CZ7563U1 - Totally screened power cable - Google Patents

Description

Totally shielded power cable

Technical field

The technical solution relates to a totally shielded power cable, which can also be used as an installation for voltage systems up to 0.6 / 1 kV.

BACKGROUND OF THE INVENTION The hitherto known shielded power installation cables have a shielding wrapping. metal conductive tapes, complete with bare conductors wrapped or embedded under this tape.

^T Other known and used solution is based on a metal tape lengthwise intake encircling around the circumference of the shield cable core assembly, radially undefined conductively closed.

The disadvantage of these solutions is the insufficient shielding of the inner core of the cable in the cable core, especially in the mid- and high-frequency areas. This causes, in particular, an increase in the level of the wide frequency spectrum interfering signals emanating from the cable core inducing into the line into the devices connected to the power lines.

This effect is particularly evident in influencing operation, including computer technology and in radio transmissions, where the requirement for electromagnetic compatibility is high.

The essence of the technical solution

The above-mentioned drawbacks alleviate or eliminate an overall shielded power cable, consisting of a cable sheath and at least one core, which is formed by a conductive core and a core insulation, between which may be a mica layer. In alternative solutions, a fixation and separation tape is also provided between the cable sheath and the at least one core. The principle of the invention consists in that under the cable sheath is in the form of a continuous conductive layer a shielding sheath, which consists of a longitudinally undulating metal layer and a helical wrapped metal layer, wherein the edges of each metal layer overlap and form an overlap. In a preferred embodiment, a padding layer is provided between the at least one vein and the shielding sheath on the fixation and release tape. Between the cable sheath and the shielding sheath, a fixing and filling tape is provided on and / or below the fixing and separation tape. The advantage of the solution is the high tightness of the continuous conductive layer of the shielding sheath, which is sufficient also from the viewpoint of high-frequency technology with minimal intrinsic inductance, which also ensures its shielding in terms of depth of intrusion signals at the lower frequencies. Another advantage of the solution is the ability to prevent flame propagation over the cable itself.

An overall shielded power cable arranged in this way also has a high damping factor of the shielding of interfering signals.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is explained in more detail with the help of drawings, where in Fig. 1 there is a longitudinal and cross section of the totally shielded power single-core cable, a variant where a longitudinally undulating metal layer is placed under the helically wound metal layer. Fig. 2 shows a solution using a multi-core cable. Fig. 3 shows a solution of a multicore cable, a helically wound metal layer is placed under the longitudinally undulating metal layer.

- 1 CZ 7563 Ul

Examples of technical solution

Example 1

The wiring used a single-core shielded power cable.

The conductive core 1 is provided with a continuous layer of insulation 2 of the core 3, on the core 3 there is a shielding sheath 11, so that the core 3 is wrapped around its entire circumference with a longitudinally corrugated metal layer 5. the longitudinally corrugated metal layer 5 is 5% of the circumference.

The helically wound metal layer 6 of the shielding package 11 is wrapped around the circumference of the longitudinally undulating metal layer 5 with an overlap 12 of 20% of the individual wraps.

The cable construction is closed by the cable sheath 7 as shown in Fig. 1.

Example 2

A multi-core shielded power cable consisting of four cores 3 was used in the voltage substation.

Conductive cores L insulated with a continuous layer of insulation 2 forming a vein 3 are stranded in the core of the cable 13, the outer surface of which is wrapped with fixation and separation tape 4. A padding layer 10 is applied over it. This consists of a lower longitudinally corrugated metal layer 5 with an overlap of 10% and an upper helically wound metal layer 6 with an overlap of 10% of the individual windings of the helix.

The shielding sheath 11 is closed by the cable sheath 7 as shown in FIG. 2.

Example 3

The multi-core shielded power cable is composed of conductive cores 1, each of which is wrapped with a glass mica layer 8 and insulated with a continuous insulation layer 2. In this way, a cable core 3 is formed which is ablated in the cable core 13 and The shielding cable 11, in this case first formed by a helically wound metal layer 6 with an overlap 12 between the threads of 20%, is located thereon. This is followed by a longitudinally corrugated metal layer 5, with an overlap of 3%.

Under the sheath of the cable 7, which closes the entire cable structure, the fixing and filling tape 9 is wrapped as shown in Fig. 3.

Industrial applicability

The technical solution is used especially in the areas of impulse control environments, in environments where impulse control interference occurs, in voltage substations and wherever the requirement for electromagnetic compatibility is increasing.

Claims (3)

PROTECTION REQUIREMENTS 1. Totally shielded power cable, also usable as an installation for voltage systems up to 0,6 / 1 kV, consisting of a cable sheath (7) and at least one core (3) consisting of a conductive core (1) and insulation (2) Cores (3), between which a glass mica layer (8) may be provided, and in alternative solutions, between the cable sheath (7) and the at least one core (3) there is also a fixing and separation tape (4). In the form of a continuous conductive layer, a shielding cover (11) is provided, which consists of a longitudinally undulating metal 7563 U1 of the layer (5) and the helical wound metal layer (6), the edges of each metal layer (5, 6) being overlapped to form an overlap (12). The totally shielded power cable according to claim 1, characterized in that between the shielding sleeve (11) and the at least one conductor (3), a fixing and separation strip (4) is provided on the fixing and separation strip (4). 5 padding (10) Totally shielded power cable according to claim 1, characterized in that a fixing and filling tape (9) is provided between and under the fixing and separating tape (4) * _t between the cable sheath (7) and the shielding sleeve (11). .