RU2812394C1 - Suspension of fire retardant false ceiling beam ceiling of building - Google Patents

Abstract

FIELD: fire protection.

SUBSTANCE: invention relates to protecting buildings and their structures from fires; in particular, it can be used in the design, manufacture and operation of fire-resistant suspended ceilings of building floors made of large-sized sheets. A suspension of a fire-resistant suspended ceiling, connected to the floor of the building and to a channel made of a thin-walled steel profile, holding a large sheet of the suspended ceiling covering using self-tapping screws, and it is made in the form of an I-beam for the floor of the building, to the bottom flange of which, using a weld, the upper flange of the channel is attached, and a large-sized sheet of the suspended ceiling covering, using self-tapping screws, is attached to the lower flange of the channel, while the cavity of the channel is filled with non-combustible heat-insulating material. The cross-sectional height of the channel h_p mm is not less than the width of the bottom flange in _pl mm of the I-beam of the building floor.

EFFECT: improvement in the design of fire-retardant ceiling suspensions: reducing the volume, labour intensity and timing of ceiling work; reducing the height of the suspensions and increasing the useful construction volume of the building premises; increasing the strength, rigidity and fire resistance of the suspended ceiling; elimination of labour-intensive ceiling welds.

5 cl, 3 dwg

Description

The invention relates to the field of fire protection of buildings and structures (hereinafter referred to as buildings). In particular, it can be used in the design, manufacture and operation of a fire-resistant suspended ceiling covering or floor of a building (hereinafter referred to as the floor) made of gypsum boards, plasterboard or gypsum fiber sheets.

The relevance of fire protection of parts of a building is most pronounced for metal structures, which quickly warm up in the initial stage of a fire and, losing their load-bearing capacity, collapse.

A fire-resistant suspended ceiling is known, made from rods of steel knitted wire, which is secured at one end to the bottom of the load-bearing ceiling, and at the other end to steel loops, hooks or wire rings hooked to the fire protection coating. // 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, pp. 32÷38) [1].

However, the use of the known ceiling suspension is not rational due to the large volume of ceiling work on attaching the fire retardant coating of the suspended ceiling, and designing a significant height of the ceiling space leads to a decrease in the useful volume of the building; manual work on installing a wire suspension is more labor intensive, increasing the time for constructing a suspended ceiling. building.

A constructive solution for a fire-resistant suspended ceiling is known, where the suspension is made of a piece of wire, fixed at one end to the bottom of the building's floor, and at the other end to a spring suspension connected to a C-shaped channel, to which a plasterboard sheet is attached with self-tapping screws. // Romanenkov I.G., Levites F.A. Fire protection of building structures. - M.; Stroyizdat, 1991, - 321 p.; (4.3 Design methods of fire protection, Fig. 26, pp. 156 - 157), [2] - taken as a prototype.

However, the use of the well-known fire-retardant suspended ceiling of a building's beamed ceiling in the form of pieces of wire strands is not rational due to the large volume of ceiling types of work on fastening the fire-retardant coating of the suspended ceiling; the design schemes used for the operation of individual suspended ceiling elements do not ensure the spatial constancy of the suspended ceiling frame when installing large-sized sheet cladding; designing a significant height of the pendants and, accordingly, the ceiling space leads to a decrease in the useful 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 technical solution lies in the rational design, manufacture and installation of fire-retardant ceiling ceiling pendants using load-bearing I-beams of the building for an additional new purpose, in the use of a design scheme for the operation of individual ceiling ceiling pendants, ensuring the strength, required fire resistance and spatial immutability of the suspended ceiling during installation and operation , to reduce the volume, labor intensity and time of ceiling work for the manufacture and installation of fire-retardant ceiling pendants.

The technical result of the proposed solution is to improve the design of the fire-retardant ceiling pendants, to reduce the volume, labor intensity and timing of ceiling work for the manufacture and installation of the suspensions and the fire-retardant ceiling of the suspended ceiling; in reducing the height of suspensions and increasing the useful construction volume of building premises; in increasing the strength and rigidity of the suspended ceiling frame, in increasing its actual fire resistance.

The specified technical result when using the proposed design solution is achieved by the fact that in the known device of a fire-retardant suspended ceiling, including a suspension connected to the floor of the building and to a channel made of a thin-walled steel profile, holding a large sheet of the suspended ceiling covering using self-tapping screws, the peculiarity lies in the fact that that it is made in the form of an I-beam for the floor of a building, to the lower flange of which, using a weld, is attached the upper flange of the channel, and a large-sized sheet of the suspended ceiling covering, using self-tapping screws, is attached to the lower flange of the channel, while the cavity of the channel is filled with non-flammable heat-insulating material, the height of the channel section h _p , mm, is taken to be no less than the width of the bottom flange in _pl , mm, of the building’s I-beam.

