RU2506378C2 - Fire-prevention sealing pillow ppvu-1 - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to building materials and can be used for filling cavities, namely, cable penetrations, in construction of buildings and constructions of various purpose for limiting spread of fire in them. A fire-prevention pillow made of fiberglass formed as the pouch filled with a mixture of expanded vermiculite and granular basalt fibers obtained by mixing these components in a mixer granulator for 10-15 minutes, at the following content by wt %: 30-35 exfoliated vermiculite; granular basalt fiber 65-70.

EFFECT: increased density of material filling pillows, which increases the fire resistance of cable insulation cavities or by increasing the efficiency of fire suppressants of pillows by eliminating penetration through these combustion products.

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Description

The invention relates to the building materials industry and can be used to fill voids, namely cable penetrations, in the building structures of buildings and structures for various purposes to ensure that the spread of flame through them.

Known fire pillows made of fiberglass with a filler of superthin basalt fiber (Fireproof sealing pillows, TU 09.075-88.2).

Known pillows made of mineral fiber fabric, using for filling it, wt.%: Insulating filler from the group - kieselguhr, expanded clay, pumice, chalk, mineral fibers 90-95, and a binder - such as polyamide, polyethylene or polypropylene, foam ( DE patent No. 3536625, E04B 1/94, 1987).

The closest analogue is a fiberglass fire pad containing expanded vermiculite 1-50 wt.%, A polymer binder 1-6 wt.%, Granular basalt fiber in the form of spheres with a diameter of 1-15 mm (US patent No. 4816312, 1989) .

A disadvantage of the known fire-fighting pads is their low fire-retardant efficiency in protecting voids and cable penetrations, as well as their high smoke permeability due to the fact that the polymer binder burns out during thermal exposure, preserving the structure imparted by expansion, and, therefore, channels are formed through which hot gases and products of combustion. This circumstance negatively affects the fire resistance of the structure of fire pillows.

The objective of the invention is to increase the density of the filling material of the pillow, which improves the fire resistance of voids or cable penetrations by increasing the efficiency of fire protection of fire pillows by eliminating the possibility of penetration of combustion products through them.

This is achieved by the fact that the fire-protection pillow made of fiberglass NPG 210-5 or NPG 240 is made in the form of a bag filled with a mixture of expanded vermiculite and granular basalt fiber, obtained by mixing these components in a mixer-granulator for 10-15 minutes, at the following content, wt.%:

expanded vermiculite 30-35,

granular basalt fiber 65-70.

It has been experimentally established that when the above components are mixed together for 10-15 minutes, a system is formed in the mixer-granulator, in which the free space in the granules is filled with particles of partially crushed and rounded vermiculite, which has been rounded as a result of such mixing. As a result, fiber granules with a dust-like expanded vermiculite embedded in them have a fairly dense structure that holds these particles with fibers. This structure prevents the formation of gas channels in the fire pad. The glass fabric of NPG 210-5 or NPG 240 with its structure ensures the retention of dusty particles of expanded vermiculite formed during mixing, which, with the fraction obtained by 10-15 minutes of mixing, does not pass through the structure of these tissues. It was experimentally found that when the above mixing time is exceeded, excessive expansion of expanded vermiculite occurs and part of it is removed through the fabric structure, which reduces the effectiveness of the pillow.

Mixing for less than the specified time leads to insufficient formation of a small fraction of expanded vermiculite, as a result of which granules are not filled optimally and they do not impede the flow of combustion products through them, and the structure of these tissues is unable to retain the resulting larger particles of expanded vermiculite due to adhesion, which leads to the opening of channels in it and, as a result, the penetration of gaseous products of combustion.

In addition, in the absence of a binder, the filling components of the bag of the fire cushion have greater mobility within the bag, which ensures that the bags are stacked on top of each other with a more tight contact, increasing their fire retardant properties.

The invention is as follows.

Example 1

A fire pillow made of fiberglass NPG 210-5 or NPG 240 is made in the form of a bag filled with a mixture of expanded vermiculite and granular basalt fiber, obtained by mixing these components in a mixer-granulator for 10 minutes, at the following content, wt.%:

swollen vermiculite 30,

granular basalt fiber 70.

The resulting mixture is filled into pre-sewn bags made of fiberglass NPG210-5 or NPG240, and the fire resistance of voids or cable passage using pillows "PPVU-1" is determined by their required number and dimensions and is at least 1.5 hours.

Example 2

All according to example 1, but the fire-protection pillow made of fiberglass NPG 210-5 or NPG 240 is filled by mixing the components in a mixer-granulator for 15 minutes, with the following content, wt.%:

expanded vermiculite 35,

granular basalt fiber 65.

The claimed technical result is achieved. As a result, fiber granules with a dust-like expanded vermiculite embedded in them have a fairly dense structure that holds these particles with fibers. This structure prevents the formation of gas channels in the fire pad.

Claims (1)

The fire-protection pillow made of fiberglass NPG 210-5 or NPG 240 is made in the form of a bag filled with a mixture of expanded vermiculite and granular basalt fiber obtained by mixing these components in a mixer-granulator for 10-15 minutes, with the following content, wt.%:
expanded vermiculite 30-35 granular basalt fiber 65-70