RU2806393C1 - Fireproof suspended ceiling of building - Google Patents

Abstract

FIELD: protecting buildings.

SUBSTANCE: invention relates to the field of protecting buildings and their structures from fires; in particular, it can be used in the design, manufacture, installation and subsequent operation of a fire-resistant suspended ceiling made of large-sized sheets and slab coverings for fire protection of metal floor structures of a building. A fire-resistant suspended ceiling of a building's floor, including a load-bearing frame, a fire-retardant coating in the form of large-sized plasterboard sheets and connecting elements, characterized in that I-beams of the building's floor are used as the load-bearing frame of the fire-resistant suspended ceiling, and two-stage steel fastening strips are used as connecting elements, one end of which rests on the lower flange of the I-beam, and the other end is rigidly attached with self-tapping screws to the plasterboard sheets - fire-retardant coating sheets, pressing the fire-retardant coating sheets to the bottom flange of the I-beam, while adjacent fire-retardant coating sheets are joined within the lower flange of the I-beam.

EFFECT: reducing the labour intensity of manual operations and the time required for ceiling work when installing a fire-resistant suspended ceiling; improving the manufacturability of ceiling installation; simplifying the installation and fastening in the design position of the fire-retardant coating of the suspended ceiling; reducing the height of the ceiling space and increasing the useful structural volume of the building premises; increasing the strength and rigidity of the suspended ceiling frame, increasing its own fire resistance limit; increasing the reliability of fastening large-sized fire-retardant coating sheets at the installation site and eliminating their early destruction by high-temperature shrinkage and warping.

4 cl, 1 dwg

Description

The invention relates to the field of protecting buildings and structures (hereinafter referred to as buildings) from fire. In particular, it can be used for fire protection of coatings and floors (hereinafter referred to as floors) from destructive fires.

Fire protection of parts and components of a building is most relevant for metal structures, which in the initial stage of a fire (10 ÷ 15 minutes) quickly warm up and collapse with catastrophic consequences.

A fire-resistant suspended ceiling is known, which is made in the form of a steel frame with hangers made of steel wire; the frame was filled with a 14 mm thick plasterboard sheet // A manual for determining the fire resistance limits of structures, the limits of fire propagation through structures and flammability groups of materials. – M.: Stroyizdat, 1985. – 56 p. (see paragraph 2 Coverings and ceilings with suspended ceilings, tab. 13, p. 38) [1].

It is known to construct a fire-resistant suspended ceiling frame, which is made in two levels from lightweight channels 0.6 mm thick. The main and secondary beams are connected by wire hangers, which are inserted into the internal cavity of the main beams and attached to the secondary tanks. The suspended ceiling caracas is a rigid structure in two directions, the thickness of the protective screen is 84 mm, the distance from the bottom of the suspended ceiling to the protected structure is 174 mm. As a fire protection coating, a 14 mm thick plasterboard sheet was used, attached to the frame with self-tapping screws. // Romanenkov I.G., Levites F.A. Fire protection of building structures. – M.: Stroyizdat, 1991, - 321 p.; With. 156 – 157), [2] – taken as a prototype.

However, the use of a known device for a fire-resistant suspended ceiling of a building's beam floor in the form of pieces of wire thread is irrational due to the large number of types of ceiling work for fastening the fire-retardant coating of a suspended ceiling; the use of a design scheme for the work of individual elements of a suspended ceiling does not ensure the spatial invariability of the suspended ceiling frame when installing large-sheet cladding; designing suspensions of significant height and, accordingly, ceiling space leads to a decrease in the useful ceiling volume of the building; The volumes and timing of ceiling work for the manufacture and installation of wire hangers for fire-resistant ceilings are large.

The essence of the invention is to improve the design of the fire-retardant ceiling, to use I-beams for the floor of the building for a new purpose, taking on the additional functions of fire-retardant ceiling pendants, to reduce the labor intensity of manual operations and the time required for ceiling work; in increasing the manufacturability of installation due to the ease of installation and fastening in the design position of the elements of the fire-retardant coating of the suspended ceiling; excluding ceiling work on attaching pendants to the load-bearing floor slab; in reducing the height of the ceiling space and increasing the useful construction volume of the building’s premises by 150 ÷ 180 mm; in increasing the strength and rigidity of the suspended ceiling frame, in increasing its own fire resistance limit; reliable retention of large-sized sheets of fire protection coating at the installation site and the prevention of their premature destruction from high-temperature shrinkage and warping.

