RU106435U1 - DATA CABLE - Google Patents

Abstract

 1. A data cable containing at least one coaxial pair made of an inner multi-wire conductor of tinned copper wire, plastic insulation, an external conductor in the form of a braid of tinned copper wire and a plastic sheath, characterized in that the insulation is made of crosslinked polyethylene, on top of which an additional layer of a cross-linked electrically conductive composition based on polyethylene with a specific volumetric electrical resistance of not more than 103 Ohm · cm, and a plastic shell It executes a crosslinked polyolefin composition containing no halogen, an oxygen index of not less than 30! 2. The cable according to claim 1, characterized in that two coaxial pairs of two cordes from a halogen-free polyolefin composition with an oxygen index of at least 30 are twisted into a core, over which a winding of a polymer tape is sequentially applied, a screen in the form of a braid of galvanized steel wires with a surface density of not less than 90%, a braided shield of tinned copper wires with a surface density of not less than 90%, a winding of polymer tape superimposed overlapping, and an outer shell of a crosslinked polyolefin composition and halogen-free, with an oxygen index of not less than 30! 3. The cable according to claim 1 or 2, characterized in that the twisted core of the cable further comprises at least two pairs of copper conductive conductors insulated with cross-linked polyethylene, on top of which a screen of aluminum-polymer tape with a tinned copper wire longitudinally laid under it is sequentially laid under it and extruded shell of crosslinked polyolefin co

Description

The utility model relates to the field of electrical engineering, namely to the construction of data transmission cables designed for the needs of the national economy and export, which can be used to transmit low-level signals to a data collection system for stationary installation, including inside the nuclear power plant’s containment zone.

Known cable containing one coaxial pair made of an internal multiwire conductor of tinned copper wire, insulation of polyethylene, an external conductor in the form of a braid of tinned copper wire and a sheath of polyethylene (GOST 11326.71-79. RF cable brand RK 75-2-13 )

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 the voltage of electrical noise arising in the insulated conductor of the cable during vibration, for non-propagation of combustion, for smoke emission during combustion and smoldering, and also does not meet the requirements for the service life in the containment area of nuclear power plants when exposed to the external environment of the hermetic zone. Also, the known cable contains one coaxial pair and does not have twisted pairs for data transmission, while modern systems for transmitting signals and collecting information require a combination cable containing at least two coaxial pairs and twisted pairs.

The task was to develop cable designs for data transmission with a low level of voltage of electrical noise arising in the insulated conductor of the cable during vibration, with one or two coaxial pairs, as well as with two twisted pairs for data transmission with reduced smoke emission, not emitting halogens in a fire, not spreading combustion, as well as maintaining operability under prolonged exposure to the external environment of the nuclear zone of the nuclear power plant.

The technical result consists in increasing the fire safety of the cable, in reducing the voltage level of electrical noise, in meeting modern requirements for the transmission and collection of information, in meeting the requirements for radiation resistance of the cable.

The technical result is achieved in that in a data cable containing one coaxial pair made of an internal multi-wire conductor of tinned copper wire, plastic insulation, an external conductor in the form of a braid of tinned copper wire and a plastic sheath, the insulation is made of cross-linked polyethylene, on top of which additionally superimposed conductive layer from the crosslinked polyethylene based composition with a specific volume electric resistance is not more March ¹⁰ ohm · cm and the sheath is made us of the crosslinked polyolefin composition containing no halogen, an oxygen index of not less than 30.

The cable may contain two coaxial pairs and two cordes of a halogen-free polyolefin composition with an oxygen index of at least 30 twisted into a core over which a winding of a polymer tape is sequentially applied, a shield in the form of a braid of galvanized steel wires with a surface density of at least 90 %, a screen in the form of a braid of tinned copper wires with a surface density of at least 90%, a winding of a polymer tape superimposed overlapping, and an outer shell of a crosslinked polyolefin composition, not soda halogen-containing, with an oxygen index of at least 30.

The cable may also contain a twisted core consisting of two coaxial pairs, three cordes of a halogen-free polyolefin composition with an oxygen index of at least 30, and an element consisting of at least two pairs of copper conductive conductors insulated with cross-linked polyethylene, on top of which are sequentially laid screen made of aluminum-polymer tape with tinned copper wire longitudinally laid underneath it and an extruded sheath of a cross-linked polyolefin composition without halogens with oxygen ind exom not less than 30.

The utility model is illustrated in the drawing (Figure 1), which shows a cable for data transmission in section.

