RU2005764C1 - Fireproof duct sealing packet - Google Patents

Abstract

FIELD: fireproof duct-sealing. SUBSTANCE: fireproof duct-sealing packet has an outer casing of made of glass fabric. An easily fusible envelope with a packing inserted in it is placed within the casing. The packing contains the perlite or the ground chamotte as a filler and a swelling packing. The swelling packing contains a dried granular silica gel enriched with a sodium and a sand or a quartz powder. The components ratio is the following, vol; . % : perlite or ground chamotte 20-40; silica gel 20-40, the sand or the quartz powder 25-45. The packing may additionally contain 2-5 vol. % bentonite. The fiber glass fabric can be impregnated with a heatproof dye. The silica gel contains 60-80 vol. % of a gel-forming additive. Sodium chloride and a sodium carbonate are used as the gel-forming additives. EFFECT: enhanced strength and airtightness, improved fireproof properties. 6 cl

Description

 The invention relates to a refractory sealing bag provided with an outer shell of refractory fabric, preferably made of textile glass, and optionally a second, inner shell made of a moisture-proof film, and filled with a packing containing a refractory filling material and a swellable substance, mainly used for temporary and / or permanent refractory sealing of cable passages or other openings and channels.

 Before construction is completed, fires often occur, mainly in industrial construction. Such fires spread rather quickly through the premises inside the building. The main reason for this is that the openings in the partitions for various cables and pipelines are not sealed, so fire spreads very quickly through burning cables.

 Various means of protecting passageways of pipelines and cables are already known. For example, various bushings, couplings, and devices embedded in partitions through which the cable passes when it is embedded in a refractory material.

 Known sealing bag made of textile glass, and the filling substance or part of it swells under the influence of heat during a fire.

Filler such refractory sealing package mineral wool is treated in such a way that it swells, increasing in volume by 50% at 280 ^C. Such swelling occurs only in open space, which means that when the sealing pack is inserted into the passage, it does not able to give the swelling required to seal all the gaps, since the swellable substance has a low compressive strength. Therefore, it does not provide the required tight sealing.

 The closest in technical essence solution is a refractory sealing bag having a refractory shell with an easily melting inner shell placed inside it, and 80 - 90% of the gasket mass consists of a refractory granular substance, and 1 - 20% mass of loose, substance prone to swelling. Refractory granular material can be quartz sand, fly ash, swollen perlite or other mineral filler. The retardant, prone to swelling, contains 15 - 25% by volume of ammonium phosphate, 5 - 15% by weight of polyhydric alcohol and 4 - 15% by weight of urea, urotropine and / or melanin.

Although this used currently sealing the package has many advantages, its major drawback is that the swelling of the pads takes place at relatively high temperature (260 - 280 ^{° C} at best), when it began to spread of fire and the speed of swelling much lower required value.

 The purpose of the invention is to increase strength, tightness and improve fire properties.

This goal is achieved by the fact that in a refractory sealing bag containing an outer shell of fiberglass, placed inside it a low-melting shell with a packing, containing sand or quartz powder and a swelling pad, the pad additionally contains perlite or chamotte as a filler, and as a swelling pad - dried gel of silicic acid, enriched with sodium, in the form of granules in the following ratio of components, about. %:
Perlite or chamotte 20 - 40
Silicic Acid Gel 20 - 40
Sand or quartz powder 25 - 45, the packing additionally contains 2 - 5 vol. % bentonite, fiberglass impregnated with heat-resistant paint, silica gel contains 60 - 80% water glass and 20 - 40 vol. % gelling agents, sodium chloride or sodium carbonate is used as the gelling agent.

The sealing bag in accordance with the invention has several advantages compared to previously used
Gasket used in packets begins to increase its volume at a temperature of more than 100 ^C lower than the best examples of conventional packages.

 The gasket swells at a lower temperature and to a significantly greater extent than the gaskets currently in use. Under the influence of heating, it increases its volume by 6-10 times.

 Another advantage of the gasket is that under the influence of temperature it turns into a viscous plastic mass in which gas bubbles do not burst. Thus, foaming occurs at elevated, compared with normal pressure. This usually leads to a large volume change and to a tight sealing of the passages.