The technical result of the invention is to reduce the labor intensity of manual operations and the time required for ceiling work when installing a fire-resistant suspended ceiling; in improving the manufacturability of ceiling installation; to simplify the installation and fastening in the design position of the fire-retardant coating of the suspended ceiling; in reducing the height of the ceiling space and increasing the useful construction volume of the building premises; in increasing the strength and rigidity of the suspended ceiling frame, in increasing its own fire resistance limit; in increasing the reliability of fastening large-sized fire-retardant coating sheets at the installation site and eliminating their premature destruction from high-temperature shrinkage and warping.

The technical result of the invention when using the proposed design solution is achieved by the fact that in the known device of a fire-retardant suspended ceiling of a building, including a load-bearing frame, a fire-retardant coating in the form of plasterboard sheets and connecting elements, the peculiarity lies in the fact that I-beams are used as the load-bearing frame of the fire-retardant suspended ceiling floor beams of the building, and steel two-stage fastening strips are used as connecting elements, which at one end rest on the lower flange of the I-beam, and at the other end are rigidly attached with self-tapping screws to sheets of plasterboard - fire-retardant coating sheets, pressing the fire-retardant coating sheets to the bottom flange of the I-beam , while adjacent fire-retardant coating sheets are joined within the lower flange of the I-beam.

At the joints of large-sized fireproof coating sheets, flashings made of thin-walled bent steel profiles are installed. Self-tapping screws for fastening large-sized fire-retardant coating sheets are arranged in two to four rows in a checkerboard pattern with a distance from the joint of fire-retardant coating sheets of

a ≥ 0.5 ⋅ v,

here in is the width of the I-beam flange.

Self-tapping screws have a countersunk head, which are equipped with lock washers for them.

Flashings made of thin-walled bent steel profiles are installed to cover the joints of large-sized fireproof coating sheets. The strips are installed spaced between the sheets and attached with self-tapping bolts or glue.

The dimensions of the steel two-stage fastening strips are taken structurally.

A cause-and-effect relationship between a set of characteristics and a technical result.

Direct equipment of the bottom flange of the I-beam end-to-end with large-sized fire-retardant coating sheets eliminates the detailed construction of separately designed fire-retardant ceiling suspensions; in the proposed device, the load-bearing I-beams of the building perform new functions - the functions of fire-retardant ceiling suspensions.

The fastening of large-sized fireproof coating sheets to the bottom of the lower flange of the I-beam is carried out end-to-end with self-tapping screws Ø 3.5 ÷ 4 mm, using steel two-stage fastening strips, which at one end rest on the upper part of the lower flange, and at the other end are rigidly attached with self-tapping screws to fire retardant coating sheet; In this case, fire-retardant coating sheets are hooked onto the edges of the I-beam flange using steel two-stage fastening strips and installed in place according to the construction design of the suspended ceiling.

To reduce the design span of large-sized fireproof coating sheets, self-tapping screws Ø 3.5 ÷ 4 mm are located at a distance from the joint of adjacent sheets by an amount of a ≥ 0.5 ⋅ b, here b is the width of the lower flange of the I-beam, - two - four rows in a checkerboard pattern.

Using the bottom flange of a load-bearing I-beam of a building's floor as a frame for a fire-retardant suspended ceiling allows one to reduce the volume, labor intensity and timing of ceiling work for the manufacture and installation of suspended ceiling elements.

Reducing the height of the ceiling space increases the useful construction volume of the building's premises by 150 - 180 mm.

Reliable fixation of large-sized fire-retardant coating sheets at the place of their installation eliminates premature destruction from high-temperature shrinkage and warping of the suspended ceiling.

