RU184424U9 - STRUCTURAL FIRE PROTECTION OF METAL STRUCTURES - Google Patents

Abstract

For fire protection of metal structures outside and inside, a composite fire-resistant design is proposed, consisting of an external asbestos-cement sheet, which provides application for outdoor works, a reinforcing honeycomb structure, providing increased load-bearing capacity, and filling of gypsum, which provides fire resistance. Fixing of the proposed composite structures to rectangular Profiles from I-beams and channels are provided without the use of additional supporting galvanized profiles. To the proposed planes of rolled metal, the proposed protection is mounted through fiberglass liners on epoxy resin. The protection of the internal planes is ensured by the installation of additional ribs from the base material. The proposed design of fire protection of metal structures is applicable for any climatic zones, simple and economical to manufacture and install.

Description

Description

Fire protection of metal structures with a sheet composite structure consisting of asbestos cement slabs, a honeycomb reinforcing structure made of asbestos cardboard filled with gypsum, with a total thickness of 40 mm, providing fire resistance of 120 minutes in any climatic zones inside and outside the premises.

State of the art

An analogue of the proposed utility model is structural fire protection of metal structures from 2 layers of KNAUF fire-resistant drywall installed on special supporting galvanized steel profiles used for indoor use.

In the patent No. 2518599, considered as an analogue, a method for protecting an I-beam column of a building uses protection from mineral wool filling the volume of a profile, a plate heater made of non-combustible materials. The fastening of which is carried out by set screws in the fastening nuts, pre-installed in the walls of the I-beam. The method is time consuming, busy.

The large-sized cladding specified in the patent is usually made of non-combustible materials (brick, concrete), with a fire resistance of 120 minutes it is labor-intensive and significant in weight, which makes it difficult to install.

The difference of the proposed utility model is:

- the use of structural fire protection of metal structures inside and outside the premises;

- lack of supporting galvanized profiles for fastening;

- increased bearing capacity of cladding elements through the use of a honeycomb reinforcing structure;

- simplification of attachment points through the use of one composite sheet element instead of two used in the analogue;

- reduction of the deployed area of fire protection of supporting metal structures up to 30%.

The technical result of the proposed utility model:

Fire protection of metal structures located indoors and outdoors, from the constituent elements providing their load-bearing ability, fire resistance and economy by reducing the expanded area of metal rolling and the use of durable fire-resistant materials.

The objective of the technical result when using

The durability and reliability of fire protection of metal structures located outdoors, reducing costs and the cost of work by reducing the deployed area of protection and the use of simple fire-resistant materials.

Utility Model Feature.

The proposed fire protection of metal structures consists of the following elements:

- the outer layer is an asbestos cement slab, providing the possibility of fastening for outdoor work;

- an internal honeycomb reinforcing structure made of asbestos cardboard, providing increased load-bearing capacity;

- Filling up to 40 mm of the honeycomb with gypsum, providing fire resistance.

The manufacture of fire protection elements is possible in construction conditions.

Installation of fire protection elements is carried out without supporting galvanized profiles with fastening to flat surfaces of metal through liners made of fiberglass on epoxy resin, and to the inner walls of metal through additional ribs.

The main purpose of the proposed utility model is to ensure the fire resistance of metal structures located outdoors (overpasses, whatnots, etc.).

Utility Model Implementation

The use of the proposed utility model can be carried out in any region of the Russian Federation, for the fire resistance of load-bearing metal structures located outside and inside, ensuring durability and reducing the cost of work.

Blueprints

The figure 1 - shows a section of a sheet composite structure consisting of asbestos cement sheet pos. 1, honeycomb pos. 2, filled with gypsum pos. 3.

Figure 2 - shows a method of attaching a sheet composite structure to metal structures, consisting of beams - I-beams fastening to a plane using fiberglass liners on epoxy resin pos.4, additional ribs from the main material pos. 5, installed in a spacer with metal ribs, and fastening with screws pos. 6 sheet construct to them.

In figure 3 - fastening to metal structures, consisting of channels.

Claims (1)

Fire protection of metal structures outside and inside, containing a sheet structure attached to the shelves of metal, characterized in that the sheet structure consists of an outer layer made of asbestos-cement plates, and an inner layer made in the form of a honeycomb reinforcing structure made of asbestos cardboard, filled with gypsum, and attached to the flat surfaces of the shelves of metal through the inserts of fiberglass on epoxy resin, and to the inner walls of the metal through cr Warming with self-tapping screws to additional ribs installed in the spacer with metal ribs.

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