RU22263U1 - FLEXIBLE POWER CABLE - Google Patents

Description

Flexible power cable

The utility model relates to the field of electrical engineering, in particular to cable technology, and can most effectively be used as a current lead to a moving mining mining equipment.

Known for a large soil specialized flexible power cables having certain design features. These include, in particular, mine cables used to connect machines and mechanisms to the network for an alternating voltage of 1140 V on the main cores and 220 V on the auxiliary. A feature of mine cables is the presence of flexible shields made of electrically conductive materials designed to disconnect the cable from the network in the event of a decrease in insulation resistance to a critical value and in case of mechanical damage to the cable.

Known flexible power cable (A.S. N ° 1601642, BUT 1B 7/04, 10.23.90), containing three main power copper conductors coated with insulation, a group of seven auxiliary insulated conductors. Power cores and auxiliary cores are twisted around a grounding conductor and placed in a screen of semiconducting material. To increase the operational reliability of the cable by increasing the mechanical strength to tensile forces and axial torsion, the cable contains two twisted reinforcing elements located at the periphery of the cable symmetrically to the axis of the cable. Having high strength characteristics, this cable is more designed for vertical installation, and not as a flexible current supply to mobile mine equipment.

Another power cable is known (TU 16. K73. 012-95), which also contains three main insulated copper power conductors, a group of three auxiliary insulated conductors. Power cores and auxiliary cores are twisted around a core for 2001120005

MKIN01V7 / 04

  . . - - -. - --- .: .sh shmm ital

grounding, while on top of each conductive insulated and a group of auxiliary conductors, screens of electrically conductive rubber are superimposed.

The use of more powerful equipment for working in mines leads to the need to create such cables that will allow transmitting higher power through them by increasing the operating voltage to 3.3 kV. This is possible by increasing the insulation thickness of the conductive conductors in order to eliminate or reduce to a minimum the breakdown of insulation and increase the safety of using the cable for increased operating voltage. I introduce insufficient conductivity, the use of electrically conductive rubber as a screen in these cables becomes ineffective due to the increased likelihood of ionization in the insulation due to increased voltage and a significant increase in the mass of rubber used for insulation of cores. which can lead to breakdown of insulation. The source of ionization, as you know, are air or gas inclusions, which can form when the cable is bent during its production, laying and operation. Cable screens made of conductive rubber, in this case, do not provide reliable high-speed cable disconnection during breakdowns and other emergency situations

The objective of the proposed model is to create a mine cable that meets the operating conditions for voltage of 3, 3 kV while maintaining operational reliability.

The problem is solved in that in a flexible power cable containing insulated and shielded three main conductive copper conductors, a group of auxiliary conductors, a sheath and an earth conductor, shields are combined braids made of tinned copper wire and synthetic threads, for example, lavsan. In addition, to isolate the main cores and the group of auxiliary cores, separators are imposed in the form of a spiral winding with a tape of non-woven thermally bonded fabric, and the insulation is made of heat-resistant rubber.

The proposed utility model differs from the previously known in that:

-screens of the main conductors and groups of auxiliary conductors are made in the form of a combined braid consisting of tinned copper wire and synthetic threads, for example, lavsan;

-Insulation made of heat-resistant rubber;

-in isolation of the main conductive cores and the group of auxiliary cores, separators are applied in the form of windings with a tape of non-woven thermally bonded fabric.

The applicant does not know the power flexible cables, representing the combination of all the features characterizing the specified utility model, which indicates the novelty of the claimed object.

The proposed utility model allows to increase the transmitted power, to ensure the necessary safety of the cable for voltage of 3.3 kV.

The screens, made in the form of a combined braid of tinned copper wires and synthetic threads, increase the mechanical strength of the cable under the influence of crushing and shock loads, and increase electrical safety due to the high conductivity of copper. The presence of synthetic threads in the screen provides greater mobility of the copper wire relative to each other, increases the flexibility of the cable.

The separator in the form of a tape of non-woven thermally bonded fabric provides mobility of the combined screen relative to the insulation, preventing adhesion of the insulation and the screen, and also in the case of a colored tape, can serve as a coloring of the cores.

The utility model is further illustrated by an example of a specific implementation. Figure 1 shows a cross section of a flexible power cable of the proposed design, and Fig. 2 shows a fragment of a screen in the form of a scan.

The cable contains three power conductive conductors 1 for a voltage of 3.3 kV, coated with heat-resistant rubber insulation 2 and a shield 3. The screen is made in the form of a combined braid consisting of tinned copper wires 4 and synthetic

threads 5, alternating between each other. Under the screens 3 of the power conductive conductors are located separators 6 in the form of a spiral winding tape from a non-woven thermally bonded fabric. Six auxiliary cores 7 with rubber insulation 8 are twisted into a group around a round core 9, wrapped with a tape of non-woven thermally bonded fabric, forming a separator 10, and covered with a shield 11 also in the form of a combined braid. Power conductors and a group of auxiliary conductors are twisted around the ground 12 and covered with a sheath 13 of rubber that does not spread combustion.

Claims (3)

1. A flexible power cable containing insulated and shielded three main conductive copper conductors, a group of auxiliary conductors, a sheath and an earth conductor, characterized in that the sheaths are combined braids made of tinned copper wire and synthetic fibers, such as lavsan.  2. The flexible power cable according to claim 1, characterized in that the insulation is made of heat-resistant rubber. 3. Flexible power cable for PP. 1 and 2, characterized in that the cable is equipped with separators in the form of windings with a tape of non-woven thermally bonded fabric, superimposed on the insulation of the main conductors and the group of auxiliary conductors.