RU2229909C1 - Fire protective covering screen - Google Patents

Abstract

FIELD: fire fighting equipment, particularly for fire protecting pipelines with expansible fittings, for local fire extinguishing in industrial and civil objects with high fire risk, for preventing against fire penetration, for increasing fire-resistance of oil pipelines and components thereof. SUBSTANCE: fire protective covering screen (four variants) has flexible outer fire-proof layers and intermediate heat resistant layers formed of fiber materials with density increasing in fire affect direction. Screen ends are overlapped. Outer layers may be impregnate with heat-reflective composition or swelling fire-resistant composition. Covering screen has dome-shaped patch which conceals pipeline fittings extended through covering opening. Covering screen and patch are secured by coupling bands and ropes. EFFECT: increased efficiency. 20 cl, 10 dwg

Description

The invention relates to fire-retardant fire fighting equipment and can be used to protect pipelines and shutoff valves acting on them as screens, shelters in industrial and civil facilities with increased fire hazard, protection against fire penetration, fire, and also to increase the fire resistance of oil pipelines and their nodes.

Increased demands are made on fire-protective shields-covers to ensure the duration of fire protection and performance at high temperatures for a certain time necessary to take measures to actively combat the spread of fire and its elimination.

Known fireproof screen-cover containing a flexible outer fire-resistant fabric and intermediate heat-resistant layers of fibrous materials with traction tapes or cords fixed to them (patent RU No. 2143634, IPC ⁶ F 16 L 59/02, 2000).

A similar fire-retardant material is known for external fire-resistant layers of fabric with intermediate heat-resistant layers of fibrous materials (application GB No. 2351021 A, IPC ⁶ A 62 C 2/06, 1999).

Known multilayer thermal screens using fibrous materials (patent SU No. 1566164, IPC ⁵ F 16 L 59/04, 1990, patent RU No. 2016348, IPC ⁵ F 16 L 59/04, 1994, patent RU No. 2130150, IPC ⁶ F 16 L 59/06, 1999, patent RU No. 2083774, IPC ⁶ E 04 B 1/78, 1997).

Thermal protection is also known for the pipeline shutoff valve assembly (application EP No. 0108856, IPC ³ F 16 L 59/02, 1982).

Known from advertising information on the development of heat-and-flame retardant materials THERMOHELP CORPORATION, 1995, the attached application.

The disadvantages of the known fire and heat shields include the unreliability of their protection of pipelines, their joints, protruding shutoff valves due to imperfections in their closing elements, damage due to fire exposure, shedding of layers, inefficient use of the properties of fibrous materials, the complexity and material consumption of works related to fire and heat protection fire hazardous facilities.

The closest analogue in the set of common essential features to the problem, adopted as a prototype, is a fireproof screen-cover according to patent RU No. 2143634.

The main objective is the creation of fire-resistant screens-covers of increased efficiency, reliability, giving them universal application properties for protecting pipelines of different sizes in diameter.

The technical result from the use of fireproof screens-covers is to simplify the design, increase reliability and efficiency of use, reduce costs.

The main problem is solved and the technical result is achieved by changing the screen design, efficiently using the properties of fibrous materials, imparting universal properties to using a new concept of organizing the distribution of layers, taking into account the direction of fire exposure, expanding the range of manufactured products.

To do this, in a fireproof screen-cover containing flexible external fire-resistant fabric and intermediate heat-resistant layers of fibrous materials with traction tapes or cords fixed to them,

in the first embodiment:

the outer fire-resistant layers of fabric are made of silica or basalt fibers with a diameter of 5-15 microns, or a combination of them, with a surface density of 200-800 g / m, the heat-resistant layers are made of randomly intersecting silica or basalt fibers with a diameter of 2-15 microns, length 10-150 mm, or a combination of them, with a density of 35-120 kg / m ³ increasing in the direction of the surface of the fire exposure, and the ends of the screen-cover are made with gradually decreasing thicknesses with the possibility of overlapping one end with another lap, tape elements hook and loop fasteners;

in the second option:

