RU166057U1 - SINGLE-SHIPED SHIP SEALED FIRE-RESISTANT CABLE - Google Patents

Abstract

1. Single-core ship sealed fire-retardant cable, comprising a core consisting of an insulated multi-wire conductive core and enclosed in a polymer sheath with an insulating sealant core inserted into the inter-wire space of the conductive core, characterized in that the insulation of the conductive core is made of rubber silicone mixture that cements when exposed to fire and the insulating sealing filler of the interwire space of the core is a water lokiruyuschie yarns made based combustible synthetic volokon.2. A single-core ship's sealed fire-resistant cable according to claim 1, characterized in that the core of the cable is wrapped with a water blocking tape, a water blocking layer outward with an overlapping edge of at least 10%. 3. A single-core ship's sealed fire-resistant cable according to claim 2, characterized in that a screen is applied over the water blocking tape in the form of a braid of tinned copper wires with a nominal diameter of (0.12 ÷ 0.15) mm with a surface density coefficient of at least 60%. four. A single-core ship's sealed fire-resistant cable according to claim 3, characterized in that the screen is wrapped with a water blocking tape or water blocking threads. 5. A single-core shipboard sealed fire-resistant cable according to claim 1, characterized in that the polymer sheath is made of a cross-linked polymer composition that does not contain halogens. A single-core shipboard sealed fire-resistant cable according to claim 1, characterized in that the polymer sheath is made of polyurethane. 7. Single-core shipboard sealed fire-resistant cable according to claim 1, characterized in that

Description

The claimed utility model relates to the field of electrical engineering, namely to the design of a single-core ship cable with fireproof insulation and sealing filler. The cable is designed for stationary and overboard installation in structures and weapons facilities, military and naval equipment, and can also be used in electrical installations, in lighting power networks, in control and monitoring circuits, for the installation of electrical equipment, including fire protection systems protection, for rated alternating voltage up to 0.6 / 1.0 kV with frequency up to 400 Hz or direct voltage up to 1500 V inclusive.

A single-core marine, sealed, fire-resistant cable is known from the prior art, including a core consisting of an insulated multi-wire conductive core and enclosed in a polymer sheath, and an insulating sealing filler is introduced into the interwire space of the conductive core (see RU 57958, 10.27.2006, prototype). The prototype provides a fire-resistant barrier made in the form of a winding with overlapping mica tape, on top of which insulation of the conductive core is applied. In this case, the insulation of the conductive core is made of rubber based on synthetic rubber, and all the voids under the mica tape and the place where the tape overlaps are also filled with a rubber-based compound. The presence of a sealing filler provides longitudinal and radial tightness, however, the known cable has insufficient fire safety, in the event of exposure to an open flame source. This drawback is due to the fact that rubber based on synthetic rubber is a combustible substance with an ignition temperature> 315 ° C and a self-ignition temperature> 400 ° C. Thus, when exposed to an open flame source on the cable, cable construction elements, including the outer polymer sheath, core insulation, void filler under the mica tape, and interwire sealing filler will be subject to burnout with the release of toxic substances, since rubber emits carbon oxides during combustion. At the same time, the pressure of the gases emitted during the burning of the interwire sub-insulating sealing filler, as well as the void filler under the mica tape, can move the edges of the mica tape overlaps, completely destroying the insulation layer, especially in the places of cable bending. In addition, the mass rate of burnout of rubber varies for different conditions within (0.4-0.9) kg / (m2 · min), which indicates the generation of heat of combustion for a considerable time, and in the case of group installation, this factor causes the risk of additional ignition of cables included in the group installation.

The problem to which the claimed utility model is directed is to develop a cable design that meets all modern requirements for products for this purpose, namely, providing;

fire resistance, i.e. 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 with external hydrostatic effects;

at the same time, increasing fire safety indicators.

The technical result of the claimed utility model is to increase the fire safety of a single-core ship sealed fire-resistant cable.

Achieving the claimed technical result provides a single-core ship sealed fire-retardant cable comprising a core consisting of an insulated multi-wire conductive core and enclosed in a polymer sheath with an insulating sealant filled into the inter-wire space of the conductive core, while the insulation of the conductive core is made of silicone rubber that is ceramicizable during and the insulating sealing filler th space veins water blocking yarn is made on the basis of combustible synthetic fibers.

According to the claimed useful model, the core of the cable is wrapped with a water blocking tape, a water blocking layer outward with overlapping edges of at least 10%.

According to the claimed utility model, a screen is applied to the core over the water blocking tape in the form of a braid of tinned copper wires with a nominal diameter of (0.12 ÷ 0.15) mm with a surface density coefficient of at least 60%.

According to the claimed utility model, the screen is wrapped with a water blocking tape, a water blocking layer outward with overlapping edges of at least 10%.

According to the claimed utility model, the polymer shell is made of a cross-linked halogen-free polymer composition.

According to the claimed utility model, the polymer shell is made of polyurethane.

According to the claimed utility model, an outer screen in the form of a braid of tinned copper wires with a nominal diameter of (0.15 ÷ 0.20) mm and a surface density coefficient of at least 70% is superimposed on the polymer shell.

According to the claimed utility model, armor in the form of a braid made of galvanized steel round wires with a nominal diameter of 0.3 mm and a surface density coefficient of at least 70% is imposed on the polymer shell.

