BG954U1 - Band for marking a track of underground laid non-metallic ducts - Google Patents

Abstract

The bands are used in detecting the location of tracks of plastic water pipelines, gas pipelines, optical cables and others for the purposes of undertaking repair-and-restoration and emergency works. Its design is simplified, having reduced to a maximum number of passage canals and conductors and demands an easier technology for its implementation. The band is made in the form of a two-layered body of electrical insulation material, formed by fixed and positioned one on top of the other upper and lower covering strips (11 and 12), between which, in a passage duct (2) of sinusoid form a copper conductor is placed. The layers of strips (11, 12) are made of polyethylene low pressure and are heat-fused by means of contact welding. The copper conductor fitted in duct (2) is made in the form of a copper insulated conductor (3) having one free end and an earthed end opposite to the first one. The upper and the lower covering strips (11, 12) are continuous along the entire length of the band body (1).

Description

Field of application

The utility model refers to a strip for marking a route of underground laid non-metallic conductors, which is used in the installation of plastic pipelines, gas pipelines, fiber optic cables, etc. through the device for detecting the location. n. for the purpose of repair, restoration, emergency activities and others.

BACKGROUND OF THE INVENTION

A tape for marking a track of underground laid non-metallic conductors, consisting of upper and lower covering strips of electrically non-conductive material, which are glued to form a strip body, is known. The covering strips lie parallel to each other and are interconnected, wherein at least one of the two strips and / or their connection at least in some places have slots for making electrical contact between the ground and the interior of the strip in which they are located least two electrical wires. The conductors are located between the two covering strips and by connecting them are secured in a position which they occupy in the strip body. The metal wires are copper and are three pieces, at least one of which is a bare copper conductor and at least one of the other two wires is an insulated copper conductor wrapped with an electrical insulation layer / 1 /.

The disadvantages of the tape are that there is a complicated structure that contains at least three copper wires, requires the use of sophisticated technology for its fabrication, as well as the need to use two different methods - active and passive to detect the tape depending on its structure. the length and location of the torn portion thereof at the beginning, middle or end of the length of the strip.

Technical nature and advantages

The task of the utility model is to create a strip for marking tracks of underground laid non-metallic conductors, which has a simplified structure, filled with the maximum number of used copper conductors, and requires the use of simplified technology for its implementation.

In accordance with the utility model, this problem is solved by means of a strip for marking tracks of underground laid non-metallic conductors, made as a two-layer body of insulating material, consisting of fixedly interconnected and thermally bonded upper and lower covering strips between them. is a sinusoidal shaped passage through which a copper conductor is inserted between the layers of the upper and lower covering strips, which are made of low pressure polyethylene. ene free passage within which is placed in the free state the copper wire formed as a copper insulated wire which has one free end and opposite to it an earthed end. The upper and lower covering bands are continuous throughout the length of the ribbon body.

In another embodiment, the strip comprises two passageways whose curvatures have a sinusoidal shape and are parallel to each other. In each of the two passageways, a copper insulated conductor with one free end and a grounded end opposite it is placed in a free state, respectively.

The advantages of a strip for marking a track of underground laid non-metallic conductors are that its construction requires only the active search and detection of non-metallic conductors in the ground, achieving improved quality, accuracy and efficiency in establishing the underground location of the searched area the entire length of the track, regardless of its location; the through passage is sinusoidal in shape, which, when stretching the ribbon body to a certain extent, prevents the copper insulated conductor from loosening freely therein; as well as making it possible for the measurement to be carried out optionally by either end of the strip body when executed with the addition of a second copper insulated conductor.

Description of the figures

The utility model is explained in more detail by way of an exemplary embodiment of a strip for marking tracks of underground laid non-metallic wires shown in the figures where:

Figure 1 shows a structural embodiment of a copper body with a copper conductor;

Figure 2 shows an embodiment of a strip body with two copper conductors. Exemplary implementation of the utility model

As shown in Figure 1, the strip for marking tracks of underground laid non-metallic conductors is constructed as a tape body 1 consisting of an upper covering strip 11 which is placed on top of a lower coating strip 12 made of insulating material which can be low pressure polyethylene. By connecting the upper and lower covering strips 11,12 by contact welding to each other, a passageway 2 is formed between them, in which a copper insulated conductor 3 is inserted, which is insulated from the ground along the entire length of the strip body 1.

When searching for the location in the ground of laid non-metallic conductors with a strip body 1 mounted on them, one free end of the insulated copper conductor 3 is electrically connected to a high-frequency generator 6 and the other end is grounded. In this way, as a result of an electric current, an electromagnetic field is created in the isolated copper conductor 3, which can be registered with a specialized device for detecting the location of this isolated copper conductor 3 not shown in the figures, and through it the path of non-metallic conductors in the ground not shown in the figures, which may be optical cable, gas pipelines, plumbing, etc.