outer fire-resistant layers of fabric are made of silica or basalt fibers with a diameter of 5-15 microns, or a combination of them, with a surface density of 200-800 g / m, heat-resistant layers are made of needle-piercing or needle-stitched material of silica or basalt fibers with a diameter of 5-25 microns , or a combination of them, with a surface density of 70-700 g / m ² increasing in the direction of the fire exposure surface, and the ends of the screen-cover are made with gradually decreasing thicknesses with the possibility of overlapping one end with another overlap, with tape elements of type “Velcro” for their castle connection;

in the third embodiment:

the screen-cover is made with an opening for the protruding stop valves and is equipped with a napkin with a protruding dome in its middle part with traction tapes or cords fixed on it to cover the reinforcement; the outer fire-resistant layers of the screen fabric and napkins are made of silica or basalt fibers with a diameter of 5-25 microns or a combination of them, a surface density of 200-800 g / m ^2, their heat-resistant layers are made of silica or randomly crossed basalt fiber diameter of 2-15 microns and a length of 10-150 mm, or a combination of them, plotnos Strongly 35-120 kg / m ^3, increasing toward the surface fire exposure, and the ends of the screen-cover formed with a gradually varying thicknesses to overlap one end overlapping the other, with the belt elements of the type "Velcro" for their tool joint;

in the fourth embodiment:

the screen-cover is made with an opening for the protruding stop valves and is equipped with a napkin with a protruding dome in its middle part with traction tapes or cords fixed on it to cover the valves, the outer fire-resistant layers of the screen fabric and napkins are made of silica or basalt fiber with a diameter of 5-15 microns , or combinations of them, with a surface density of 200-800 g / m ² , their heat-resistant layers are made of needle-punched or needle-stitched material of silica or basalt fibers with a diameter of 5-25 microns, or combinations of them, a surface density of 70-700 g / m, increasing in the direction of the surface of the fire exposure, and the ends of the screen-cover are made with gradually decreasing thicknesses with the possibility of overlapping one end with the other overlap, with tape elements of the type “Velcro” for their castle connection.

Additionally, in all four variants: under the outer flame-retardant fabric layer, on the side of the fire exposure surface, a mesh with cells from 5 × 5 to 25 × 25 mm made of steel wire with a diameter of 0.1-1 mm can be placed, the outer flame-resistant fabric layer on the fire exposure surface can be impregnated with a composition reflecting thermal radiation, or intumescent fire retardant composition, traction tapes or cords can be made with the possibility of fastening their ends by tying knots or metal fasteners, or wire.

Distinctive features of a fireproof screen-cover are the signs:

in all four options:

- the implementation of the outer fire-resistant fabric layers of silica or basalt fibers with a diameter of 5-15 microns, or a combination of them, with a surface density of 200-800 g / m;

- the implementation of heat-resistant layers with increasing density in the direction of the surface of the fire;

- the execution of the ends of the screen-cover with gradually decreasing thickness with the possibility of overlapping one end of the other overlap;

- the presence of tape elements of the type “Velcro” for the locking connection of the ends of the screen-cover;

- placement of the mesh under the outer flame-retardant fabric layer from the side of the surface of the fire exposure with cells from 5 × 5 to 25 × 25 mm from steel wire with a diameter of 01-1 mm;

- impregnation of the outer flame-retardant fabric layer on the surface of the fire exposure with a composition reflecting thermal radiation or intumescent fire retardant;

- the implementation of traction tapes or cords with the possibility of fastening their ends by tying knots or metal fasteners, or wire;

in the first and third options:

- heat-resistant layers are made of randomly intersecting silica or basalt fibers with a diameter of 2-15 microns, a length of 10-150 mm, or a combination of them, with a density of 35-120 kg / m ³ ;

in the second and fourth options:

- heat-resistant layers are made of needle-punched or needle-stitched material of silica or basalt fibers with a diameter of 5-25 microns, or a combination of them, with a surface density of 70-700 g / m ² ;

in the third and fourth options:

- the implementation of the screen-cover with a hole for the protruding reinforcement;

- supplying the screen-cover with a napkin with a protruding dome in its middle part with traction awnings or cords fixed on it for sheltering the fittings.

