RU2260658C1 - Fire wall - Google Patents

Abstract

FIELD: construction, particularly multi-purpose buildings and building structures adapted to prevent fire spreading and combustion product emission from fire site into another compartments of the structure.

SUBSTANCE: fire wall comprises load-bearing structure and three-layered panels connected to the structure. Load-bearing structure has concrete columns. Each three-layered panel includes rock wool core. The panels overlap the columns and are connected to them through fastening members having heads. Panels are butted one to another and vertical butts between the panels are filled with rock wool. Head of each fastening member is covered with metal case defining a space above fastening member head. The space is filled with rock wool. Strip of heat-sealing foaming material is located on column surface brought into contact with vertical butt between the panels. The wall is provided with at least one additional case connected to the column by one end thereof and to panel surface facing column by another end of the case. Space defined by surfaces of additional case and panel is filled with rock wool.

EFFECT: increased reliability and stability of load-bearing structure, reduced fire influence on neighboring isolated rooms of the building.

2 cl, 3 dwg

Description

The invention relates to the construction and can be used in the construction of buildings for various purposes to create structures designed to prevent the spread of fire and combustion products from the premises or fire compartment with the fire in other rooms.

Fire wall must meet the requirements for fire resistance and fire hazard. In particular, the fire resistance limit is set by the time of the onset of one of the signs of the ultimate state, namely loss of bearing capacity, loss of integrity or loss of heat-insulating ability of the fire wall.

Known design of the fire wall / US patent 6421968, IPC E 06 B 9/01 /, which includes a modular three-layer elements mounted on a frame. Modular elements consist of outer layers made of fire-resistant glass, between which a substance is foamed at high temperature.

The disadvantage of this design is that some made the frame is not protected from exposure to flame and high temperatures, which can lead to loss of bearing capacity of structures that ensure stability of the barrier, and the penetration of flame or combustion products through vertical joints between the panels.

Partially this disadvantage is eliminated in the invention / WO 0107727, A 46 D 1/00, however, this design also has the disadvantage that the supporting structure is protected by only one layer of refractory material. This can lead to the premature onset of one of the limiting conditions characterizing the degree of fire resistance of a fire barrier.

The authors solved the problem of creating a fire wall devoid of these shortcomings. Namely, increasing the degree of fire resistance of the fire wall structure to the maximum standardized values of the fire safety of buildings and structures.

To solve this problem, a fire wall is proposed, consisting of a supporting structure with three-layer panels fixed to it. A distinctive feature of the proposed fire wall is that the supporting structure includes concrete columns, the three-layer panel contains a core of mineral wool, while the panels are attached to the columns with an overlap using fasteners with heads, the panels are joined back to back, the vertical joints between the panels are filled mineral wool, and the head of the fastener is closed with a metal cover forming a space above the head filled with mineral wool.

Additionally, it is proposed to place a tape of heat-sealing, foaming material on the surface of the column in contact with the vertical joint between the panels.

In addition, it is proposed to equip the fire wall with at least one additional cover attached at one end to the column and the other end to the surface of the panel facing the column, and fill the space formed by the surfaces of the additional cover, column and panel with mineral wool.

Additionally, it is proposed to fill the horizontal joints of the panels with fireproof sealant.

The implementation of the fire wall in the form of a structure including reinforced concrete columns, three-layer panels with a core of non-combustible mineral wool attached to the columns with an overlap using fasteners, allows, on the one hand, to increase the reliability of the stability of the supporting structures, on the other hand, to reduce the degree of fire exposure on the isolated premises of buildings.

Filling the vertical joints with mineral wool, and the horizontal joints of the panels with fire-resistant sealant, as well as placing on the surface of the column in contact with the vertical joint, tapes made of heat-sealing foaming materials can increase the tightness of the joints, thereby increasing the resistance of the structure to flame and combustion products and reduces thermal load on the structure.

Closing the fastener heads with a metal cover forming a space above the head filled with non-combustible mineral wool eliminates the effect of an open flame on the fasteners, thereby increasing the resistance of the fire wall.

Equipping the fire wall with an additional cover attached at one end to the column and the other end to the surface of the panel facing the column so that the space formed by the surfaces of the additional cover, column and panel is filled with non-combustible mineral wool, which allows the fasteners to be protected from high temperatures in the place where the panel adjoins the column.

All these signs together allow you to increase the degree of fire resistance of the fire wall structure to the maximum standardized values of fire safety of buildings and structures. Thus, the claimed technical result is achieved.

The figure 1 presents an embodiment of a fire wall; the figure 2 presents a horizontal section of the junction of the panels on the column; figure 3 is a vertical section of the junction of the panels, where 1 is the supporting structure, 2 is the reinforced concrete column, 3 is the foundation of the column, 4 is a three-layer panel of type \ sandwich \, 5 is the core of the panel, 6, 7 are the outer panel linings, 8 is the mounting element, 9 - fastener head, 10 - vertical panel joint, 11 - horizontal panel joint, 12, 13 - non-combustible mineral wool, 14 - cover, 15 - additional cover, 16 - tape made of heat-sealing foaming material, 17 - fireproof sealant.

