RU210837U1 - FLEXIBLE POWER CABLE FOR NETWORKS WITH SYMMETRIC LOAD - Google Patents

Abstract

The utility model relates to cable engineering, namely, to the designs of electrical flexible cables designed to connect mechanisms and equipment to electrical networks with a symmetrical load. In order to reduce the cost of the cable and reduce its weight, improve operational properties and facilitate installation, the design of a power electric flexible cable used for use in networks with a symmetrical load is proposed, in which the main multi-wire current-carrying conductors of the cable are made of flexible copper, and the ground conductor is made of flexible copper. aluminum alloy, with improved thermomechanical characteristics, which allows to reduce the weight and price of the cable and for a long time to maintain the reliability of electrical contact, and the insulation of the cores and the sheath are made of elastomeric materials. 5 z.p. f-ly, 1 ill.

Description

The utility model relates to cable technology, namely to the designs of electrical flexible cables designed to connect mechanisms and equipment to electrical networks with a symmetrical load.

Known designs of electrical flexible cables put into operation according to TU 16.K73.05-93 and TU 16.K73.02-88, containing one or more copper conductors, core insulation made of rubber and an outer rubber sheath. The disadvantages of these designs of flexible cables are: low operating temperature of the cores, reduced electrical insulation resistance, reduced resistance to repeated kinks and abrasion, reduced frost resistance, increased flammability, low resistance to oils and fuels.

Currently, flexible cables with insulation of conductive cores, an outer sheath made of extruded thermoplastic materials are finding more and more widespread use. When using these materials, the complexity of manufacturing cables is significantly reduced, and their performance is also increased.

The closest in technical essence of the utility model and taken as a prototype is a flexible electric cable, according to the utility model patent RU No. 134691, IPC H01B 7/02, publ. November 20, 2013, bul. No. 32, containing one or more main conductive cores, a grounding core, core insulation from olefin thermoplastic elastomers, an outer polymeric sheath.

The technical problem and the disadvantage of the prototype is the increased weight and high cost of the cable, the complexity of manufacturing and low service life.

The technical objective of the utility model is to create a new power flexible cable not inferior to the prototype in terms of basic characteristics, and at the same time lighter, with high performance and thermomechanical characteristics, due to the execution of the ground conductor made of aluminum alloy, which has improved quality and reliability, due to the ability to for a long time to maintain the reliability of electrical contact.

In order to reduce the cost of the cable and reduce its weight, improve performance properties and facilitate installation, a design is proposed for a power electric flexible cable used for use in networks with a symmetrical load, in which the main multi-wire current-carrying conductors of the cable are made of flexible copper, and the ground conductor is made of flexible copper. aluminum alloy, with improved thermomechanical characteristics, which allows to reduce the weight and price of the cable and for a long time to maintain the reliability of electrical contact, and the insulation of the cores and the sheath are made of elastomeric materials.

The technical problem is solved due to the fact that the flexible power cable for networks with a symmetrical load contains the main flexible current-carrying conductors of a round shape, a flexible ground conductor, conductor insulation, at least one sheath, according to the utility model, the flexible ground conductor is made of aluminum alloy, with increased thermomechanical characteristics, while the main flexible current-carrying conductors are made of copper and are multi-wire, the insulation of the conductors and the sheath are made of elastomeric materials.

In addition, the main flexible current-carrying copper conductors are made of tin-plated tin or coated with a lead-tin alloy with a tin content of at least 40%.

In addition, the insulation of the cores is made of a heat-resistant alkenediene elastomer, for example, ATEPng brand.

In addition, the core insulation is made of heat-resistant thermoplastic elastomer, for example, brand TEPi-70.

In addition, the core insulation is made of rubber, for example, type RTI-1.

In addition, the shell is made of rubber, for example, type RShT-2.

In FIG. 1 shows a cross section of a power flexible cable with insulated round cores.

The device contains the main flexible multi-wire current-carrying conductors (1) of round shape and made of copper and a flexible grounding conductor (2) made of aluminum alloy with improved thermomechanical characteristics, while each of the conductors is insulated with polymer insulation (3) of elastomeric materials, insulated the cores are twisted around the core (without position), over the insulated cores there is one sheath (4) or several sheaths (5) made of elastomeric materials.