These distinctive features are significant, since each of them individually and jointly aimed at solving the problem and achieving a new technical result.

The implementation of the outer fire-resistant layers of fabric based on silica or basalt fibers, or a combination of them, with a surface density of 200-800 g / m ² and heat-resistant layers with a density of 35-120 kg / m ³ from similar fibers, or with a surface density of 70-700 g / m ² , correspondingly increasing in the direction of fire, reduces thermal shock on the protected pipeline and protective fittings, bonding the ends of the screen-cover lap provides a reliable coverage of the protected surface with the exception of the penetration of fire on the protected object, the presence of a hole in the screen-case and a napkin with a protruding dome provides reliable shelter of the protected object from fire.

The presence of a mesh of steel wire under the outer flame-retardant fabric layer provides with a long-term fire exposure the form-stable position of the screen-cover and napkin without violating their continuity. It also aims to fasten the ends of the traction tapes or cords by tying knots, metal fasteners or wire. Additional impregnation of the fire-resistant layer of fabric from the side of the surface of the fire exposure with the indicated compounds increases the reflection of thermal radiation or, when expanded, increases the heat-shielding properties.

These distinctive essential features of a fire-retardant shield-cover are new, since their use in the prior art, analogues and prototype is not found, which allows us to characterize the proposed technical solutions, their options, corresponding to the criterion of “novelty”.

A single set of new essential features with common known essential features allows us to solve the problem of creating a fireproof screen-cover (options) and achieve a new technical result, which shows significant differences between the proposed technical solutions from the prior art, analogues and prototype. New technical solutions are the results of the development and experimental studies of the creative contribution, without the use of standard solutions or any recommendations in the technical field, based on a new concept of counteracting fire, a powerful heat flow on the basis of a new concept of organization of layer distribution, properties of fibrous materials, their combination are original non-obvious for specialists, meet the criterion of "inventive step".

The invention is illustrated by drawings with a brief description.

Figure 1 shows a General view of the screen-cover, Figure 2 shows a General view of the screen-cover with a napkin, Figure 3 is a cross-section of the screen-cover in the axial radial direction, Figure 4 is a cross-section of the screen-cover perpendicular to the axis of the pipeline, in Fig. 5 is a cross section of a napkin with a protruding dome, perpendicular to the axis of the pipeline, in Fig. 6 is a scan of a screen-cover with a drawing of pulling tapes or cords, in Fig. 7 is a scan of a napkin with a showing of pulling tapes or cords, Fig.8 - nodal fastening of the ends of the traction tapes or cords, Fig.9 - fastening the ends of the traction tapes or cords with metal fasteners, figure 10 - fastening the ends of the traction tapes or cords with wire.

A more detailed description of the essence of the invention with showing the positions in the drawings is as follows.

Fire-resistant screen-cover (Fig.1-10) contains flexible external fire-resistant fabric and intermediate heat-resistant layers 1, 2 of fibrous materials with traction tapes or cords fixed to them 3. The outer fire-resistant layers 1 of the fabric are made of silica or basalt fibers with a diameter of 5- 15 microns, or combinations of them, with a surface density of 200-800 g / m ² . Heat-resistant layers 2 (in the first and third versions) are made of randomly intersecting silica or basalt fibers with a diameter of 2-15 μm, a length of 10-150 mm, or a combination of them, with a density of 35-120 kg / m ³ , increasing in the direction of the fire surface 4. Heat-resistant layers 2 (in the second and fourth embodiments) are made from needled or tufted material from silica or basalt fibers 5-25 microns in diameter, or combinations thereof, the surface density of 70-700 g / m ^2, increasing towards the surface of nevogo impact 4. The ends 5, 6 of the screen-cover adapted to gradually reduce the thickness to overlap one end overlapping the other (Figure 4) with the belt members 7, 8 of type "Velcro" for their tool joint. The screen cover (in the third and fourth versions) is made with an opening 9 for a protruding stop valve and is equipped with a napkin 10 with a protruding dome 11 in its middle part with traction tapes or cords 12 fixed to it to shelter the reinforcement.