The channel is made of thin-walled bent steel profile with a thickness of 2.5-8 mm.

Gypsum board, or fire-resistant plasterboard sheet, or gypsum fiber sheet with a thickness of at least 18 mm is used as a large-sized sheet for covering the suspended ceiling.

To connect the suspended ceiling covering to the channel, self-tapping screws with countersunk heads equipped with lock washers are used, which are installed at the maximum possible distance from the edges of the joined large-sized sheets of the suspended ceiling covering.

The weld connecting the channel to the bottom flange of the I-beam of the building floor is made lap, intermittent, or plug, or point.

Adjacent large-sized sheets of suspended ceiling covering are connected to each other using low, high or T-shaped steel profiles.

To increase the fire resistance of the suspended ceiling due to the loss of integrity of large-sized coating sheets and to increase the reliability of fastening the fire protection coating sheets, profiles with inward bends were used on the longitudinal edges of the shelves.

The cause-and-effect relationship between the set of characteristics and the technical result is as follows.

Equipping the bottom flange of an I-beam with a channel made of a thin-walled bent steel profile makes it possible to improve the design of fire-retardant ceiling suspensions, which consists of using load-bearing I-beams of the building for an additional purpose, taking on the functions of fire-retardant ceiling suspensions.

The connection of the lower flange of an I-beam with the upper flange of a channel made of a thin-walled bent steel profile, or a channel with a thickness of 2.5 ÷ 8 mm, is carried out by lap jointing with intermittent seams, or plug seams, or spot seams.

The joint of large-sized sheets of fire-retardant suspended ceiling covering with the lower flange of a channel made of thin-walled bent steel profile is carried out with self-tapping screws with a diameter of 3.5 ÷ 4 mm with countersunk heads equipped with lock washers.

The internal cavity of the channel made of bent steel profile suspension is filled with non-flammable heat-insulating material to increase the fire resistance of the suspended ceiling.

To exclude ceiling welds, the height of the section of the articulating channel made of thin-walled steel bent profile (h _p , mm) is accepted to be no less than the width of the bottom flange (in _t , mm) of the I-beam of the floors: h _p ≥ in _p .

The proposed rigid design solution for fire-retardant ceiling pendants makes it possible to reduce the volume, labor intensity and timing of ceiling work for the manufacture and on-site installation of pendants and fire-retardant ceiling coverings.

Reducing the height of the fire-resistant suspended ceiling suspensions leads to a decrease in the sub-ceiling space and, consequently, to an increase in the useful construction volume of the building by 100 ÷ 300 mm.

Filling the channel cavity with heat-insulating material increases the actual fire resistance of the metal structures of the building floor.

The proposed structural overlap joint of an I-beam with a channel eliminates the production of labor-intensive ceiling electric welding seams.

In fig. Figure 1 shows a design solution for hanging a fire-resistant suspended ceiling: 1 - lower flange of an I-beam; 2 - channel; 3 - thermal insulation material; 4 - weld; 5 - suspended ceiling covering; 6 - steel profile at the end joint of large-sized sheets; 7 - self-tapping screws with a countersunk head; 8 - lock washers for self-tapping screws; t _cm, °С - direction of thermal impact of a standard fire:

Where - temperature, °C, and time of thermal exposure, mm.

In fig. Figure 2 shows the types of steel profiles for the ends of large-sized slabs: 9 - low steel profile; 10 - high steel profile; 11 - tee.

In fig. Figure 3 shows a diagram of an intermittent weld of an overlap connection between the bottom flange of an I-beam floor and a channel made of a bent steel profile: 1 - bottom flange of an I-beam floor; 2 - channel; 12 - intermittent welds; - length of the weld, mm; S - distance between sections of welded seams, mm.

Information confirming the possibility of implementing the proposed design solution with obtaining the above technical result.

The sequence of design, manufacture and installation of fire-retardant ceiling pendants is as follows. First, a steel grade is selected in accordance with the requirements of SP 16.13330 for the design and manufacture of a channel from a thin-walled bent profile [3].

For welding steel structural elements, the suspension selects electrodes for manual arc welding, welding wire and fluxes.

Then the physical, thermal and design characteristics of the steel grade are identified and an engineering calculation is made for the strength of steel suspension elements with a minimum size of intermittent seams; (it is possible to design plug welds in an overlap structural connection or spot welds for steel elements up to 4 mm thick).