The manufacturing technology of the cable according to the utility model is implemented as follows.

The main conductive conductors are made of copper wires by twisting the wires into a strand, strands into a core. The conductive conductors of cables intended for operation in areas with a tropical climate are made of copper wire, tinned with tin or coated with a lead-tin alloy with a tin content of at least 40%.

Copper stranded main conductors (1) and a ground conductor (2) made of aluminum alloy with increased heat-resistant characteristics of a four-core cable are insulated (3) from an alkenediene elastomer or a heat-resistant thermoplastic elastomer or rubber.

The insulation may be applied, for example, in one or two layers. The insulation must fit snugly against the conductor but be easily detached without damaging the insulation itself. On the surface of the insulation there should be no defects that bring its thickness beyond the limit deviations. Insulated cable cores must be marked with a distinctive color or digital marking. When applying two-layer insulation, only the outer layer is allowed to be colored.

The insulated cable cores must be twisted. Insulated cable cores are twisted around a round or profiled core (without position) of extruded materials. Over the twisted cable cores, a sheath (4) made of thermoplastic elastomer grade TEPO-70 (TEPi-70 is allowed) or, for example, rubber type RSHT-2 with filling the inter-core space (with compression), without winding along the general twist is applied.

In multi-core cables, the use of a two-layer sheath (5) is allowed. The thickness of the outer layer of the shell is at least 50% of the total thickness of the shell.

In view of the fact that the electrical flexible cable is intended for connecting mechanisms and equipment to electrical networks with a symmetrical load, it must have conductive resistance to regular deformation processes and repeated bending, resistance to stretching and compression, the possibility of being used on an industrial and household machine, high conductive flexibility. Moreover, the cable with insulation made of alkendiene elastomer and thermoplastic elastomer brand TEPi-70 must be resistant to long-term allowable temperature on conductive cores up to 90°C, and cables with rubber insulation - up to 75°C. The cables must be resistant to changes in ambient temperature from minus 60 to plus 50°C and resistant to crushing loads of at least 8 kN.

In order to verify the compliance of the cables with the established requirements for the design, technology and materials used, the manufacturer carried out comprehensive tests of the power flexible electric cable in normal climatic conditions. All tests were successful, a positive result was achieved. The service life of such cables is at least 5 years, subject to the conditions of transportation, storage, laying (installation), and the operation of cables is not limited by the service life, but is determined by their technical condition.

The technical result of the claimed utility model is the creation of a new flexible power cable for networks with a symmetrical load, with higher operational and thermomechanical characteristics, due to the execution of an aluminum alloy ground conductor, economical and lighter in weight, less laborious in manufacturing and installation, with improved quality. and reliability, with the ability to maintain the reliability of electrical contact for a long time.

Thus, the claimed power flexible cable for networks with a symmetrical load with the above distinctive features, together with the known features, is new, industrially applicable and subject to legal protection as a utility model.

Claims (6)

1. A flexible power cable for networks with a symmetrical load, containing the main flexible current-carrying conductors of a round shape, a flexible grounding conductor, conductor insulation, at least one sheath, characterized in that the flexible grounding conductor is made of an aluminum alloy, with improved thermomechanical characteristics, while the main flexible current-carrying conductors are made of copper and are multi-wire, the insulation of the conductors and the sheath are made of elastomeric materials. 2. Electric power flexible cable according to claim 1, characterized in that the main flexible current-carrying copper conductors are made of tin-plated tin or coated with a lead-tin alloy with a tin content of at least 40%. 3. Electric power flexible cable according to claim 1, characterized in that the core insulation is made of heat-resistant alkenediene elastomer, for example, ATEPng brand. 4. Electric power flexible cable according to claim 1, characterized in that the core insulation is made of heat-resistant thermoplastic elastomer, for example, brand TEPi-70. 5. Electric power flexible cable according to claim 1, characterized in that the core insulation is made of rubber, for example, type RTI-1. 6. Electric power flexible cable according to claim 1, characterized in that the sheath is made of rubber, for example, type RSHT-2.

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