RU70405U1 - CABLE MEASURING - Google Patents

Abstract

The utility model relates to cable technology, namely to measuring cables. Insulated conductive conductors containing a winding of mica tape over each vein with an overlap of preferably at least 40% are twisted together in pairs. The screen for a pair of cores is made in the form of a winding from an aluminum-polymer tape with metal inwards with a contact conductor made of tinned copper wire laid under it. On top of the screen a winding of lavsan tape is applied, an inter-screen layer made of mica-containing tape superimposed with overlapping. The common screen is made in the form of a braid of tinned copper wires, and the protective sheath is made of a cross-linked polyolefin composition that does not contain halogens. The technical result is a reduced smoke emission in a fire, maintaining operability when exposed to an open flame and during prolonged exposure to radiation.

Description

The utility model relates to the field of electrical engineering, namely to the construction of measuring cables intended for the needs of the national economy and export, which can be designed to transmit low-level signals to the information collection system during fixed installation, including inside the containment area in AC systems.

Known cable containing at least one pair of single-wire or multi-wire conductive cores, coated with polymer insulation and twisted together. A polyimide film with a longitudinal overlay or in the form of a winding with overlapping, a screen in the form of a braid of tinned copper wires is laid over twisted cores. The shielded pairs are twisted into a cable and an inter-screen layer consisting of a winding with a polyimide film is applied on top. A braided screen made of tinned copper wires is superimposed on top of the inter-screen layer. A protective sheath of polyvinylchloride plastic compound has been applied over the screen (Nomenclature reference book for cables and wires. OAO Expocable, Podolsk, 2000, p. 28).

This technical solution is the closest to the proposed combination of features.

The disadvantages of the known cable include the fact that it does not meet the requirements for non-distribution of combustion when laying in bundles, for smoke emission during combustion and smoldering, as well as for the corrosion activity of smoke and gas products (halogen-containing compounds are released during combustion), which leads to negative consequences for human health, as well as the failure of electronic equipment transmitting information, and also does not meet the requirements for fire resistance and service life in the containment area of a nuclear power plant when exposed to rad radiation radiation.

The task was to develop the design of the measuring cable, which has a reduced smoke emission and does not emit halogens in fire conditions while maintaining a high degree of non-proliferation of combustion when laying the cable in bundles, as well as maintaining operability when exposed to an open flame and during prolonged exposure to radiation.

The technical result is achieved in that the measuring cable containing at least one pair of single-wire or multi-wire conductive wires coated with polymer insulation and twisted together, a screen sequentially laid on top of them, an inter-screen layer consisting of a winding of a polymer tape, a common screen in the form of a braid of tinned copper wires and a protective sheath of a polymer composition, additionally contains on top of each

a conductive core, a winding of mica tape, a winding of lavsan tape on top of the pair’s screen, a screen for a pair of cores made in the form of a winding of aluminum polymer tape with metal inside laid under it a contact conductor made of tinned copper wire, the inter-screen layer is made of mica-containing tape, superimposed with overlapping, and the protective shell is made of a crosslinked halogen-free polyolefin composition.

It is preferable to apply a mica tape on each conductive core with an overlap of at least 40%.

If there is more than one pair of conductive wires in the cable, the pairs of conductive wires shielded and wrapped in lavsan tape are twisted into a core, over which a winding of dacron tape is applied.

The utility model is illustrated in the drawing, which shows a measuring cable in section.

The cable contains conductive conductors 1 with a winding 2 of mica tape applied overlapping, coated with insulation 3 and twisted into pairs, a screen along a pair of cores made in the form of a winding of aluminum-polymer tape 4 with metal inside and a contact conductor 5 made of tinned copper wire laid under it , winding 6 of the dacron tape over the screen over a pair of cores, winding 7 of the dacron tape over the shielded pairs of cores twisted into the core, the inter-screen layer in the form of a winding from mica tape 8, the common screen 9 in the form of a copper braid tinned wires, a protective sheath 10 of the crosslinked polyolefin composition containing no halogen.

The following is information confirming the feasibility of implementing a utility model.

The cable is made from well-known commercially available materials.

Cable manufacturing technology is traditional and boils down to the following.

The wire for the manufacture of conductive conductors 1 is made by drawing. Stranded cores 1 are twisted from separate wires on a cigar or frame type machine.

The imposition of insulation 3 and the protective sheath 10 is carried out by extrusion.

The screen 4 of the aluminum-polymer tape is superimposed by a spiral winding on a winding machine.

The contact conductor 5 of tinned copper wire is made of soft copper wire and laid in a straight line.

Windings 2, 6, 7 and 8 are applied on a winding machine.

The screen 9 is applied on a braiding machine.

Samples of the proposed measuring cable were tested for non-propagation of combustion when placed in a beam in accordance with GOST R IEC 60332-3-23-2005 for smoke generation in accordance with GOST R IEC 61034-2-2005, for the corrosion activity of combustion products in accordance with GOST R IEC 60754-1-99 and GOST R IEC 60754-2-99, fire resistance according to GOST R IEC 60331-23-2003 and radiation resistance.

The results are shown in the table.

Cable specifications Name of characteristic Technical requirements Cable product Famous cable Proposed cable 1. Compliance of cables with fire safety requirements: 1.1. Non-proliferation of combustion in accordance with GOST R IEC 60332-3-23-2005, category B The length of the burnt area is not more than 2.5 m more than 3.0 m, does not match no more than 1,5 m, corresponds 1.2. Smoke during combustion and decay according to GOST R IEC 61034-2-2005 Light transmission at least 60% 45-50% does not match 90-96% match 1.3. Corrosion activity of smoke and gas products during combustion and decay according to GOST R IEC 60754-2-99: - gas content of halogen acids in terms of Hcl no more than 5.0 mg / g 29 does not match less than 4.0 corresponds conductivity of an aqueous solution with adsorbed smoke products not more than 10.0 μS / mm 13-20 does not match less than 9.0 corresponds pH value (acid value) not less than 4.3 2.1-2.5 does not match 4.5-4.7 corresponds 1.4. Fire resistance according to GOST R IEC 60331-23-2003 maintaining operability in conditions of exposure to an open flame for at least 30 minutes no more than 5 min., does not correspond more than 30 min., corresponds 2. Irradiation in air to an absorbed dose of 30 Mrad - elongation at break of the containment not less than 50% 25% does not match 65% corresponds

Claims (3)

1. Measuring cable, containing at least one pair of single-wire or multi-wire conductive conductors coated with polymer insulation and twisted together, a screen sequentially laid on top of them, an inter-screen layer consisting of a winding of a polymer tape, a common screen in the form of a braid of tinned copper wires and a protective sheath made of a polymer composition, characterized in that it additionally comprises, on top of each current-carrying core, a winding of mica tape overlapped, a winding of lavs a new tape on top of the pair’s screen, the screen on the pair of cores is made in the form of a winding of aluminum-polymer tape with metal inside with a contact conductor of tinned copper wire laid under it, the inter-screen layer is made of mica-containing tape, superimposed overlapping, and the protective shell is made of a cross-linked polyolefin composition, halogen free. 2. The cable according to claim 1, characterized in that the mica tape on top of each conductive core is superimposed with an overlap of at least 40%. 3. The cable according to claim 1 or 2, characterized in that the pairs of conductive conductors shielded and wrapped in lavsan tape are twisted into a core, over which a winding of lavsan film is applied.