RU209784U1 - Flameproof Corrugated Conduit Conduit - Google Patents

Abstract

The utility model relates to electrical engineering, namely to conduit devices for laying cable lines for the transmission of electricity. The essence of the utility model lies in the fact that in a corrugated pipe for a conduit containing a tubular body made of a polymer material, made with a longitudinal undulating profile formed by alternating annular protrusions and depressions located along the longitudinal axis of the tubular body, according to the utility model, the corrugated pipe contains adjacent to the inner the surface of the tubular body is a smooth continuous layer of polymeric material with fire-fighting properties, the thickness of which is (0.3-3) mm. The technical result achieved by using the utility model is to increase the fire-fighting properties of the corrugated conduit pipe while enhancing its strength properties. 2 w.p. f-ly, 2 ill.

Description

The utility model relates to electrical engineering, namely to conduit devices for laying cable lines for the transmission of electricity.

At present, corrugated conduit pipes with a through cable channel are widely used, made of polymeric material, having a longitudinal wavy profile formed by alternating annular protrusions and depressions.

These conduit pipes are designed to accommodate an electric cable in their cable channel and provide its protection from mechanical damage and external influences when laying both ground and underground cable routes.

At the same time, the advantage of polymeric corrugated conduit pipes in comparison with polymeric conduit pipes with a solid smooth wall is good flexibility combined with sufficient ring stiffness, achieved with less material consumption.

Due to the design features of the corrugated tubular body, it is possible to achieve the required properties and performance characteristics of the devices in question.

So, known corrugated pipe for conduit, described in [RU 203933].

The device under consideration contains a polymeric corrugated tubular body, in which at least one conductive zone is formed, formed by electrically conductive sections made in the protrusions and cavities of the corrugated body, passing through the entire thickness of the corrugations.

In a particular embodiment, the device contains an internal coating, partly formed by a layer of dielectric material and partly formed by one or more extended electrically conductive elements made throughout the entire thickness of the layer of dielectric material and extending in the longitudinal direction over the entire length of the corrugated body, while the location of each extended electrically conductive element is selected from the condition of correspondence to the location of one of the conductive zones formed in the corrugated body.

Due to the presence of current-conducting zones and electrically conductive elements formed in the housing and the inner layer, the device under consideration is complex in design and is designed to solve a specific problem - localizing the damage site of the outer sheath of the cable placed in it.

Known corrugated pipe for conduit [RU 168657], which is selected as the closest analogue.

This corrugated pipe has a tubular body made of a polymeric material, made with a wavy profile along its longitudinal axis, formed by evenly spaced alternating annular protrusions and depressions. The wave pitch of the corrugated pipe profile has a size that allows making stiffeners in the cavity, the presence of which determines the strengthening of the corrugated pipe structure.

However, this device does not provide fire-fighting properties, which are especially important for conduits intended for laying high-voltage electrical cables. In these cables, insulation breakdown can lead to their ignition and to a fire on the cable route.

The technical problem to be solved in the implementation of the utility model is to increase the fire safety of the corrugated conduit pipe while ensuring the strengthening of its strength properties.

The essence of the utility model lies in the fact that in a corrugated pipe for a conduit containing a tubular body made of a polymeric material, made with a longitudinal undulating profile formed by alternating annular protrusions and depressions located along the longitudinal axis of the tubular body, according to the utility model, the corrugated pipe contains adjacent to the inner the surface of the tubular body is a smooth continuous layer of polymeric material with fire-fighting properties, the thickness of which is (0.3-3) mm.

In a particular case of the utility model, the corrugated pipe comprises a smooth continuous layer of polymeric material adjoining the outer surface of the tubular body.

In a particular case of the utility model, a smooth continuous layer adjacent to the outer surface of the tubular body is made of a polymeric material with fire-fighting properties, the thickness of which is (0.3-3) mm.

Due to the presence of a tubular body made of a polymeric material, the inventive device provides protection of the cable located in its cable channel from mechanical damage and external influences when laying both ground and underground cable routes.

At the same time, due to the presence of alternating annular protrusions and depressions forming corrugations in the tubular body, the inventive corrugated conduit pipe has good flexibility combined with sufficient annular rigidity, which is especially important when laying the cable in the ground.

Corrugations can have different shapes in longitudinal section, can be oriented vertically or obliquely relative to the longitudinal axis of the tubular body, or can be located along its length in a spiral.

As the material of the tubular body, a polymeric material with hardness and mechanical strength can be used, in particular, polyethylene grades PE80, PE100, as well as polymer compositions based on polyethylene, etc.

The presence of the above-described smooth continuous layer of polymeric material adjoining the corrugated tubular body from the inside gives the inventive device protective fire-fighting properties, and also increases its mechanical strength due to the adhesion of the corrugations from the inside to each other.

From the prior art, polymeric materials are known that have fire-fighting properties, which are characterized, in particular, by such indicators as resistance to open flame (classes PV-0, 1, 2), resistance to combustion (combustibility group G1, 2, 3, 4 ), resistance to ignition with a heated wire (wire loop temperature (850±15)°С, (960±15)°С) and others.

