SK8625Y1 - Combined cable - Google Patents

Abstract

The combination cable, in particular the combined power cable, comprises at least one power conductor (3), which is provided with at least one insulating layer (4) and a sheath layer (2) and at least one tube (1) for later blowing the fiber optic cable. one tube (1) for later blowing of the optical cable is arranged outside the sheath layer (2). The fiber optic cable later (1) may be arranged on the sheath layer (2), the fiber optic cable later (1) and the sheath layer (2) being provided with a surface layer (5) and on the sheath layer (2) being an arranged surface layer (6) in which a tube (1) is placed to later blow the optical cable. The tube (1) for later blowing of the optical cable and the power conductor (3) can be arranged separately from each other. The skin layer (2) may be made of polyethylene and the skin layer (5, 6) of polyvinyl chloride. At the smallest distance of the tube (1) for the earlier blowing of the optical cable and the power conductor (3), the surface layer (5, 6) can be arranged in the tapered neck (7). Advantageously, the tube (1) for later blowing of the optical cable is made of a fire-resistant material, which may be high-density polypropylene, and has an internal diameter of at least 6 mm.

Description

The present invention relates to a combination cable comprising at least one power conductor and at least one optical fiber cable.

BACKGROUND OF THE INVENTION

A variety of design solutions for connecting power cables and optical data cables into a single combination cable are known in the art.

For example, from CH 65047 a high voltage cable is known which comprises three conductors between which, according to one variant, a tube is arranged in which an optical fiber can be guided. The disadvantage of this design is that the conductors have a circular cross-section, and the tube is therefore guided at three points in its cross-section, more precisely guided in its length in three contact sections and therefore not stabilized in its position. Therefore, it may happen that the tube extends beyond its center position. When bending, two of the conductors may be slightly displaced by the third of the conductors, thereby creating a gap into which the tube can become entangled and subsequently be strangled so that nothing can be blown into it. In extreme cases, the tube can extend completely out of its center position, in which case it will be completely pinched.

Patent application PV2016-185 furthermore discloses a combined power cable comprising at least three power conductors and a fiber optic cable tube, in particular a combined power cable for low voltage networks of up to 1 kV, wherein the power conductors have an annulus cut-out on their cross-section; wherein the inner diameter of the annulus corresponds to the outer diameter of the tube while surrounding the tube for the fiber optic cable so as to secure its position in the middle of the combined power cable. The disadvantage of this design is the complexity of securely connecting the power conductors and the fiber optic cable at the end of the combined power cable. This implies the impossibility of using this construction for high voltage cables.

Data cables with conductive tracks arranged inside the cable insulation, which can carry very low voltages, are also known from the prior art. Such a cable is known, for example, from US2008 / 0273 844. This design is not applicable to power cables.

A combination cable is known from patent document US5189718 which comprises an eccentric placed power cable and a data cable. The disadvantage is that in the event of a failure, the location of the failure is not easily repairable, but the entire cable length needs to be replaced.

A major drawback of the prior art appears to be that there is no construction of a high voltage combination cable, that is, a cable comprising a power conductor and a tube for later blowing an optical cable, which is simultaneously easy to repair and easy to securely connect to the network. Existing design solutions do not allow a secure connection.

The aim of the technical solution is the construction of a combined cable, which will both allow easy repair and will also be securely connectable to the network.

The essence of the technical solution

The above-mentioned deficiencies are largely eliminated and the objectives of the invention are fulfilled by a combination cable, in particular a combined power cable comprising at least one power conductor, which is equipped with at least one insulating layer and sheathing layer and at least one tube for later blowing the optical cable. consists in that at least one tube for later blowing of the optical cable is arranged outside the sheath layer. The main advantage is the easy and safe connection of the high-voltage power cable and fiber optic cable to a suitable network. Another advantage is the possibility of performing a simple and operative repair of the tube in case of damage to the power cable, where the tube is also soldered during the repair performed by conventional soldering.

According to a first preferred variant, the lateral blown tube of the optical cable is arranged on the sheath layer, the laterally blown tube of the optical cable and the sheath layer are provided with a surface layer.

According to a second preferred variant, a surface layer is arranged on the sheath layer in which a tube is located for later blowing of the optical cable.

It is very advantageous if the tube for later blowing of the optical cable and the power conductor are arranged separable from each other. This makes it easy to bypass the terminal or connector of the power section of the cable.

Advantageously, the sheath layer is made of polyethylene (PE), which is advantageous in terms of its mechanical resistance / hardness and resistance to moisture penetration through the sheath layer.

N E 8625 Υ1

It is further preferred that the surface layer is made of polyvinyl chloride (PVC). An advantage is that it is possible to supplement the pigment without losing elasticity, thereby creating a color layer that increases safety, since it is clear at first sight according to the color of the cable what type of cable is in the trench.

It is also very advantageous if the surface layer is arranged in a tapered neck at a location of the smallest distance of the tube for later blowing of the optical cable and power conductor. The advantage is to simplify the separation of both cable parts at the joints and terminals.

In a preferred embodiment, the fiber optic lateral blow tube is made of a fire resistant material, most preferably the fiber optic lateral blow tube is made of high density polypropylene (HDPP). The advantage is high fire resistance.

It is also highly preferred that the fiber optic cable tube has an internal diameter of at least 6 mm. The advantage is the possibility of simply blowing and deflating the fiber optic cable.

