RU188322U1 - ASYMMETRIC TIP CABLE - Google Patents

Abstract

The utility model relates to electrical products, in particular to tubular conduits used to place cable along cable routes, mainly along underground routes. The essence of the utility model is that in a conduit having a tubular body with a through longitudinal channel for cable placement, as well as a funnel-shaped tip located at the end of the housing, having a neck connected to the housing, the diameter of the inner surface of which corresponds to the diameter of the inner surface of the housing, and also the outer expanding part, according to the utility model, the expanding part of the funnel-shaped tip has a shape that is not symmetrical with respect to the longitudinal axis of the neck, such that in the plane of the cross section the axis of the neck is closer to one of the sections of the lateral surface of the expanding part of the funnel-shaped tip. is the ability to reduce the distance between adjacent conduits in the case of laying a cable route containing uchok cables. 6 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.

So, for example, the conduit is described, described in [g. Electrical Engineering News No. 4 (82) 2013, pp. 78-83].

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

The specified polymer 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 the 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.

Promising is the development of conduit designs, which provide means to simplify the process of institution and cable laying in the cable channel.

So, the conduit is described in [Guidelines for the laying, installation and commissioning of fiber-optic communication lines. M..1987], selected as the closest analogue.

The conduit in question has a rigid tubular body made of thermoplastic plastic with a through longitudinal channel for drawing and placing the fiber cable. In this case, the housing is equipped with a funnel-shaped guide tip located at its end portion, comprising a neck connected to the housing and an expanding outer part having the shape of a body of revolution symmetrical with respect to the longitudinal axis of the neck. The diameter of the inner surface of the neck corresponds to the diameter of the inner surface of the tubular body and is selected from the placement of the neck inside the cable channel tightly.

Due to the presence of the specified guide tip acting as an end expander, the process of inserting the cable into the cable channel and the process of removing the cable end portion from the cable channel at the end of the cable route is simplified. In addition, due to the presence of a funnel-shaped guide tip at the end portion of the housing, the sharp edge of the end portion of the housing on the cable is excluded, which could cause difficulty in pulling the cable and even cause mechanical damage to the cable.

The use of this extender does not cause difficulties in the case of laying a cable route containing a single conduit.

However, in the case of laying a cable route containing a bundle of cables (2 or more), each of which is placed in a separate conduit, the use of the expanders under consideration causes difficulties, since it is necessary to place the end sections of the conduit housings equipped with these expanders at a considerable distance from each other determined by the magnitude of the outer diameter of the expander. Moreover, the dilution of the end sections of the conduits over considerable distances is difficult due to the rigidity of the conduit body and ground pressure.

The problem to be solved when implementing the utility model is to simplify the process of laying a cable route for a bundle of cables laid in separate conduits.

The essence of the utility model is that in a conduit having a tubular body with a through longitudinal channel for accommodating the cable, as well as a funnel-shaped tip located at the end of the body, having a neck connected to the body, the diameter of the inner surface of which corresponds to the diameter of the inner surface of the body, as well as the outer the expanding part, according to a utility model, the expanding part of the funnel-shaped tip has a shape that is not symmetrical about the longitudinal axis of the neck, such that o in the plane of the cross section, the axis of the neck is located closer to one of the sections of the lateral surface of the expanding part of the funnel-shaped tip.

Due to the presence of a tubular body with a through longitudinal channel for pulling and placing the cable, the cable is protected 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 the 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.

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.

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

Due to the presence of the guide tip described above as an end extender on the end portion of the housing, the process of inserting the cable into the cable channel and the process of removing the end portion of the cable from the cable channel at the end of the cable route are simplified. In addition, due to the placement of a guide tip having a funnel shape at the end portion of the housing, the sharp edge of the end portion of the housing on the cable is excluded, which could cause difficulty when pulling the cable by catching it on the sharp edges of the specified edge, and also lead to mechanical cable damage.

The specified tip may be located at one end of the conduit or at both ends.

Moreover, due to the fact that the funnel-shaped tip under consideration is made asymmetric, its neck is shifted closer to one of the sections of the lateral surface of its expanding outer part.

This allows you to lay the lugs of the individual conduits used for this purpose when laying the path for the cable bundle in such a way that the parts of the side surfaces of their expanding parts closest to the neck turn out to be close to each other or even adjacent to each other, which leads to a decrease in the distance between the ends of the lugs and , respectively, between the tubular bodies of these individual conduits.

The walls of the expanding part of the funnel tip in question in the plane of the cross section may, in particular, have a curved shape (for example, an annular shape, a sectoral shape in which these walls have the shape of a circular sector) or a polygon shape (for example, a trapezoid, a triangle).

As a material for the manufacture of the tip can be, in particular, used metal, polymer, composite material.