In the claimed device, specialized polymer compounds produced by the chemical industry containing a flame retardant, which is a component that prevents ignition and ignition of the coating material, contributes to self-extinguishing of fire and prevents the flame from spreading, can be used as the specified fire-fighting layer.

In particular, PVC-based polymer compositions with a halogen-containing flame retardant, polyethylene-based polymer compositions with a halogen-free flame retardant, and the like can be used.

The thickness of a smooth continuous layer of polymeric material adjacent to the inner surface of the tubular body is selected in the range of (0.3-3) mm, which is sufficient to impart fire-fighting properties to the corrugated conduit pipe.

When the thickness of the specified layer of polymeric material is less than 0.3 mm, the layer may "burn out" during the breakdown of the cable insulation and short circuit and not provide the necessary fire-fighting properties. In addition, it is technologically difficult to apply a layer of polymeric material with a thickness of less than 0.3 mm to the inner surface of the tubular body.

Increasing the thickness of the polymer material layer under consideration by more than 3 mm is not economical, since this leads to an increase in the consumption of expensive material.

In addition, the considered smooth continuous layer of polymeric material helps to facilitate the pulling of the electric cable in the internal space of the corrugated tubular body - in its through cable channel.

Thus, the technical result achieved by using the utility model is to increase the fire properties of the corrugated conduit pipe while ensuring the strengthening of its strength properties.

In a particular case, when the proposed device contains a smooth continuous layer of polymeric material adjacent to the outer surface of the tubular body, the mechanical strength of the device is increased due to the adhesion of the corrugations from the outside.

In a particular case, when the claimed device contains a smooth continuous layer of a polymeric material with fire-fighting properties adjacent to the outer surface of the tubular body, the thickness of which is (0.3-3) mm, along with an increase in mechanical strength, the fire-fighting properties of the device are enhanced, which is especially important when laying cable routes along bridges and overpasses, where many electrical cables are located close by.

At the same time, the thickness range of the said layer is selected from conditions similar to the conditions for choosing the thickness range for the layer of polymeric material adjacent in the inner surface of the tubular body.

The layer of polymeric material adjoining the inner surface of the tubular body, as well as the layer of polymeric material adjoining the outer surface of the tubular body, can in particular be formed by co-extrusion of the materials of the tubular body and the corresponding layer.

In FIG. 1 shows a general view of the proposed device (side view in section); in fig. 2 - the same in the presence of an outer smooth coating layer.

The device is a corrugated conduit pipe, which contains a tubular housing 1 made of a polymeric material. The internal space of the housing 1 forms a through cable channel 2, designed to accommodate an electric cable (not shown in the drawing).

The body 1 has a longitudinal wavy profile and is formed by alternating annular protrusions 3 and depressions 4 located along its longitudinal axis (in Fig. 1 and Fig. 2, the positions indicate one protrusion and one depression).

The device also contains adjacent to the inner surface of the tubular body 1 (to the surface of the depressions 4) a smooth continuous layer 5 containing flame retardant polymeric material with fire-fighting properties, the thickness of which is (0.3-3) mm.

In particular, layer 5 was used from a compound based on polyolefins with the addition of flame retardants, which has an open flame resistance class of PV-0 and resistance to hot wire ignition at a wire loop temperature of (960 ± 15) ° C.

In a particular case (Fig. 2), the device additionally contains a smooth continuous layer 6 of a polymer material adjacent to the outer surface of the tubular body 1 (to the surface of the protrusions 3).

In a particular case, said layer 6 is made of a polymeric material containing a flame retardant and having fire-fighting properties, the thickness of which is (0.3 - 3) mm.

The device works as follows.

The claimed device is used when laying a cable route, during which an electric cable is pulled into cable channel 2.

Due to the presence of a polymer material layer 5 on the inner surface of the body 1, the inventive device has fire-fighting properties. So, in the event of an electric cable igniting, caused, in particular, by a breakdown of its insulation and the occurrence of a short circuit, combustion and flame do not spread in the cable channel 2 of the device, the fire extinguishes on its own.

In the case of the presence of an outer layer 6 of polymeric material, the mechanical strength and fire properties of the device are increased, since the device is protected from fire both from the inside and from the outside.

Claims (3)

1. A corrugated pipe for a conduit, containing a tubular body made of a polymeric material, made with a longitudinal wavy profile formed by alternating annular protrusions and depressions located along the longitudinal axis of the tubular body, characterized in that the corrugated pipe contains a smooth continuous layer adjacent to the inner surface of the tubular body polymeric material with fire-fighting properties, the thickness of which is (0.3-3) mm. 2. Corrugated pipe according to claim 1, characterized in that it contains a smooth continuous layer of polymer material adjacent to the outer surface of the tubular body. 3. Corrugated pipe according to claim 2, characterized in that the smooth continuous layer adjacent to the outer surface of the tubular body is made of a polymer material with fire-fighting properties, the thickness of which is (0.3-3) mm.

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