The outer fire-resistant layers 13 of the napkin are made of silica or basalt fibers with a diameter of 5-15 microns, or a combination of them, with a surface density of 200-800 g / m ² , its heat-resistant layers 14 are made of randomly intersecting silica or basalt fibers with a diameter of 2-15 microns, 10-150 mm long, or a combination of them, with a density of 35-120 kg / m ³ (third option), increasing in the direction of the surface of the fire 4, or of needle-punched or needle-stitched material of silica or basalt fibers with a diameter of 5-25 microns, or comb nation of these surface density 70-700 g / m ² (fourth embodiment), increasing toward the surface fire influence 4. Under the outer layer of fireproof fabric cover one surface side of the screen fire exposure can be placed 4 mesh 15 with dimensions of cells 5 × 5 to 25 × 25 mm from steel wire with a diameter of 0.1-1 mm. The outer fire-resistant layers 1, 13 of the screen-cover and the napkin 10 from the side of the surface of the fire exposure 4 can be impregnated with a composition that reflects thermal radiation, or intumescent fire retardant composition. Traction tapes or cords 3 of the screen-cover and 12 napkins 10 are made with the possibility of fastening their ends by tying knots 16 (Fig. 8), metal fasteners 17 (Fig. 9) or wire 18 (Fig. 10).

When protecting the pipeline, the screen-cover is installed with its tight coverage, with the ends 5, 6 fastened with Velcro-style elements 7, 8, followed by fastening with pulling tapes or cords 3. A screen-cover with an opening 9 and a napkin 10 is used in the locations of the shut-off valves with a protruding dome 11. Mounting the napkins 10 on the screen-cover is performed using traction tapes or cords 12, as well as the screen-cover (Fig. 8-10).

The functioning of the screen-cover, according to FIGS. 1 or 2, consists in counteracting its wall with the action of heat fluxes on the surface 4. Due to the differentiated density of the layers of the screen-cover and napkin, increasing in the direction of the surface of the fire 4, and their corresponding capillary-cellular porosity at an external layer of fireproof fabric surface weight of 200-800 g / m ² of silica based fibers or basalt fibers, or combinations thereof provided increased resistance to temperature and heat vomu impact and protection against fire exposure.

The rationale for the physical nature of inventions in comparison with prototypes is as follows.

The principle of operation of a fireproof screen-cover is based on blocking the radiation-convective heat flow from the fire to the protected object through the use of a rational combination of physical effects: reflection and absorption of thermal radiation, evaporative cooling, as well as the heat-insulating ability of the screen and the air gap between the screen and the object.

The heat balance in the area of the screen of this type is represented as:

q'Σ = q _'otr + q' _Aux + q _'rad + q'_isolates;

where q ' _neg - part of the heat flux reflected from the screen;

q ' _vsp - part of the heat flux absorbed during expansion of the composition by which the outer flame-retardant layer is impregnated;

q _'rad - part of the heat flow of the re-heated surface of the screen to the surrounding space;

q ' _isol - part of the heat flux blocked by the thermal insulation of the screen and the air gap between the screen and the object.

From a comparison of the presented heat balance with the heat balance in the case of the prototype, we can draw the following conclusions:

a) the density of the reflected heat flux by the screen-cover is significantly higher compared to the prototypes due to the obviously higher reflectivity of the surface of the fabric, which has a special impregnation compared to the reflectivity of the non-impregnated fabric;

b) in the case of a screen cover, the incident heat flux is additionally reduced due to the expansion of the composition by which the outer fire-resistant layer is impregnated;

c) the radiation of the screen-cover, the surface of which is covered with foam coke of intumescent composition, is significantly increased due to the increased emissivity of the foam coke (in the case of prototypes this physical effect is absent);

d) an additional part of the external heat flux is blocked by the thermal insulation of the shield-cover due to the rational distribution of the insulation density over the thickness of the heat-insulating layer (in the area adjacent to the heated surface, there is a denser material with low thermal conductivity at high temperatures, and in the relatively low temperature zone - low-density material with increased heat-insulating ability under these conditions).

