is being solved, which is necessary to avoid accidents during new construction. The exact position of the pipe in the ground can be determined using electrical equipment, but for this it must be equipped with conductive elements.

A pipeline formed by plastic pipes is known from the prior art, each of which is provided with an electrically conductive wire, the sections of which are connected by a connector at the pipe joints (see patent KR101567748B1, class F16L 1/11, publ. 09.11.2015). The disadvantages of the known device are the high labor intensity of manufacture and insufficient reliability due to poor adhesion of the layer that anchors the wire.

The closest in technical essence to the proposed utility model is a pipeline made with the ability to locate and formed by interconnected plastic pipes, each of which is equipped with a coextruded electrically conductive strip of polyethylene with a graphite additive (see publication WO2018227131A1, class F16L 1/06, published on 13.12.2018). The main disadvantage of the known device is the lack of specialized means for connecting strips of adjacent pipes without loss of conductivity: when welding pipes butt, the strips cannot be connected to each other technically due to the peculiarities of the process, respectively, conductivity at the connection is lost.

A technical problem is the elimination of these disadvantages and the creation of an easy-to-install pipeline structure, which makes it possible to use it even when laying by the method of horizontal directional drilling (HDD). The technical result consists in increasing the reliability of connecting adjacent pipes with the formation of a single electrically conductive line. The problem is solved, and the technical result is achieved by the fact that in a pipeline made with the ability to locate and formed by interconnected plastic pipes, each of which is equipped with a coextruded electrically conductive strip, the indicated strips of each pair of adjacent pipes are connected by means of an electrically conductive mesh fixed by a heat-shrinkable sleeve with internal surface on an adhesive basis. The electrically conductive strips are preferably made from a mixture of polyethylene and a graphite additive in an amount of 20-80%. The electrically conductive mesh is preferably made of tinned copper wire.

Figure 1 shows the place of attachment of the elements of the proposed pipeline.

The proposed pipeline is formed by interconnected plastic pipes 1, each of which during manufacture is equipped with at least one coextruded electrically conductive strip 2 made of a mixture of PE-100 grade polyethylene and graphite additive in an amount of 20 to 80% (with a lower content of graphite, the conductive properties of the mixture, and with a larger one, its plasticization does not occur). The strips 2 of each pair of adjacent pipes are connected by means of an electrically conductive mesh 3 made of tinned copper wire, which is fixed by a heat-shrinkable sleeve 4 with an inner surface in the form of a layer 5 on an adhesive base.

The proposed pipeline is mounted as follows.

On the joint of adjacent pipes 1, a tinned copper mesh 3 (in a roll) is applied in two turns and then fly fishing in 50% in both directions, thus connecting the strips 2 of one segment with another. A heat-shrinkable sleeve 4 with an inner part on an adhesive base is put on top of this connection. Due to the adhesive base, good adhesion is obtained and it becomes possible to lay pipes using the HDD method.

To find the location of the buried section at the outlet, a "clamp" is put on the end of the pipe 1 (in progress), which will connect all the strips. A pulse generator is connected to the two "ears" of this clamp, a certain frequency is tuned (so as not to see anything else), a given impulse is applied, and the location of the pipeline is determined along the route with the device.

The utility model makes it possible to significantly simplify the installation and at the same time increase the reliability of connecting pipe sections while maintaining electrical conductivity at the junction.

Claims (3)

1. A pipeline made with the possibility of locating and formed by interconnected plastic pipes, each of which is provided with a coextruded electrically conductive strip, characterized in that the electrically conductive strips of each pair of adjacent pipes are connected by means of an electrically conductive mesh fixed by a heat-shrinkable sleeve with an inner surface on an adhesive basis. 2. The pipeline according to claim 1, characterized in that the electrically conductive strips are made of a mixture of polyethylene and graphite additives in an amount of 20-80%. 3. The pipeline according to claim 1, characterized in that the electrically conductive mesh is made of tinned copper wire.

Images