The main advantage of the combination cable according to the technical solution is the simple and safe connection of the high-voltage power conductor and the optical cable into a suitable network. Another advantage is that it does not interfere in any way with the basic design of the power cable, so that no additional testing is required. The power cable is fully blown only with sheathing. A great advantage is that the combination cable according to the technical solution facilitates the construction process, since it allows easy replacement of one cable with another cable, which includes both power and data cables. It allows the exchange of a single cable for a cable combined for one identical building permit. A further advantage is that the combination cable according to the invention allows its connection even in several cable lengths to create the desired section due to the respective connection of the tubes for blowing the optical cable. An advantage is also that existing high voltage couplings and terminals can be used, since the fiber optic cable tube can be separated from the power cable in front of the connector or terminal from both sides and routed outside of the power cable, thereby eliminating sealing problems. against the ingress of moisture into their body.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution will be explained in more detail by means of the drawing, in which FIG. 1 is a cross-sectional view of a detail of a combination cable with a tube for later blowing an optical cable arranged directly on the sheath layer; and FIG. 2 is a cross-sectional detail of a combination cable with a tube for later blowing an optical cable arranged in a surface layer.

EXAMPLES

Example 1

The combined single-core power cable (Fig. 1) contains one high-voltage 3 VN (22 kV) high-voltage power conductor and one tube 1 for later blowing the fiber optic cable.

The power conductor 3 is provided with an insulating layer 4, a shielding layer 8, a sheathing layer 2 and a surface layer 5.

The fiber optic cable later tube 1 is arranged outside the sheath layer 2 so that it is located directly on the sheath layer 2, with the fiber optic cable tube 1 and the sheath layer 2 being simultaneously provided with a surface layer 5.

The sheathing layer 2 is made of polyethylene (PE).

The surface layer 5 is made of polyvinyl chloride (PVC) in a red safety color.

The tube 1 for later blowing the fiber optic cable is made of high density polyethylene (HDPE).

At the shortest distance of the tube 1 for later blowing of the fiber optic cable and power conductor 3, the surface layer 5 is arranged in a tapered neck 7.

The fiber-optic cable tube 1 and the power conductor 3 are arranged so that they can be separated from each other such that a perforation is formed in the surface layer 5 at the tapered neck 7 to facilitate tearing of the end of the combined power cable so that the power conductor 3 and the tube 1 are later. Fiber optic cable blown into separate connection points.

The fiber optic cable tube 1 has an inner diameter of 6 mm and an outer diameter of 10 mm

Example 2

The combined single core power cable (Fig. 2) contains one high voltage 3 VN (22 kV) high voltage conductor and one tube 1 for later blowing the fiber optic cable.

The power conductor 3 is provided with an insulating layer 4, a shielding layer 8, a sheathing layer 2 and a surface layer 5.

S K 8625 Υί

The fiber optic cable tube 1 is arranged externally of the sheath layer 2 such that a surface layer 6 is disposed on the sheath layer 2 in which the fiber optic cable tube 1 is located later.

The sheath 2 is made of polyethylene (PE).

The surface layer 6 is made of polyvinyl chloride (PVC) in a red safety color.

The fiber optic cable lateral tube 1 is made of a fire resistant material, which is high density polypropylene (HDPP).

At the shortest distance of the tube 1 to later inflate the fiber optic cable and the power conductor 3, the surface layer 6 is arranged in a tapered neck 7.

The fiber optic cable tube 1 and the power conductor 3 are disposed so that at the end of the combined power cable, the power conductor 3 and the fiber optic cable 1 are cut at the point of the tapered neck 7 in the surface layer 6 by cutting the fiber optic cable later. are then led to separate connection points.

The fiber optic cable tube 1 has an inner diameter of 12 mm and an outer diameter of 16 mm.

Industrial usability

The combination cable according to the invention can be used for the simultaneous conducting of electric current and data stream, in particular of an electric current with an eye voltage.

Claims (10)

Combination cable, in particular a combined power cable, comprising at least one power conductor (3) having at least one insulating layer (4) and a sheathing layer (2) and at least one tube (1) for later blowing the fiber optic cable, characterized in that at least one tube (1) for later blowing of the optical cable is arranged outside the sheath layer (2). Combination cable according to claim 1, characterized in that the tube (1) for later blowing the optical cable is arranged on the sheath layer (2), the tube (1) for later blowing the optical cable and the sheath layer (2) are provided with a surface layer (5). Combination cable according to claim 1, characterized in that a surface layer (6) is arranged on the sheath layer (2), in which a tube (1) for later blowing of the optical cable is arranged. Combination cable according to one of the preceding claims, characterized in that the tube (1) for later blowing of the optical cable and the power conductor (3) are arranged separable from each other. Combination cable according to one of the preceding claims, characterized in that the sheath layer (2) is made of polyethylene. Combination cable according to one of claims 2 to 5, characterized in that the surface layer (5, 6) is made of polyvinyl chloride. Combination cable according to one of Claims 2 to 6, characterized in that at the point with the shortest distance of the tube (1) for later blowing of the optical cable and the power conductor (3), the surface layer (5,6) is arranged in a tapered neck ( 7). Combination cable according to one of the preceding claims, characterized in that the tube (1) for later blowing of the optical cable is made of a fire-resistant material. Combination cable according to one of the preceding claims, characterized in that the tube (1) for later blowing of the optical cable is made of high-density polypropylene. Combination cable according to one of the preceding claims, characterized in that the tube (1) for later blowing of the optical cable has an internal diameter of at least 6 mm. 1 drawing