The cable contains coaxial pairs consisting of an inner multi-wire conductor of tinned copper wire 1, insulation 2 of cross-linked polyethylene, layer 3 of a cross-linked conductive composition based on polyethylene with a specific volumetric electrical resistance of not more than 10 ³ Ohm · cm, an external conductor 4 in the form of a braid made of tinned copper wire, sheath 5 of a cross-linked polyolefin composition not containing halogen, an additional element consisting of two pairs of copper conductive conductors 6 with insulation 7 of cross-linked polyethylene, On top of which a screen 8 of an aluminum-polymer tape with a tinned copper wire 9 longitudinally laid under it and an extruded sheath 10 of a cross-linked polyolefin composition containing no halogens with an oxygen index of at least 30, cordels 11 of a halogen-free polyolefin composition with oxygen index not less than 30, coaxial pairs, an additional element and the corners are twisted into a core, over which a winding 12 of a polymer tape is applied, a screen 13 of galvanized steel wires, a screen of 14 made of honey tinned wires, winding 15 of a polymer tape superimposed overlapping, the outer shell 16 of a cross-linked polyolefin composition that does not contain halogens, with an oxygen index of at least 30.

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

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

As insulation material 2, 7, a radiation-crosslinkable composition of polyethylene grade 153-01 K or 153-02 K or a silanol-crosslinkable composition of polyethylene grade LE 4423 / LE 4476 can be used.

As the material of the electrically conductive layer 3, a radiation-crosslinkable polyethylene composition of electrically conductive grade Tomolen P2ES-12 or Tomolen P2ES-22 or silanol-crosslinkable polyethylene composition of grade LE 0574 can be used.

As the material of the shells 5, 10, 16, a halogen-free radiation-crosslinkable polymer composition of the Vintes 2010 brand or a halogen-free silanol-crosslinkable composition SX538 / CM540U can be used.

As a material for the manufacture of cordel 11, a halogen-free polymer composition of the brand Vintes 2010 can be used.

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

The wire for the manufacture of conductive conductors 1 and 6 is made by drawing. Stranded wires 1 and 6 are twisted from separate wires on a cigar or frame type machine.

Overlay insulation 2, 7 of the screen 3 of the electrically conductive polyolefin composition, shells 5, 10 and 16 is carried out by extrusion.

Cordels 11 are made by extrusion.

Radiation crosslinking of insulation, a screen of an electrically conductive polyolefin composition and shells is carried out on an industrial electron accelerator.

The crosslinking of silanol-crosslinkable compositions is carried out in a hot water bath or in a steam sauna.

Screens 4, 13 and 14 of copper and steel wires are imposed on braiding machines.

The screen 8 in the form of a winding and a winding 12 and 15 impose on a winding machine.

Samples of the proposed cables were tested for the voltage of electrical noise arising in the insulated conductor of the cable during vibration, for non-propagation of combustion, for smoke emission during combustion and decay, and for radiation resistance.

The results are shown in the table.

Claims (3)

1. A data cable containing at least one coaxial pair made of an inner multi-wire conductor of tinned copper wire, plastic insulation, an external conductor in the form of a braid of tinned copper wire and a plastic sheath, characterized in that the insulation is made of crosslinked polyethylene, on top of which an additional layer of a cross-linked electrically conductive composition based on polyethylene with a specific volumetric electrical resistance of not more than 10 ³ Ohm · cm, and a plastic shell made of a cross-linked halogen-free polyolefin composition with an oxygen index of at least 30. 2. The cable according to claim 1, characterized in that two coaxial pairs of two cordes of a halogen-free polyolefin composition with an oxygen index of at least 30 are twisted into a core, over which a winding of a polymer tape is sequentially applied, a screen in the form of a steel braid galvanized wires with a surface density of not less than 90%, a braided shield made of tinned copper wires with a surface density of not less than 90%, a winding of a polymer tape superimposed overlapping, and an outer shell of a crosslinked polyolefin composition halogen-free, with an oxygen index of at least 30. 3. The cable according to claim 1 or 2, characterized in that the twisted core of the cable further comprises at least two pairs of copper conductive conductors insulated with cross-linked polyethylene, on top of which a screen of aluminum-polymer tape with a tinned copper wire longitudinally laid under it is sequentially laid under it and an extruded shell of a crosslinked halogen-free polyolefin composition with an oxygen index of at least 30 and a third cordel of a halogen-free polyolefin composition with an oxygen index of at least thirty.