Large-sized slabs and sheets are used as a fire protection coating for metal structures of hangers and I-beams, which are attached to the channel with self-tapping screws.

To increase the fire resistance limit of a suspended ceiling due to loss of integrity of the fire protection coating, a channel made of a thin-walled steel profile with inward bends at the longitudinal edges of the fire protection sheet flanges is used.

Large-sized sheets of fire-retardant suspended ceiling coating are fastened to the channel using self-tapping screws with a diameter of 4÷6 mm with countersunk heads equipped with lock washers. In this case, the fastening points of large-sized sheets with self-tapping screws are shifted to from each end, reducing their design span by the height of the bent profile

To increase the fire resistance limit of a suspended ceiling in terms of loss of load-bearing capacity, the internal cavity of a channel made of a thin-walled bent steel profile is filled with non-combustible heat-insulating material, for example, mineral wool mats.

Using the identified physical and thermal characteristics of the adopted grade of steel for hangers and heat-insulating material in the channel cavity of a thin-walled steel bent profile, the design fire resistance limit of the suspended ceiling is determined.

Installation work includes the following operations:

- establishing cross-sectional dimensions from a steel I-beam, from sections of steel channel and self-tapping screws, developing a project for carrying out work with PPR;

- filling the internal space of a steel channel with a bent profile with non-flammable heat-insulating material;

- Attaching a steel channel with a weld seam to the bottom of an I-beam, fastening large-sized fire protection plates with self-tapping screws to the bottom flange of the channel;

- Layout of the ceiling axes, test of fastening the steel channel to the I-beam of the floor, fixing the ceiling level;

- Loading of suspended ceiling elements, welded equipment, auxiliary materials, means of fastening elements (self-tapping screws);

- Transportation of suspended ceiling elements to the installation work area, cutting tools for cutting large-sized fire protection sheets, electric drills;

- Construction of scaffolding and mounting devices;

- Lifting, installation and joint alignment of suspended ceiling elements;

- Quality control of installation connections.

The proposed improved design of fire-retardant suspended ceiling suspensions allows the use of load-bearing I-beams for a new purpose, taking on additional functions of ceiling fastening.

The use of the proposed device for hanging fire-retardant suspended ceilings makes it possible to reduce the volume, labor intensity and timing of ceiling work for the manufacture and on-site installation of frame hangers and large-sized sheets of the suspended ceiling fire-retardant coating; allows you to increase the strength and rigidity of the suspended ceiling frame, and increase the actual limit of its fire resistance by 25÷30%; This eliminates the need to produce labor-intensive ceiling welds.

The proposed device for an improved fire-retardant ceiling suspension was used in the research work of the Industry Research Laboratory of Reinforced Concrete Construction, in the “Engineering and Technical Development Center” of the Academy of Construction and Architecture, as well as in the Scientific and Technical Center “Fire Safety” of Samara State Technical University (Samara, 2020)

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, table 13 (g) p. 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).

3. SP 16.13330. 2011. “SNiP II - 23 - 81* Steel structures” (14. Design of connections of steel structures, pp. 72-76).

Claims (5)

1. A suspension of a fire-resistant suspended ceiling, connected to the floor of the building and with a channel made of a thin-walled steel profile, holding a large sheet of the suspended ceiling covering using self-tapping screws, characterized in that it is made in the form of an I-beam of the building's floor, to the bottom flange of which, when using a weld, the upper flange of the channel is attached, and a large-sized sheet of the suspended ceiling covering, using self-tapping screws, is attached to the lower flange of the channel, while the cavity of the channel is filled with non-flammable heat-insulating material, the cross-sectional height of the channel h _p mm is taken not less than the width of the lower flange in _pl mm I-beam of the building floor. 2. Pendant according to claim 1, characterized in that the channel is made of thin-walled bent steel profile with a thickness of 2.5-8 mm. 3. Pendant according to claim 1, characterized in that a gypsum board, or a fire-resistant plasterboard sheet, or a gypsum fiber sheet with a thickness of at least 18 mm is used as a large-sized sheet for covering the suspended ceiling. 4. The pendant according to claim 1, characterized in that to connect the suspended ceiling covering to the channel, self-tapping screws with countersunk heads equipped with lock washers are used, which are installed at the maximum possible distance from the edges of the joined large-sized sheets of the suspended ceiling covering. 5. The suspension according to claim 1, characterized in that the weld connecting the channel to the bottom flange of the I-beam of the building floor is made lap, intermittent, or plug, or point.

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