The upper and lower cover strips 11, 12, which are typically made of low pressure polyethylene, are fixed to one another, preferably by contact welding. In this situation, two pieces of grooves 2 with a sinusoidal shape at a constant distance of 5 are formed in the strip body 1 between the upper and lower covering strips 11,12, whereby the curves of the grooves 2 are practically parallel to each other. In each of the passageways 2, a copper insulated conductor 3.4 is loosely fixed, which is insulated from the ground along the entire length of the strip body 1.

Using another embodiment of the belt body 1 shown in FIG. 2, the upper and lower covering strips 11,12, which are typically made of low pressure polyethylene, are fixed to one another, preferably by contact welding. In this case, two pieces of grooves 2 with a sinusoidal shape at a constant distance 5 are formed in the belt body 1 between the upper and lower covering strips 11,12, whereby the curvatures of the grooves 2 are practically parallel to each other. In each of the passageways 2 a single copper insulated conductor 3,4 is loosely fixed, which is insulated from the ground along the entire length of the strip body 1.

These insulated copper conductors 3,4 are selected in different colors of insulation for easy and unambiguous differentiation when performing in-service measurements. Using this variant design solution with the addition of a second additional copper insulated conductor 4, in addition to providing increased security and strength against any undesirable interruption of the strip body 1 in its main embodiment with an isolated conductor 3, an additional technological possibility of measurement is created to be carried out at any one of the two ends of the tape body 1. This is due to the fact that at each of the two ends of the tape body 1 there is one ground and one free end of the two insulated copper and conductors 3 and 4, which at its other end appear respectively backwards as free and grounded ends. At the two ends of the strip body 1, when measuring to the free end of each of the insulated copper conductors 3 or 4, the electrical output of a high-frequency generator 6 may be connected accordingly.

The free placement of the two copper insulated conductors 3.4 respectively in the sinusoidally shaped two passage grooves 2 of the ribbon body 1 increases the tolerance tolerance within certain limits with the undesirable extension of the ribbon body 1 while maintaining the physical integrity of the copper insulated conductors 3.4. This extension is slightly larger in this case, since it is added to the resulting extension, which is proportional to the magnitude of the amplitude of the sinusoidal passageways located in them copper isolated conductors 3 or 4.

The tape body 1 is placed lengthwise on the surface of a non-metallic conductor track laid previously in the ground, intended to carry water, oil, gases or to be placed on optical cables, which are also made of non-conductive insulating material. One end of the copper insulated conductor 3 is brought into contact with the ground at one end of the strip body 1 and the other end is left open. In the same way, but opposite to the first copper insulated conductor 3, the ends of the second copper insulated conductor 4 are fed. Thus, at each of the two ends of the strip body 1 there is one copper insulated conductor 3 with a grounded end and another copper insulated freewheel 4 with free end and back.

When searching for the location in the ground of a laid line of non-metallic conductors along the length of the strip body 1, a high-frequency generator 6 is switched on to one end of one of the copper insulated conductors 6, whereby the electrical signal supplied flows along the closed electrical circuit through the corresponding used copper insulated conductor 3 or 4 to ground. Thus, an electromagnetic field is created around this copper insulated conductor 3 or 4 from the flowing current, which is recorded by a specially designed moving device not shown in the figure. This method of measurement eliminates the need for the use of additional passive measuring methods, since by applying only the active method described above, high quality, accuracy and efficiency are achieved, which are sufficient to establish the incorrect location of the sought underground section along the entire length of the route. and detecting the location of the fault of the same quality regardless of the length and location of that section.

The described surface monitoring above the ground reveals the exact location of the track of non-metallic wire laid in the ground in order to detect damages or take measures to protect its integrity against undesirable damages in the vicinity of the wiring of other construction or repair activities .

Claims (2)

Claims 1. A strip for marking a track of underground laid non-metallic conductors, which is made as a two-layer body of insulating material, consisting of fixedly interconnected and thermally bonded upper and lower covering strips, between which a sinusoidal passage is formed. a form in which a copper conductor is inserted, characterized in that a single free passage is formed between the layers of the upper and lower covering strips (11, 12), which are made of low pressure polyethylene n a channel (2) in which the copper conductor, made as a copper insulated conductor (3), which has one free end and an opposite ground end opposite to it, wherein the upper and lower covering strips (11,12) are continuous along the entire length of the belt body (1). The strip according to claim 1, characterized in that it contains two through-channels (2) whose curvatures are sinusoidal and parallel to each other, and in each of the two through-channels (2) are freely positioned respectively one copper insulated conductor (3,4) with one free end and a grounded end opposite it.