RU186790U1 - REINFORCED POWER CABLE WITH A CURRENT CONDUCTING RESIDENCE FROM ALUMINUM ALLOY - Google Patents

Abstract

The utility model relates to cable technology, namely to power cables and wires with polymer insulation, designed for transmission and distribution of electrical energy in electrical installations with alternating voltage up to 660 V and 1000 V.

The power cable contains a conductive core made of aluminum alloy, insulation and a sheath of polymer material, while a reinforcing synthetic thread is longitudinally laid under the sheath.

Description

The utility model relates to cable technology, namely, cables and wires, power with polymer insulation and conductive core made of aluminum alloy, designed for transmission and distribution of electrical energy in electrical installations with alternating voltage of 660 and 1000 V.

A cable is known for transmitting and distributing electric energy in stationary installations to a rated alternating voltage of 0.66 kV and 1 kV of a frequency of 50 Hz, containing an aluminum conductive core, insulation made of PVC compound and a sheath made of PVC compound (Kamsky Cable LLC product catalog AVVG brand cable http://www.kamkabel.ru/production/catalog/kabeli-obshhepromyshlennye/silovye-v-PVKH-izolyatsii/silovye-v-PVKH-izolyatsii_46.html).

Signs of a known cable, which are common with the features of the claimed utility model, are that the cable contains a conductive core, insulation and a sheath of polymer material. The reason that prevents obtaining the claimed technical result in a known cable is that the conductive wires are made of aluminum.

The closest known technical solutions is a cable containing a conductive core, insulation and a sheath of polymer material, while the conductive core is made of heat-treated aluminum alloy with an aluminum content of at least 99 wt. %, the main alloying element of which is iron (patent RU 174486, published October 17, 2017, bull. No. 29).

Signs of a known cable, which are common with the claimed utility model, are that the cable contains insulation and a sheath made of a polymeric material. A disadvantage of the known cable is the fact that the core of aluminum alloy has a small allowable load at tensile strength (30 N / mm ² , while the copper conductive core has an allowable load at tensile 50 N / mm ² ). In this regard, when installing the cable, the conductive core made of aluminum alloy is drawn and reduced in diameter.

The technical problem consists in the need to develop a power cable with a conductive core of aluminum alloy reinforced construction, ensuring the absence of hoods and changes in the diameter of the conductive core during installation.

The technical result is achieved in that the power cable contains a conductive core made of aluminum alloy, insulation and a sheath of polymer material, while a reinforcing synthetic thread is longitudinally laid under the sheath.

The use of reinforcing synthetic filaments in a power cable with a conductive core of aluminum alloy provides structural reinforcement. When installing the cable, namely during traction, the load will be distributed both on the conductive core and on the synthetic thread, so that the conductive core will not be damaged and will not change in diameter. In this case, the synthetic thread has a breaking load of at least 20 N / mm ² , and a conductive core of aluminum alloy has a breaking load of at least 30 N / mm ² . In this case, the total permissible load during cable tension is 50 N / mm ² , which is equivalent to a cable with a copper conductive core. Additionally, it becomes possible to remove the sheath from the cable due to the presence of hardened synthetic threads.

Within the claimed patent rights, the following embodiments of the utility model are possible.

The power cable contains a conductive core made of aluminum alloy. An alloy of grade 8030 or alloy of grade 8176 can be used for the manufacture of conductive conductors. The conductive conductors are coated with insulation made of a polymer material. The insulation can be made, for example, from PVC compound, or from low-risk PVC compound with an oxygen index of at least 30, or from a halogen-free polymer composition with an oxygen index of at least 32, or from PVC compound with an equivalent toxicity index of combustion products of at least 121 g / m ³ . A reinforcing synthetic thread is longitudinally laid under the cable sheath with an allowable breaking load of at least 20 N per 1 mm ^{2 of the} cross-section of conductive conductors. Also, several synthetic threads with a total breaking load of at least 20 N per 1 mm ^{2 of the} cross-section of conductive wires can be laid under the cable sheath. As synthetic threads, Kevlar or Twaron brand threads can be used. The cable sheath can be made, for example, from PVC compound or non-combustible PVC compound with an oxygen index of at least 32%, or a low fire hazard PVC compound with an oxygen index of at least 35, or from a halogen-free polymer composition , with an oxygen index of at least 35, or PVC compound with an equivalent toxicity index of combustion products of at least 121 g / m ³ .

A power cable may contain several conductive cores, with each conductive core insulated with polymeric material, the isolated conductors twisted into a core, also contain an outer sheath of polymeric material, and reinforcing synthetic threads are longitudinally laid under the sheath.

The technical result, which is achieved by solving this problem, is to develop a power cable with a conductive core of aluminum alloy with a reinforced structure, which ensures that there is no damage and exhaust of the conductive core during installation, in connection with this modification of the cable with such structural elements, various polyvinyl chloride plastic compounds for insulation and sheath, do not affect the achievement of a technical result and are special cases of execution when using a cable.

Claims (7)

1. Power cable containing a conductive core made of aluminum alloy, insulation and a sheath of polymer material, characterized in that a reinforcing synthetic thread is longitudinally laid under the sheath. 2. The cable according to claim 1, characterized in that the breaking load of the synthetic filament is not less than 20 N per 1 mm ^{2 of the} cross-section of the conductive conductors of the cable. 3. The cable according to claim 1, characterized in that there are several synthetic threads, with a total breaking load of at least 20 N per 1 mm ^{2 of the} cross-section of the conductive conductors of the cable. 4. The cable according to claim 1, characterized in that the sheath is made of flame-retardant PVC compound with an oxygen index of at least 32. 5. The cable according to claim 1, characterized in that the insulation is made of low fire hazard PVC with an oxygen index of at least 30%, and the sheath is made of low fire hazard PVC with an oxygen index of at least 35%. 6. The cable according to claim 1, characterized in that the insulation is made of a halogen-free polymer composition with an oxygen index of at least 32, and the sheath is made of a polymer composition with an oxygen index of at least 35. 7. The cable according to claim 1, characterized in that the insulation and the sheath are made of polyvinyl chloride plastic compound with an equivalent toxicity index of combustion products of at least 121 g / m ³ .