RU188117U1 - TUBULAR CABLE - Google Patents

Abstract

The utility model relates to electrical products, in particular to tubular conduits used to place cable along cable routes, mainly on underground routes.

The essence of the utility model is that in a conduit having a rigid tubular body with a through longitudinal channel for accommodating the cable, equipped with a means to protect the cable placed in the cable housing from mechanical damage, according to the utility model, a tool that helps protect the cable placed in the cable cable from mechanical damage , made in the form of a flexible tubular section located at the end of a rigid tubular body and joined with it, made of elastic material, inside enny diameter at the junction corresponds to the inner diameter of the rigid tubular body.

The technical result achieved by the implementation of the utility model is to protect the end sections of the cable from mechanical damage at the place of its exit from the tubular conduit body. 2 ill.

Description

The utility model relates to electrical products, in particular to tubular conduits used to place cable along cable routes, mainly on underground routes.

At present, conduits having a tubular body are widely used, in the inner space of which a cable is placed. The tubular conduit body can be made in the form of a single pipe or in the form of several pipes joined to each other.

For example, a tubular conduit is known [f. Electrical Engineering News No. 4 (82) 2013, pp. 78-83].

The conduit in question has a rigid tubular body made of polyethylene with a through longitudinal channel designed to accommodate a power cable (6-500 kV) equipped with an external polymer sheath.

The specified polymer tubular conduit, which has rigidity and resistance to environmental factors, protects the cable from mechanical damage and external influences, which helps to increase the reliability of its operation.

At the same time, it is possible to use technological and cost-effective methods of laying a cable route, in particular, the method of horizontal directional drilling, during which the polymer tubular conduit body is pulled into the ground, and then the cable is pulled into it.

However, the sharp edge that is present on the edge sections of the rigid tubular conduit casing can cause deformation and mechanical damage to the outer sheath of the cable both when it is tightened into the conduit when the friction of the sheath against the edges of the casing and during cable operation when the cable ends are supported on the edges of the body and deform under its own weight, as well as the weight of the soil and equipment.

Known tubular conduit described in RU 2128389, which is selected as the closest analogue.

This conduit has a rigid tubular body made of thermoplastic plastic with a through longitudinal channel for pulling and placing the cable. In this case, the housing is equipped with a means of protecting the cable placed in the housing from mechanical damage, which is used as sliding ribs formed on the inner surface of the walls of the housing. These ribs are made of housing material, distributed around the circumference of the inner surface of the housing wall at an equal distance from each other and are located in a wave-like manner with the formation of reversible zones.

The specified tool helps to reduce friction when placing the cable in the conduit, and, therefore, helps to reduce mechanical damage to the cable sheath in the through cable channel.

However, in the conduit in question, due to the presence of sharp edges at the ends of the rigid tubular body, mechanical damage to the cable may occur at the location of its end sections.

The problem to be solved when implementing the utility model is to protect the end sections of the cable from mechanical damage at the place of its exit from the tubular conduit body.

The essence of the utility model is that in a conduit having a rigid tubular body with a through longitudinal channel for accommodating the cable, equipped with a means to protect the cable placed in the cable housing from mechanical damage, according to the utility model, a tool that helps protect the cable placed in the cable cable from mechanical damage , made in the form of a flexible tubular section located at the end of a rigid tubular body and joined with it, made of elastic material, inside enny diameter at the junction corresponds to the inner diameter of the rigid tubular body.

The presence in the inventive conduit of a tubular body having rigidity provides protection for the cable placed in its through channel from mechanical damage and external influences, which helps to increase the reliability of its operation. In addition, using the inventive conduit, it is possible to use technological and cost-effective methods of laying a cable route, in particular, the method of horizontal directional drilling, during which the tubular conduit body is pulled into the ground, and then a cable is drawn into it.

The rigid tubular conduit body can be made in the form of a single pipe or in the form of several pipes joined to each other.

As the material of the rigid tubular body, in particular, a metal material, a polymeric material, a composite material can be used.

An important feature of the claimed device is the presence of a rigid tubular body located at the end (at each end or at one end) and a flexible tubular section joined with it made of an elastic material, in which, in particular, elastic plastic, rubber is used.

The specified end flexible tubular section can be made in the form of a separate element attached to a rigid tubular body (in the factory or during installation of the cable route) in any way that provides a reliable connection, for example, by butt welding or through the use of a coupling.

The inner diameter of the end flexible tubular section corresponds to the inner diameter of the rigid tubular body at the junction, which ensures free passage of the cable through the conduit. Moreover, this section has a symmetrical shape with respect to the axis of rotation, in particular, the shape of a cylinder, the outer diameter of which corresponds to the outer diameter of the rigid tubular body, or the shape of the socket.

In the absence of a cable in the conduit, the end flexible tubular portion is aligned with the rigid tubular body and does not have a bend.

If there is a cable in the conduit, the end flexible tubular section under the influence of gravity of the end section of the cable or under the action of external force applied to output the end section of the cable from the conduit, is elastically bent. In this case, the cable end section at the place of its exit from the conduit is in contact with the surface of the flexible end section of the conduit that does not have a sharp edge, which protects the cable sheath from mechanical damage, both during pulling and during operation.

The flexible tubular section is bent in the direction that corresponds to the direction of cable exit from the conduit.

Thus, the technical result achieved by the implementation of the utility model is to protect the end sections of the cable from mechanical damage at the place of its exit from the tubular conduit body.

In FIG. 1 presents a General view of the inventive tubular conduit; in FIG. 2 is a General view of the two inventive conduits, each of which is designed to accommodate one of two adjacent cables.

The conduit comprises a rigid tubular body 1, made in particular of a rigid thermoplastic material having a through longitudinal channel 2, intended for installation of the cable 3.

The housing 1 is provided with a flexible tubular section 4 located at its end and joined with it, made of an elastic material, in particular, of elastic plastic. The specified section 4 is rigidly connected to the housing 1, in particular, using a coupling 5 (Fig. 1) or using a welded joint 6 (Fig. 2). Section 4 has an inner diameter corresponding at the junction to the inner diameter of the housing 1. Section 4, in particular, has a cylindrical shape.

The device operates as follows.

The inventive device is placed in the place of passage of the cable route, in particular, underground, laid, in particular, using the method of horizontal directional drilling.

In the absence of cable 3, the end flexible tubular portion 4 of the housing 1 is aligned with the latter and has no bend.

Place the cable 3 in the conduit, while the end portion 4 of the housing 1 under the action of gravity of the end portion of the cable 3 (Fig. 1) or under the action of external force applied to output the end portion of the cable 3 from the conduit (Fig. 2), is elastically bent to the side that corresponds to the direction of cable exit 3 from the conduit.

The end portion of the cable 3 at the place of its exit from the conduit is in contact with the surface of the flexible end portion 4 of the housing 1, which does not have a sharp edge, thereby protecting the cable sheath 3 from mechanical damage, both during pulling and during operation.

Claims (1)

A conduit having a rigid tubular body with a through longitudinal channel for accommodating a cable, provided with means to protect the cable placed in the cable from mechanical damage, characterized in that the means to protect the cable placed in the cable from mechanical damage, made in the form of a rigid a tubular body and a flexible tubular section docked with it made of an elastic material whose inner diameter at the junction corresponds to morning diameter of the rigid tubular body.

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