RU2690110C2 - Fireproofing device for cable transition of bulkheads - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: invention relates to fire-prevention equipment and can be used for protection of cable crossings in strong ship bulkheads, industrial facilities with increased fire hazard. Fireproof device of cable transition of strong bulkhead contains installed fixed connection of cable and its casing. Space between the casing and the cable connection is filled with a fire-retardant material with thixotropic properties and high viscosity which at high temperature is converted into a foamed silicate with low heat conductivity and low mechanical strength. Said fire-retardant material at high temperature is converted into foam-silicate mass with low thermal conductivity and low mechanical strength. Protective casing is dismountable. Foam silicate mass filling the space between the casing and the cable joint is easily removable.EFFECT: technical result consists in simplification of design, improvement of reliability, manufacturability and efficiency of fire protection due to use of technology of counteraction to fire, based on use of fire-retardant material, having thixotropic properties and high viscosity.1 cl, 2 dwg

Description

The invention relates to fire-fighting technical means and can be used to protect cable crossings in strong bulkheads of ships, industrial facilities with increased fire hazard, etc.

Under such operating conditions, flame retardants are subject to increased requirements to ensure the duration of fire protection of cable crossings in strong bulkheads of ships, that is, the time required for taking measures to actively counteract the spread of fire and its elimination.

There are various devices for heat and fire protection using fibrous and foamed materials [1-4], including the means of thermal fire protection valves valves and pipelines [5].

It is also known a bulkhead sealing device of increased reliability [6] providing the highest degree of their resistance to the effects of fires and explosions. The device, on each side of the bulkhead, is structurally made in the form of two buildings, external and internal, having the shape of a hemisphere. The space between them is filled with the Volgarit-ABC fire extinguishing powder or the compound of the EP-120 Sploter. They have a quenching effect on the flame and, thus, prevents its spread. The effectiveness of this technical solution is reduced due to the possibility of fire penetration through the bulkhead through the channel, which is formed as the insulation of the cable and its seal burns out. This device is adopted by the authors for the prototype.

In accordance with the prototype, the device contains a rigid duct, made in the form of an open container, the internal volume of which is filled with a special highly viscous material, which, when exposed to temperatures above 150 ° C, begins to turn into a penosilicate mass with low thermal conductivity. In this case, the protected object can be made in the form of valves and fittings with the housing and the main shaft connected with the locking element.

The bottom of the box is made of a rigid magnesite plate, and a box-shaped frame with walls made of multi-layered panels, with a carrier assembly located under the bottom of the means, including a supporting platform in which a shaft is mounted connected to the main shaft of the locking element. Between the panel bottom and the panels of the box are installed seals of soft fire-resistant material, glued with heat-resistant glue to the multi-layered panels of the box, walled with a steel amplifier for its mechanical strength and equipped with handles with the possibilities of its removal, thus enhancing its operational capabilities and trouble-free operation.

Common disadvantages of analogs and prototypes are the absence of elements that prevent depressurization of the route when it passes through a solid and hermetic bulkhead due to burnout of seals or cable jacket, low effectiveness of fire protection when using fibrous materials.

The main objective of the proposed device is to ensure, during the standard time, tightness and operability of the cable junction of a solid bulkhead when extreme temperature and fire effects occur in the room.

The technical result is to simplify the design, increase reliability, manufacturability and efficiency due to the use of a qualitatively new fire resistance technology based on the use of a new flame retardant material with thixotropic properties and high viscosity, which at high temperature turns into a foam silicate mass with low thermal conductivity and low mechanical at the same time, the protective casing is collapsible, and the composition filling the space between the casing and the cable th compound legkoudalimym.

To do this, in the fire protection device of the cable junction of a strong bulkhead between the protective casing and the cable connection is an insert made of solid consistent material with thixotropic properties and high viscosity, which at high temperature turns into a foam silicate mass with low thermal conductivity and low mechanical strength, filling the space between the casing and cable connection.

In this case, the protective casing is made detachable, and the plane of its connectors are mutually perpendicular and parallel to the axis of the cable connection, and the flame retardant composition is easily removable. The composition that fills the space between the casing and the cable connection, after heat exposure is easily removable.