The claimed utility model is illustrated by drawings.

FIG. 1 is a cross-sectional view of a cable;

FIG. 2 is a view of a longitudinal section of a cable;

The figures shown;

- conductive core, consisting of twisted copper wires 1

- insulation made of rubber silicone mixture 2

- insulating sealing filler of the interwire space 3

- water blocking tape 4

- screen 5

- polymer shell 6

- outer screen or armor 7

The cable manufacturing technology according to the claimed utility model includes the following operations.

A multiwire conductive core is made from round copper wires 1, which, together with release wires 3, are pre-twisted on a twisting machine, and then insulation 2 is applied from the silicone rubber mixture, which ceramics under open flame conditions, by extrusion combined with the vulcanization process. To increase ash cohesion during sintering and ceramic formation in a silicone mixture for insulation of the conductive core 2, a reinforcing additive can be introduced previously in the following ratio by weight:

silicone rubber one hundred reinforcing filler 4-16.

The composition of the reinforcing filler includes:

polyorganosiloxanes - fifty% titanium mica - twenty% titanium oxides - twenty% cerium salts - 10%.

A water blocking tape 4 is applied to an insulated conductive core with a water blocking layer outward with an edge overlap of at least 10%. The insulating sealing filler 3 is a water-blocking thread made on the basis of combustible synthetic fibers, for example, of a polyester non-woven material with a layer of water-blocking powder and a water-soluble binder applied to it. The sealing filler 3 made of water-blocking threads in comparison with rubber based on rubber has a lower density and significantly lower mass (1-2% of the total mass of the cable), and therefore, when exposed to an open flame on the structure, it burns out much faster and does not affect the spread burning with group laying. Moreover, when burning water-blocking threads, much less toxic gases are released. And due to the fact that the insulation of the core 2 under the influence of the flame forms a continuous ceramic layer, the toxins released during the burning out of the insulating sealing filler 3 remain inside the ceramic layer and do not enter the atmosphere. In addition, through the use of water-blocking threads, provides greater flexibility and ease of cable design compared to the prototype. On top of the water blocking tape 4 on the braiding machine, a screen 5 may be applied, made in the form of a braid of tinned copper wires with a nominal diameter (0.12 ÷ 0.15) mm with a surface density coefficient of at least 60%. A water blocking tape or thread (not shown in the figure) may be applied to the screen 5. Directly on the screen, or on the water blocking tape / thread, laid on top of the core or screen, a polymer shell 6 is applied to the extrusion line. The polymer shell 6 can be made of a cross-linked polymer composition that is free of halogen or polyurethane. At the same time, an outer screen in the form of a braid of tinned copper wires with a nominal diameter of (0.15 ÷ 0.20) mm and a surface density coefficient of at least 70% can be applied on top of the polymer shell, on the braiding machine. In accordance with another embodiment of the utility model, armor in the form of a braid made of galvanized steel round wires with a nominal diameter of 0.3 mm and a surface density coefficient of at least 70% can be applied to the polymer sheath.

Thus, the claimed utility model satisfies the requirements for products for this purpose. That is, the cable has fire resistance, provided by insulation made of a material that ceramics under the influence of a flame and in a fire keeps its performance. Also, the cable does not leak moisture in case of damage to the insulation of the conductive core, due to the presence of an insulating filler. At the same time, the distinguishing features of the claimed utility model provide a general technical result consisting in increasing the fire safety of the cable with respect to the prototype, namely, the danger of the spread of burning of the cable product during group laying is eliminated, and the toxicity index of its combustion products is reduced.

Claims (8)

1. Single-core ship sealed fire-retardant cable, comprising a core consisting of an insulated multi-wire conductive core and enclosed in a polymer sheath with an insulating sealant core inserted into the inter-wire space of the conductive core, characterized in that the insulation of the conductive core is made of rubber silicone mixture that cements when exposed to fire and the insulating sealing filler of the interwire space of the core is a water lokiruyuschie yarns made based combustible synthetic fibers. 2. A single-core ship's sealed fire-resistant cable according to claim 1, characterized in that the core of the cable is wrapped with a water blocking tape, a water blocking layer outward with an overlapping edge of at least 10%. 3. A single-core ship's sealed fire-resistant cable according to claim 2, characterized in that a screen is applied over the water blocking tape in the form of a braid of tinned copper wires with a nominal diameter of (0.12 ÷ 0.15) mm and a surface density coefficient of at least 60 % 4. A single-core ship's sealed fire-resistant cable according to claim 3, characterized in that the screen is wrapped with a water blocking tape or water blocking threads. 5. A single-core shipboard sealed fire-resistant cable according to claim 1, characterized in that the polymer sheath is made of a cross-linked halogen-free polymer composition. 6. A single-core ship's sealed fire-resistant cable according to claim 1, characterized in that the polymer sheath is made of polyurethane. 7. A single-core ship's sealed fire-resistant cable according to claim 1, characterized in that the polymer sheath is applied to the outer screen in the form of a braid of tinned copper wires with a nominal diameter (0.15 ÷ 0.20) mm and a surface density coefficient of at least 70%. 8. A single-core ship's sealed fire-resistant cable according to claim 1, characterized in that the shell is coated with armor in the form of a braid of steel galvanized round wires with a nominal diameter of 0.3 mm and a surface density coefficient of at least 70%.

Images