 Another advantage of the invention is that the packing, after swelling, hardens and forms a solid, solid obstruction in the hole that needs to be sealed.

 An additional advantage of the swellable gasket is that no toxic gases are released during its production or during a fire.

 The composition of the filling substance provides optimal mechanical and thermal insulation properties of the packing.

 PRI me R 1. Silica gel for swellable laying of the package is made from 80% water glass and 20% sodium chloride. The gel is dried at room temperature for 48 hours, then crushed into granules with a diameter of 3 mm in a hammer mill.

The granules are placed in an oven, the temperature of which gradually rises. The granules swell at 140 ^{° C,} increasing its original volume to 8 - 10 times, at temperatures reaching 150 ^{° C} for 3 min.

EXAMPLE 2. Silica gel is made from 60% water glass and 40% sodium carbonate. The gel was dried at ⁷⁵ ° C for 8 hours, then crushed crushing rolls. The size of the resulting particles is about 4 mm. The granules were placed in a furnace and by heating to increase its initial volume in the 6 - 8 times at 150 ° ^C.

 PRI me R 3. The test for fire resistance was carried out in accordance with the instructions of the standard DIN 4102 with traditional sealing bags and bags according to the invention. Different sealing bags were tested one at a time. During the tests, a hole measuring 80 x 40 cm in the upper horizontal wall of the furnace with a burner was closed with various sealing bags to a width of 35 cm. Vertical openings for cables were formed in the hole. The passage contained three cables with a diameter of 40 mm and twelve cables with a diameter of 8 mm. The latter were conducted through holes in a metal pan.

Thermocouples were mounted at various points of the passage to measure temperatures outside the passage (on the surface of the bags, cable insulation and cables). The test was carried out for 1.5 hours, the furnace was heated from 0 to 1000 ^about With about half an hour. Some of the test packages contained the intumescent pad described in Example 1. It comprised 25% of the volume of the package, and separately from this, the packing was 40% by volume of sand, 32% by volume of perlite and 3% by volume of bentonite. These were samples marked A.

The composition of the other part of the sealing bags (samples B) according to the invention was as follows:
Intumescent pad according to example 2 35% Quartz flour 35%
Ground Refractory Clay 30%
A package of fiberglass containing packing was impregnated with Alucot T-250 (silicon-based refractory impregnation).

 The compositions of samples C, and E are listed below.

 The tests were even carried out with commercially available sealing bags, a certain part of which contained specially treated mineral wool packing (samples F), and the other part was equipped with a mineral wool cushion covered with heat-foaming material (samples C). Test results are shown below.

For data evaluation, please note that the standard 1 4102 permits a temperature of max. 180 ^about With outside the sealed part during an hour and a half test. The above examples clearly prove that the sealing bags according to the invention have more favorable characteristics in all respects than those commercially available: the sealing is safe, effective and has a long service life, in case of fire the backing material swells faster and to a greater extent than in previously used products, and forms a hardening tight wall in the hole.

 It should be noted that the invention is in no way limited to the above examples, the sealing bag according to the invention can be made in several other forms and by other methods covered by the attached claims. (56) Application of Germany N 353625, CL C 09 K 21/00, 1987.

 Patent ВНР N 193057, class. C 09 K 21/00, 1985.

Claims (5)

1. FIRE-RESISTANT SEALING PACKAGE containing an outer shell of fiberglass, an easily melting shell with a packing containing sand or quartz powder and a swellable gasket, characterized in that, in order to increase strength, tightness and improve fire properties, the packing additionally contains perlite or ground chamotte as a filler, and as a swelling pad, dried sodium silica gel, enriched with sodium, in the form of granules in the following ratio of components, about . %:
Perlite or chamotte 20 - 40
Silicic Acid Gel 20 - 40
Sand or silica powder 25 - 45
2. The package according to claim 1, characterized in that the packing additionally contains 2 to 5 vol. % bentonite.  3. The package according to claim 1, characterized in that the fiberglass is impregnated with heat-resistant paint.  4. A package according to claim 1, characterized in that the silica gel contains 60 to 80 vol. % liquid glass and 20 to 40 vol. % gelling agents.  5. A package according to claim 4, characterized in that sodium chloride is used as a gelling additive.  6. A bag according to claim 4, characterized in that sodium carbonate is used as a gelling additive.

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