The general scheme of the fire retardant cable transition device of a solid bulkhead is shown in figure 1. Figure 2 shows an enlarged scale section of the device along section A-A of figure 1.

The fire retardant device contains a stationary and hermetically mounted on the bulkhead 1 cup 2 with hermetically sealed, fixed electrical conductors, to which plug connectors 3 are connected on both sides of the bulkhead 1 with hermetically connected cable 4.

Each plug 3 is enclosed in a protective casing 5, the inner surface of which is lined with a multi-layer fire-resistant coating 6 with the inclusion of asbestos fabric. The casing 5 consists of two interlocking semi-bodies 7 and 8, figure 2, which is connected by means of a locking device 9. Semi-bodies 7 and 8 are fixed in a closed state by a sleeve 10, figure 2 and 1 with an annular edge 11, which fit into the corresponding annular groove of the protective casing 5 .

In the space between the plug connector 3 and the protective cover 5 install the liner 12, made of two half-liners. When this plane of the connector of the protective casing 5 and the liner 12 is made parallel to the axis 13 of the cable junction and mutually perpendicular.

Semi-liners are made of a conservative material with high energy consumption during heat / fire exposure with the formation of foam glass having a low thermal conductivity.

The device operates as follows.

When the plug 3 is mounted on the cable 4, an annular sleeve 10 is pre-worn. At the end of the mounting of the plug connector 3, the half-liners are superimposed on both sides, forming a single insert 12. Then, over it, observing the perpendicularity of the surfaces of the connectors of the insert 12 and the protective cover 5, two semi-bodies 7 and 8 so that the connector of one of the semi-bodies protruding beyond the plane is located in the corresponding groove of the second semi-body, corresponding to it, ensuring the integrity of the protective skin xa 5 after installation, for example, on the screws of the sleeve 10, after which the casing 5 finally fastens on the bulkhead 1.

During thermal / fire impact on the casing 5, the liner 12 turns into foam glass, preventing the destruction of the plug connector 3 during the normalized time.

Example. An experimental model of a fire retardant device, consisted of a steel thin-walled glass with a diameter of 37 mm and a length of 60 mm with a wall thickness of 0.5 mm, the inner walls of the glass were lined with asbestos cardboard 1 mm thick. A flame retardant composition consisting of 84.8% by weight of glycera-silicon obtained from glycerin and tetroethoxysilane at a molar ratio of glycerin / tetroethoxysilane 3/1, potassium carbonate 8.0% by mass and A-175 aerosil 7.2% by mass was pressed into the glass. A steel tube with an outer diameter of 6 mm, a wall thickness of 1.5 mm and a length of 100 mm to a depth of glass of 45 mm was inserted into the center of the glass with flame retardant on one side, the glass was wrapped with foil and into a pocket (tube with a diameter of 6 mm) inserted a thermocouple. The test sample was placed in a muffle furnace, preheated to 1000 ° C, and recorded temperature readings and time: 100 ° C - 6 min; 200 ° C - 15 min; 300 ° C - 20 min.

During the repair period, the foamglass easily crumbles during physical exertion, which prepares the possibility of restoring the performance of the flame retardant device.

The use of a flame retardant device in conjunction with the proposed flame retardant composition leads to a significant increase in the flame retardant properties of the protected objects, which indicates the achievement of the stated goals of fire protection and the performance of the claimed device.

Claims (2)

1. Fire retardant cable transition device durable bulkhead containing fixed fixed cable connection and its casing, the inner surface of which is lined with multi-layer fire-resistant fabric, characterized in that between the protective casing and cable connection is an insert made of solid consistent material that fills the space between the casing and cable connection , it uses a composition with thixotropic properties and high viscosity, which at high temperature turns into a foam tnuyu mass with low thermal conductivity and low mechanical strength. 2. Fire retardant cable transition device durable bulkheads under item 1, characterized in that the protective casing is made collapsible, and the plane of the connectors are mutually perpendicular and parallel to the axis of the cable connection, and the composition, filling the space between the casing and cable connection, after heat exposure is easily removed.

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