The process of heat transfer through a fireproof screen-cover proceeds in an unsteady mode. Therefore, for a quantitative mathematical description of the thermal state of a fire-resistant screen-cover, one should use the justified in the book: Strakhov V.L., Krutov A, M., Davydkin N.F. Fire protection of building structures (M .: TIMR Information and Publishing Center, 2000) the formulation of the corresponding boundary value problem, which allows one to take into account all of the listed physical effects of blocking the external radiation-convective heat flow.

To carry out numerical calculations of non-stationary temperature fields in the cross section of the structures under consideration, you can use the developed program package “Fire resistance” version T.1, certified according to GOST R ISO / IEC 9126-93, GOST R ISO / IEC TO 9294-93. This software package is designed for IBM-compatible computers and meets modern requirements for the accuracy and reliability of the results.

Numerical calculations make it possible to choose reasonably geometric parameters of the screen-cover, material and thickness of the layers of the screen at which the specified fire resistance of the object is ensured at a minimum cost.

Tests of protective shields-covers in all versions under external fire tests showed positive results, high reliability and efficiency.

Temporary indicators of the resistance to fire and heat protection of objects increased by 1.5-2 times in comparison with the known counterparts.

Thus, the proposed fireproof shields-covers using new technical solutions (options) meet the criterion of "industrial applicability", ie level of inventions.

There may be various combinations with respect to the shape, size and location of the individual elements of the fireproof screen, if all this does not go beyond the scope of the technical solutions set forth in the claims.

Claims (20)