In fig. 1 shows a design diagram of a fire-resistant suspended ceiling of a building:

1 – I-beam; 2 – two-stage fastening bar; 3 – self-tapping screws; 4 – fire-resistant coating sheets; 5 – cover plate for coating sheets; 6 – ceiling space; 7 – reinforced concrete floor slab; a – the distance of the self-tapping screw from the joint of fire-retardant coating sheets, mm.

Information confirming the possibility of implementing the proposed design solution for a fire-retardant ceiling with obtaining the above-mentioned technical result.

An improvement in the design of a fire-retardant suspended ceiling is to use load-bearing I-beams of the building's floor as a frame for the fire-retardant suspended ceiling's suspensions. The labor intensity of ceiling work is reduced by reducing to a minimum labor-intensive manual operations by eliminating work on attaching the ceiling frame to the load-bearing floor slab.

Reduction of production time for ceiling work is carried out due to the possibility of convenient and quick installation and fastening of large-sized fire-retardant coating sheets in the design position. Increased manufacturability when installing a suspended ceiling is carried out due to the ease of installation and fastening of fire-retardant coating sheets to the I-beam of the building.

Reducing the height of the ceiling space between the building's floor and the suspended ceiling increases the usable space of the building's premises by 150 ÷ 200 mm.

The use of an I-beam for the floor of a building increases the strength of the suspended ceiling frame and increases the inherent fire resistance limit of the suspended ceiling.

Reliable fastening of large-sized fire-retardant coating sheets at the installation site according to the project eliminates their premature destruction from high-temperature drywall shrinkage and warping of the fire-retardant coating sheets.

Installation work contains the following operations:

1) Publication of the project, acquisition and movement of materials, products, massive tools.

2) Establishing the correspondence between the cross-sectional dimensions of the I-beam 1 of the floor, the bent steel profile - the flashing of the covering sheets 5.

3) Pairing fire-retardant coating sheets 4 with two-stage fastening strips 2 using self-tapping screws 3.

4) Installation of fire-retardant coating sheets 4 to the flange of I-beam 1.

5) Installation of the cover plate of coating sheets 5 into the joints between the fireproof sheets of coating 4 and securing it with glue or self-tapping screws.

The proposed device for a suspended fire-retardant ceiling was used in the work of the Industry Research Laboratory of Reinforced Concrete Construction, in the “Center for Engineering and Technical Development” of the Academy of Construction and Architecture, as well as in the Research Center “Fire Safety” of Samara State Technical University (Samara, 2023)

Information sources

1. A guide to determining the fire resistance limits of structures, the limits of fire spread through structures and the flammability groups of materials. – M.: Stroyizdat, 1985. – 56 p., (Coatings and ceilings with suspended ceilings, tab. 13 pp. 32 - 38).

2. Romanenkov I.G., Levites F.A. Fire protection of building structures. – M.: Stroyizdat, 1991, - 321 p. (4.3 Constructive fire protection techniques; Fig. 26, pp. 156 – 157).

Claims (6)

1. A fire-resistant suspended ceiling of a building, including a load-bearing frame, a fire-retardant coating in the form of large-sized plasterboard sheets and connecting elements, characterized in that I-beams of the building are used as the supporting frame of the fire-resistant suspended ceiling, and steel two-stage fastening strips are used as connecting elements , which at one end rest on the lower flange of the I-beam, and with the other end are rigidly attached with self-tapping screws to the plasterboard sheets - fire-retardant coating sheets, pressing the fire-retardant coating sheets to the lower flange of the I-beam, while adjacent fire-retardant coating sheets are joined within the lower flange of the I-beam . 2. Suspended ceiling according to claim 1, characterized in that at the joints of large-sized fire-retardant sheets of the coating, flashings made of thin-walled steel bent profiles are installed, which are installed spaced between the sheets and attached with self-tapping bolts or with glue. 3. The suspended ceiling according to claim 1, characterized in that the self-tapping screws for fastening large-sized fire-retardant coating sheets are arranged in two to four rows in a checkerboard pattern with a distance from the joint of the fire-retardant coating sheets by the amount a ≥ 0.5 ⋅ v, here in is the width of the I-beam flange. 4. Suspended ceiling according to claim 1, characterized in that the self-tapping screws are made with a countersunk head, which are equipped with lock washers for them.