RU57958U1 - SEALED, BASICALLY FIRE RESISTANT CABLE - Google Patents

Abstract

The utility model relates to designs of sealed fire-resistant cables intended for operation in power networks, as well as in control circuits, control and alarm systems of underwater vehicles.

The cable according to option 1 contains one or more conductive cores, rubber insulation, cavity fillers, rubber sheath. The insulation of each core additionally has a fire-resistant barrier in the form of a winding with one or two mica tapes sealed with a vulcanizing dielectric compound, which fills all the voids under and between the tapes, as well as the place where the tapes overlap, and the interwire, insulating and core voids are made of thermosetting sealing compounds vulcanized by applying insulation and shell.

The cable according to option 2 contains one or more conductive cores, insulation made of polyethylene, void fillers, synthetic tape under the sheath, sheath made of PVC compound. The insulation of each core additionally has a fireproof barrier in the form of a winding with overlapping one mica tape and is sealed with a dielectric composition that fills the voids under the tape and the place where the tape overlaps, and the fillers of the interwire, insulating and inter-core voids are made of thermoplastic sealing compound.

The cable designs allow maintaining its operability during a fire, and in the event of an emergency damage or cable breakage, water leakage in the longitudinal direction is excluded.

Description

The utility model relates to the field of electrical engineering, namely to the design of sealed fire-resistant cables intended for operation in power networks, as well as in control circuits, control, signaling and inter-instrument connections of underwater vehicles.

The main indicators characterizing the behavior of these cables in emergency situations are:

- fire resistance, that is, the ability of a cable to transmit electrical energy when exposed to a flame during a fire;

- radial and longitudinal tightness, that is, the exclusion of the passage of water through the internal voids of the cable when exposed to hydrostatic pressure.

Fire resistance can be achieved through the use of fireproof insulation or the introduction of a thermal barrier in addition to working electrical insulation.

Tightness can be ensured by filling all voids in the cable with special sealing compounds having high adhesion to the structural elements of the cable.

Known technical solutions for ensuring fire resistance of insulation of cores through the use of mica or ceramic coatings with the addition of organosilicon resin and solvent. (Japanese Application No. 57-12248 of 09/21/1978, and No. 57-12249 of 09/21/1978)

Known fireproof electrical cable containing one or more conductive conductors with flame retardant and polymer insulation, a filler, an outer sheath. The cable is characterized in that the fire-resistant insulation of each core is made in the form of a winding with one or two glass mica, superimposed overlapping in one direction, and the polymer insulation and / or outer shell are made of cross-linked materials. (Patent for a utility model of Russia No. 47131, Н 01 В 7/02 dated 08.02.2005).

The disadvantages of these solutions are the significant complexity of the cable manufacturing technology in the first case and the lack of longitudinal tightness in both cases.

The prototype according to the first option is a sealed cable of the KRNG-60 brand, which includes conductive conductors with a cross section of 1.5-300 mm ² , insulation and a sheath of rubber, all voids in the cable are filled with thermosetting sealing compounds (interwire, insulating, inter-core). Cables are designed to transmit electrical energy and electrical signals and are sealed in the longitudinal and radial directions (TU 16.K78-11-90 "Power and control cables and wires, sealed").

The prototype according to the second option is a sealed cable of the SMPVG-60 brand, which contains conductive conductors with a cross section of 0.75-2.5 mm ² , insulation made of polyethylene, a sheath of PVC compound, all voids in the cables are filled with a thermoplastic sealing compound. The cables are designed to transmit electrical signals and are sealed in the longitudinal and radial directions (TU 16.K 71-106-90 "Ship cables with plastic insulation and sheath, sealed").

The disadvantages of these cables include the fact that they are not fireproof, i.e. when tested in a standard flame according to IEC 60331-21, insulation breakdown occurs after 1-5 minutes depending on the number of cores, cross-section and the presence of the cable screen, and according to IEC 60331-21, the minimum fire resistance time should be 90 minutes.

The present utility model is based on the task of creating such a design of a sealed, mainly fire-resistant cable, in which due to the introduction of new elements, their new relative position and the use of new materials, the cable would work during a fire, and in case of accidental damage or cable breakage water leakage in the longitudinal direction.

The task is achieved in that in a sealed, mainly fire-resistant cable according to option 1, including one or more conductive cores, rubber insulation, hollow core, rubber sheath, according to a utility model, the insulation of each core additionally has a fireproof barrier in the form of a winding with one or two mica tapes with increased mechanical strength, sealed with a vulcanizing dielectric composition, which fills all the voids under the tape and the place where the tape overlaps, and the case of two belts, and the voids between the ribbons, and fillers mezhduprovolochnyh, podizolyatsionnyh mezhduzhilnyh voids and made of thermosetting sealant compositions, when vulcanized applying insulation and sheathing.

The dielectric sealing compound, the sub-insulation and the inter-core fillers are vulcanized at elevated temperature, for example, during the vulcanization of rubber insulation or rubber sheath.

The task is achieved in that in a sealed, mainly fire-resistant cable according to option 2, including one or more conductive cores, insulation made of polyethylene, core holders, tape under the sheath, sheath made of PVC compound according to the utility model, the insulation of each core additionally has a fire-resistant barrier in in the form of a winding with the overlapping of one mica tape with increased mechanical strength and sealed with a dielectric composition that fills the voids under the tape and the place covering of the tape and fillers mezhduprovolochnyh, podizolyatsionnyh mezhduzhilnyh voids and made of a thermoplastic sealant.

The dielectric sealing compound does not cure or cure at a temperature below the softening temperature of the polyethylene insulation.