1. Fireproof screen-cover containing flexible external fire-resistant fabric and intermediate heat-resistant layers of fibrous materials with traction tapes or cords fixed to them, characterized in that the external fire-resistant fabric layers are made of silica or basalt fibers with a diameter of 5-15 microns or a combination of their surface weight of 200-800 g / m ^2, heat-resistant layers are made of silica or randomly crossed basalt fiber diameter of 2-15 microns and a length of 10-150 mm, or combinations thereof density of 35-120 kg / m ^3, SW lichivayuscheysya toward the surface fire exposure, and the ends of the screen-cover formed with a gradually decreasing thickness from the one end to overlap the other overlap with belt elements such as "Velcro" for their tool joint. 2. The screen-cover according to claim 1, characterized in that a mesh with cells from 5 × 5 to 25 × 25 mm made of steel wire with a diameter of 0.1-1 mm is placed under the outer flame-retardant fabric layer from the side of the fire exposure surface. 3. The screen cover according to claim 1 or 2, characterized in that the outer flame-retardant fabric layer on the surface of the fire exposure is impregnated with a composition that reflects thermal radiation. 4. The screen-cover according to claim 1 or 2, characterized in that the outer flame-retardant fabric layer on the surface of the fire exposure is impregnated with an intumescent flame retardant. 5. The screen-cover according to any one of claims 1 to 4, characterized in that the traction tapes or cords are made with the possibility of fastening their ends by tying knots, or metal fasteners, or wire. 6. Fireproof screen-cover containing flexible outer fire-resistant fabric and intermediate heat-resistant layers of fibrous materials with traction tapes or cords fixed to them, characterized in that the outer fire-resistant layers of fabric are made of silica or basalt fibers with a diameter of 5-15 microns, or a combination have a surface density of 200-800 g / m ^2, heat-resistant layers are made from needled or tufted material from silica or basalt fibers 5-25 microns in diameter, or combinations of these surface PLO NOSTA 70-700 g / m ^2, increasing toward the surface fire exposure, and the ends of the screen-cover formed with a gradually decreasing thickness from the one end to overlap the other overlap with belt elements such as "Velcro" for their tool joint. 7. The screen cover according to claim 6, characterized in that under the outer flame-retardant fabric layer from the side of the fire exposure surface there is a grid with cells from 5 × 5 to 25 × 25 mm made of steel wire with a diameter of 0.1-1 mm. 8. The screen cover according to claim 6 or 7, characterized in that the outer flame-retardant fabric layer on the surface of the fire exposure is impregnated with a composition reflecting thermal radiation. 9. The screen-cover according to claim 6 or 7, characterized in that the outer flame-retardant fabric layer on the surface of the fire exposure is impregnated with an intumescent flame retardant. 10. The screen-cover according to any one of claims 6 to 9, characterized in that the traction tapes or cords are made with the possibility of fastening their ends by tying knots, or metal fasteners, or wire. 11. Fireproof screen-cover containing flexible external fire-resistant fabric and intermediate heat-resistant layers of fibrous materials with traction tapes or cords fixed to them, characterized in that the screen-cover is made with an opening for shutoff valves and equipped with a napkin with a protruding dome in its middle parts with traction tapes or cords fixed on it to shelter the fittings, the outer fire-resistant layers of the screen fabric and napkins are made of silica or basalt fibers with a diameter of 5-15 microns or a combination of them surface density of 200-800 g / m ^2, their heat-resistant layers are made from randomly intersecting silica or basalt fibers 2-15 microns in diameter, or a combination of them length of 10-150 mm, a density of 35-120 kg / m ³ increasing towards the combustion surface impacts, and the ends of the screen-cover are made with gradually decreasing thicknesses with the possibility of overlapping one end with the other overlap, with tape elements of the type “Velcro” for their castle connection. 12. The screen-cover according to claim 11, characterized in that under the outer flame-retardant fabric layer from the side of the fire exposure surface there is a grid with cells from 5 × 5 to 25 × 25 mm made of steel wire with a diameter of 0.1-1 mm. 13. The screen cover according to claim 11 or 12, characterized in that the outer flame-retardant fabric layer on the surface of the fire exposure is impregnated with a composition reflecting thermal radiation. 14. The screen cover according to claim 11 or 12, characterized in that the outer flame-retardant fabric layer on the surface of the fire exposure is impregnated with an intumescent flame retardant. 15. Screen-cover according to any one of paragraphs.11-14, characterized in that the traction tapes or cords are made with the possibility of fastening their ends by tying knots, or metal fasteners, or wire. 16. Fireproof screen-cover containing flexible external fire-resistant fabric and intermediate heat-resistant layers of fibrous materials with traction tapes or cords fixed to them, characterized in that the screen-cover is made with an opening for a protruding stop valve and equipped with a napkin with a protruding dome in it the middle part with traction tapes or cords fixed on it to shelter the fittings, the outer fire-resistant layers of the screen fabric and napkins are made of silica or basalt fibers with a diameter of 5-15 microns or a comb tion have a surface density of 200-800 g / m ^2, their heat-resistant layers are made from needled or tufted material from silica or basalt fibers 5-25 microns in diameter, or combinations of these surface weight of 70-700 g / m ^2, increasing towards the surface fire exposure, and the ends of the screen-cover are made with gradually decreasing thickness with the possibility of overlapping one end with the other overlap, with tape elements of the type "Velcro" for their castle connection. 17. The screen-cover according to claim 16, characterized in that under its outer flame-retardant fabric layer from the side of the fire exposure surface there is a grid with cells from 5 × 5 to 25 × 25 mm made of steel wire with a diameter of 0.1-1 mm. 18. Screen-cover according to claim 16 or 17, characterized in that the outer fire-resistant layers of the screen fabric and napkins on the surface of the fire exposure are impregnated with a composition reflecting thermal radiation. 19. The screen-cover according to claim 16 or 17, characterized in that the outer fire-resistant layers of the screen fabric and napkins on the surface of the fire exposure are impregnated with an intumescent flame retardant. 20. The screen-cover according to any one of paragraphs.16-19, characterized in that the traction tapes or cords of the screen and napkins are made with the possibility of fastening their ends by tying knots, or metal fasteners, or wire.

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