The design works as follows. In the event of a fire, high temperature acts on the outer layer 6 of the three-layer panel, as well as on the surface of the metal cover 14. In this case, the heads 9 of the fastening elements 8 are reliably protected. During the development of the fire, the metal cover 14 and the outer lining of the panels 6 can become unstable, while at the junction of the panels 10 and 11, the joints may open along the outer metal layer 6 and the penetration of an open flame and heated gases at the joints of the panels. In this case, fire-resistant sealant 17 begins to work along the horizontal joints of the panels, non-combustible mineral wool 12 filling the spaces above the heads of the fasteners, in the places of vertical joints 10. In extreme situations, in cases where the fire resistance of the mineral wool layer 12 has been exhausted, a heat-sealing tape is included in the work foaming material 16, which under the influence of temperature increases significantly in volume and fills all the free space at the junction, preventing the penetration of fire in an adjacent room and protecting the fasteners 8 from destruction.

It should be noted that it is recommended that the fire wall be erected so that the fire is most likely to occur in the room, which is separated by panels 4 from reinforced concrete columns 2. In this case, the load-bearing capacity of the structure remains for a longer time. However, in the event of a fire in the room from the side of the columns, the structure very reliably resists the spread of fire due to the fact that the installed additional covers 15 with the non-combustible mineral wool 13 placed under them protect the junctions of the columns 2 and panels 4, and therefore the fasteners 8.

An example embodiment of the invention. A fire wall was made, which included reinforced concrete columns 2 and foundations 3 of glass type to them according to GOST 18979 and a typical building series No. 1.020-1 / 87 with a column section of 400 × 400 mm. The wall was equipped with three-layer building panels of type \ sandwich \ 4 with a non-combustible mineral wool core 5 of basalt fiber on a synthetic binder grade \ Nobasil Tss \ with a density of 110-120 kg / m ³ , manufactured by the Slovak company \ 1ZOMAT \ and with metal cladding 6, 7 of sheet galvanized steel with a thickness of 0.6-0.7 mm with a polymer coating of the outer surface. Metal claddings 6, 7 and core 5 were glued together with a 2-component polyurethane adhesive manufactured by the Dutch company \ Huntsman Polyurethanes \. The thickness of the panels was 150 mm. Metal cases 14 and 15 were made of galvanized sheet steel with a thickness of 0.6-0.7 mm with a polymer coating of the outer surface. Non-combustible mineral wool 12 and 13 was made of basalt fiber with a synthetic binder density of at least 100 kg / m ³ and had a fire hazard class NG. As fasteners 8 we used a dowel nails with a diameter of 6.3 mm of type \ Spike \ of hardened steel with a washer of EPDM material manufactured by the Swiss company \ SFS intec \. As flame-retardant sealant 17, silicone resin grade SR 601 S manufactured by \ HILTI \ with extreme heat resistance up to 1000 ° C was used. The tape made of heat-sealing foaming material 16 was made of thermally expandable intumescent material with a cross section of 2 × 40 mm of the type “Ograks-L” and a degree of expansion of at least 1000%.

As a result of full-scale fire tests of this design in VNIIPO EMERCOM of the RF of the city of Balashikha, the following conclusions were drawn:

- loss of structural integrity occurred at 125 minutes of testing. The average temperature on the unheated surface of the sample at 130 minutes of the experiment was 75 ° C. The temperature increase on the unheated surface of the structure at one of the controlled points in comparison with the temperature of the structure prior to testing by more than 180 ° C during the test was not recorded.

Destruction of the structure during the test did not occur;

- the actual fire resistance limit of prototypes of the external curtain wall from three-layer panels \ Ventall-S \ with a horizontal arrangement of panels 150 mm thick with steel cladding 0.6 mm thick and a heater made of mineral wool on a synthetic binder with a transverse arrangement of \ Nobasil \ fibers with a density of 120 kg / m ³ is 126 minutes on the basis of loss of integrity (E) and heat-insulating ability (I);

- designation of fire resistance EI 120.

Claims (2)

1. Fire wall, consisting of a supporting structure with three-layer panels fixed on it, characterized in that the supporting structure includes concrete columns, a three-layer panel contains a core of mineral wool, while the panels are attached to the columns with an overlap using fasteners with heads, the panels are interconnected end-to-end, the vertical joints between the panels are filled with mineral wool, and the head of the fastener is closed with a metal cover forming a space above the head, filling mineral wool, on the surface of the column in contact with the vertical joint, between the panels there is a tape made of heat-sealing foaming material, and the wall is equipped with at least one additional cover attached at one end to the column and the other end to the panel surface facing the column while the space formed by the surfaces of the additional cover, columns and panels is filled with mineral wool. 2. Fire wall according to claim 1, characterized in that the horizontal joints of the panels are filled with fireproof sealant.

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