The connection of the tip with the housing can be carried out, in particular, by butt welding or by means of a coupling.

Thus, the technical result of the claimed utility model is the possibility of reducing the distance between adjacent conduits in the case of laying a cable route containing a bundle of cables. At the same time, the labor costs associated with the need to dilute the end sections of the conduit to a considerable distance from each other, which is difficult due to the rigidity of the conduit body and ground pressure, and, as a result, using the inventive utility model simplifies the process of laying a cable route for a cable bundle .

In FIG. 1 shows a General view of the inventive device (section in the longitudinal plane of the cross section), in FIG. 2 - the same (section in the transverse plane of the section);

in FIG. 3 presents a General view of the cable route using the three claimed devices (section in the transverse plane of the cross section of the end sections of the conduit lugs); FIG. 4 - the same (section in the transverse plane of the cross-section of the necks of the conduit lugs);

in FIG. 5 presents a General view of the cable route using the three claimed devices with lugs having a sector shape in the transverse sectional plane (section in the transverse plane of the section of the end sections of the conduit lugs); FIG. 6 - the same (section in the transverse plane of the cross-section of the necks of the conduit lugs).

The inventive conduit contains a tubular housing 1 with a through longitudinal channel 2. At the end of the housing 1 there is a funnel-shaped tip including a neck 3 and an external expanding part 4. The neck 3 is connected to the housing 1, in particular, by means of a coupling 5. The longitudinal axis of the neck coincides with the longitudinal axis O-O 'of the housing 1 (in FIGS. 3 and 5, the axis O-O' is indicated for one of the conduits).

The diameters of the inner surface of the neck 3 and the inner surface of the housing 1 are chosen equal in magnitude.

The expanding portion 4 of the funnel tip has a shape that is not symmetrical about the longitudinal axis O-O 'of the neck 3, such that in the plane of the cross section, the axis O-O' of the neck 3 is located closer to one of the portions of the side surface of the expanding part 4 of the tip.

которого смещена вверх относительно оси O-O' горловины 3, при этом горловина 3 оказывается расположенной ближе к нижнему участку боковой поверхности расширяющейся части 4 (примыкает к указанному участку боковой поверхности).So in FIG. 1 and FIG. 2 shows a view of a conduit in which the expanding part 4 in the plane of the cross section has the shape of a ring, the axis

which is shifted upward relative to the axis OO 'of the neck 3, while the neck 3 is located closer to the lower portion of the side surface of the expanding part 4 (adjacent to the specified portion of the side surface).

In FIG. 3 and 4 show a view of three conduits with funnel-shaped lugs having the shape described above. Moreover, as can be seen from FIG. 4, the necks 3 of the adjacent conduits are close to each other (adjacent to each other), thereby minimizing the distances S between them and, accordingly, between the cases 1 of these conduits.

In FIG. 5 and 6 show a view of three conduits with funnel-shaped lugs having a sector shape in which the neck 3 is displaced to a pointed portion of the side surface of the expanding part 4. Moreover, as can be seen from FIG. 6, the necks 3 of the adjacent conduits are close to each other, thereby achieving a reduction in the distances S between them and, accordingly, between the cases 1 of these conduits, to which their end sections must be routed.

The work of the inventive conduit will consider the example of the use of three separate conduits, each of which is designed to install one of the three cables laid by the bundle.

A cable underground route is laid, in particular, using the method of horizontal directional drilling, during which three conduits are pulled into the ground. At both ends of each conduit, a guide funnel tip of the asymmetric shape described above is mounted. Then, one of the cables (not shown) is drawn into each conduit.

Conduit lugs have a guiding and protective function. With their help, the process of inserting the cable into the cable is facilitated - the channel of the housing 1 of each conduit and the process of bringing the cable out. It is advisable from the point of view of convenience of carrying out the corresponding manipulations to bring the end portion of the cable out through the portion of the side surface of the extension part 4 of the tip, which is located at a greater distance from the neck 3.

Due to the selected shape of the tips, in particular as indicated in FIG. 1-4, conduits are close to each other, thereby achieving the need for dilution of the end sections of the conduits to a considerable distance and, thereby, simplifies the process of laying the cable route.

Claims (1)

A conduit having a tubular body with a through longitudinal channel for accommodating the cable, as well as a funnel-shaped tip located at the end of the body, having a neck connected to the body, the diameter of the inner surface of which corresponds to the diameter of the internal surface of the body, and the outer expanding part, characterized in that the expanding part the funnel tip has a shape that is not symmetrical about the longitudinal axis of the neck, such that in the plane of the cross section the axis of the neck is located ozhena closer to one of the side surface of the expanding portion of the funnel tip.

Images