The advantage of these options sealed, mainly fire-resistant cables is that:

- insulation from mica tape with an electric strength of at least 12 kV / mm ensures the operability of the cable when exposed to flame for at least 90 minutes at an operating voltage of at least 700 V;

- the dielectric sealing composition retains dielectric properties during combustion during flame exposure, thereby increasing the fire resistance of the insulation from the mica tape;

- the dielectric sealing compound has adhesion to the copper conductive core and the mica tape, fills all the voids not only under the tape, but also in the place where the tape overlaps, thereby ensuring the tightness of fireproof insulation at a pressure of up to 60 kgf / cm ² in the longitudinal direction.

To increase the tightness of the conductive core, a layer of an insulating sealing compound having a higher adhesion to the copper core than a dielectric sealing compound can be additionally applied.

The cable may additionally have a screen of each core and / or a common screen, which significantly increases the noise immunity of the cable.

The proposed utility model is schematically depicted in figures 1-3.

Figure 1 shows a longitudinal section of a separately insulated sealed fire-resistant core. Figure 2 shows a cross section of a three-core sealed, mainly fire-resistant cable according to option 1. Figure 3 shows a cross section of a seven-core sealed, mainly fire-resistant cable according to option 2.

The figures show: 1 - conductive core; 2 - interwire and insulating filler; 3 - dielectric sealing composition; 4 - inter-core filler; 5 - fire-resistant barrier of mica tape (tapes); 6 - isolation; 7 - tape; 8 - outer shell.

The sealed, mainly fire-resistant cable according to option 1 includes one or more conductive conductors 1, insulation 6 made of rubber, fillers 2, 4 of interwire, insulating and inter-core voids, sheath 8 of rubber. In the cable, the insulation 6 of each core 1 additionally has a fireproof barrier 5 in the form of a winding with overlapping one or two mica tapes, sealed with a vulcanizing dielectric composition 3, which fills all the voids under and between the tapes, as well as the place where the tapes overlap.

A sealed, mainly fire-resistant cable includes one or more conductive conductors 1, insulation 6 made of polyethylene, fillers 2, 4 of interwire, insulating and inter-core voids, synthetic tape 7 under sheath 8, sheath 8 made of polyvinyl chloride plastic compound. In the cable, the insulation 6 of each core 1 additionally has a fire-resistant barrier 5 in the form of a winding with overlapping one mica tape and is sealed with a dielectric composition 3, which fills the voids under the tape and the place where the tape overlaps.

Example 1. A sealed, mainly fire-resistant cable according to option 1 (figure 1) contains three conductive stranded conductors 1 with a cross section of 25 mm ² . The inter-wire voids of each core 1 are filled with a sealing compound 2. For each current-carrying core 1 are sequentially superimposed:

- a layer of insulating sealing composition 2 based on rubber;

- a layer of a dielectric sealing composition 3 based on rubber;

- winding with an overlap of at least 25% with two mica tapes 5;

- a layer of insulating sealing composition 2 based on rubber;

- insulation 6 of rubber based on synthetic rubber.

Interwire, insulating and dielectric sealing compounds 2, 3 are vulcanized by applying and vulcanizing rubber insulation 6.

Three insulated sealed cores 1 are twisted into a core, while the inter-core voids are filled with a thermosetting sealing compound 4 based on rubber. A shell 8 of rubber based on chloroprene rubber is superimposed on top of the core. The inter-core sealing composition 4 is vulcanized by applying and vulcanizing the rubber shell 8.

Example 2. A sealed, mainly fire-resistant cable according to option 2 (figure 2) contains seven conductive stranded conductors 1 with a cross section of 1.5 mm ² . The interwire voids of each core 1 are filled with a thermoplastic sealing compound 2 based on polyisobutylene. In the conductive conductor 1 sequentially superimposed:

- a layer of a dielectric sealing composition 3 based on rubber;

- winding with an overlap of at least 50% mica tape 5;

- a layer of insulating thermoplastic sealant composition 2 based on polyisobutylene;

- insulation 6 of low pressure polyethylene.

Seven insulated sealed cores 1 are twisted into a core. The inter-core voids are filled with a thermoplastic sealing compound 4 based on polyisobutylene. Over the core a winding is applied with a synthetic tape 7 made of polyvinyl chloride plastic compound and a sheath 8 made of polyvinyl chloride plastic compound.

Claims (6)

1. A sealed, mainly fire-resistant cable, including one or several conductive cores, rubber insulation, fillers of interwire, insulating and inter-core voids, a rubber sheath, characterized in that the insulation of each core additionally has a fire-resistant barrier in the form of a winding with one or two overlapping mica tapes sealed with a vulcanizing dielectric composition that fills all the voids under and between the tapes, as well as the place where the tapes overlap. 2. The cable according to claim 1, characterized in that an additional layer of insulating sealant is applied over the conductive core. 3. The cable according to claim 1 or 2, characterized in that it further has a screen of each core and / or a common screen. 4. A sealed, mainly fire-resistant cable, including one or several conductive cores, polyethylene insulation, filaments of interwire, insulating and inter-core voids, a synthetic tape under the sheath, a sheath of polyvinyl chloride plastic compound, characterized in that the insulation of each core additionally has a fire-resistant barrier in the form windings with overlapping one mica tape and sealed with a dielectric compound that fills the voids under the tape and the place of overlapping tape. 5. The cable according to claim 4, characterized in that an additional layer of insulating sealant is applied over the conductive core. 6. The cable according to claim 4 or 5, characterized in that it further has a screen of each core and / or a common screen.