RU2823948C1 - Method of assembling fire protection of engineering communications - Google Patents

Abstract

FIELD: fire protection.

SUBSTANCE: invention relates to the field of fire protection, namely to methods of assembling devices for passive fire protection of engineering communications. Method for assembling fire protection of engineering communications, consisting of a collapsible fire-resistant box or steel box with fire-retardant plates, consists in assembling separate segments of collapsible fire-resistant box, consisting of steel tray and steel cover, or steel box with fire-retardant plates; assembling the steel tray of the segment of the collapsible fire-resistant box, wherein the outer steel tray of the segment is connected to the inner steel tray of the segment through a gasket with reduced heat conductivity by means of connectors; assembling the steel cover of the segment of the collapsible fire-resistant box, wherein the outer steel cover of the segment is connected to the inner steel cover of the segment through a gasket with reduced heat conductivity by means of connectors, or separate segments of the steel box with fireproof plates are assembled, wherein the fireproof plates are connected to the steel box on four sides with connectors, and the joints between the plates are filled with a thermally expandable material; connecting separate segments of collapsible fire-resistant box or steel box with fire-retardant plates to each other, wherein separate segments of collapsible fire-resistant box or steel box with fire-proof plates are butt-jointed or overlapped by connectors while joints between segments are filled with heat-expanding material.

EFFECT: providing the possibility of installation of fire protection of engineering communications on site, as well as increasing the accuracy of assembling the structure of fire protection of engineering communications in accordance with the design documentation of the facility or with the process regulations (instructions) of the manufacturer.

5 cl, 2 dwg, 1 tbl

Description

The invention relates to the field of fire protection, namely to methods for assembling passive fire protection devices for utility lines [E04F17/08, F16L5/04, A62C3/00, B32B1/06, E04B1/94].

The prior art discloses a FIRE PROTECTION SYSTEM FOR A CABLE OR CABLE LINE [RU2763218 (C1), PUBLISHED 28.12.2021], comprising a cable box mounted on the surface of a building structure or on suspensions, around which a fire protection box is formed, formed by rigid non-combustible plates equipped with perforated corners, by means of which the box is assembled into a single structure.

The disadvantage of this system is that the utility protection system is assembled and designed in advance before its installation in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer, which complicates its transportation to the installation site and reduces the accuracy of the structure's installation.

Also known is a FIRE-RESISTANT COMMUNICATIONS MODULE [RU207840 (U1), PUBLISHED 2021.11.18], consisting of fire-resistant material slabs connected to each other on four sides, forming an internal opening for laying communications, with fire-protective material placed in the gaps between the slabs, a metal box consisting of a tray and a cover is placed inside the opening formed by the slabs, where the slabs are connected to the elements of the metal box by fasteners, and a fire-protective heat-expanding material is used as a fire-protective material placed in the gaps between the slabs.

The disadvantage of this device is the assembly of fire protection of utility lines before installation, which complicates the transportation and installation of fire protection and does not ensure the accuracy of installation according to design documentation.

The closest in technical essence is the METHOD OF FIRE PROTECTION OF CABLES AND CABLE LINES [RU2727599 (C2), PUBLISHED 22.07.2022], which includes the installation and assembly of a sheet of INFLEX-FK-31 fire-protective mesh around the cable and cable lines and the overlapping of the mesh sheets both along the longitudinal and transverse sides, with an overlap width of 4±1.0 cm using fasteners and with a distance from the cables to the fire-protective mesh of no more than 4 cm, while the mesh sheet is cut in accordance with the dimensions of the protected cable and cable line, and the fire-protective mesh itself is made of fiberglass with a mesh cell size of 4×4 mm and contains a fire-protective intumescent coating based on polyurethane.

The technical problem of the prototype, which includes the installation of a fire protection mesh around utility lines, is the cutting of the fire protection mesh in advance according to the dimensions of utility lines, which does not ensure the accuracy of the installation of fire protection directly at the installation site, as serious errors and deviations in dimensions are possible when cutting the mesh, relying only on the dimensions of utility lines without a project plan.

The objective of the invention is to eliminate the shortcomings of the prototype.

The technical result of the invention consists in providing the possibility of installing fire protection for utility lines on site, as well as increasing the accuracy of assembling the structure of fire protection for utility lines in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer.

The specified technical result is achieved due to the fact that the method of assembling fire protection for utility lines, consisting of a prefabricated and collapsible fire-resistant box or a steel box with fire-protective plates, is characterized by the following stages:

- initially, individual segments of a collapsible fire-resistant box are assembled, consisting of a steel tray and a steel cover, or a steel box with fire-resistant plates;

- a steel tray of a segment of a collapsible fire-resistant box is assembled, while the outer steel tray of the segment is connected to the inner steel tray of the segment through a gasket with reduced thermal conductivity using connectors;

- the next stage involves assembling the steel cover of the segment of the prefabricated fire-resistant box, while the outer steel cover of the segment is connected to the inner steel cover of the segment through a gasket with reduced thermal conductivity using connectors;

- individual segments of the steel box with fire protection plates are assembled, while the fire protection plates are connected to the steel box on four sides with connectors, and the joints between the plates are filled with heat-expanding material;

- connect individual segments of a prefabricated fire-resistant box or a steel box with fire-protective slabs to each other, while the individual segments of a prefabricated fire-resistant box or a steel box with fire-protective slabs are connected end-to-end or overlapping with connectors, and the joints between individual segments are filled with heat-expanding material.

In particular, a filler is placed in the internal space between the outer steel tray and the inner steel tray, as well as in the internal space between the outer steel cover and the inner steel cover of the segment of the prefabricated fire-resistant box.

In particular, connectors are used in the form of a self-tapping screw or a screw and nut.

In particular, a gasket with reduced thermal conductivity is used made of rubber or wood, or plastic, or a material with poor thermal conductivity.

In particular, the filler is used from fire-protective compositions based on binders gypsum solutions and/or cement magnesia solutions, and/or alkaline solutions of sodium and/or potassium silicates, and/or based on paints and varnishes, and/or mineral materials, and/or mineral wool materials, and/or stone wool, and/or glass wool, and/or vermiculite, and/or perlite, and/or foamed glass, and/or fibrous materials, and/or various heat-insulating materials, and/or non-combustible materials, and/or hardly combustible materials, and/or combustible materials with limited flammability and combustion, and/or lightweight concrete, and/or polystyrene concrete, and/or aerated concrete, and/or foam concrete, and/or concrete with the addition of vermiculite and/or perlite, and/or expanded clay, and/or cellulose cotton wool and/or foamed polystyrene.

Brief description of the drawings.

Fig. 1 shows the design of a collapsible fire-resistant box.

Fig. 2 shows the design of a steel box with fire protection plates.

The figures show: 1 – external steel cover, 2 – external steel tray, 3 – internal steel tray, 4 – filler, 5 – utility lines. 6 – heat-expanding material, 7 – internal steel cover, 8 – steel box, 9 – fire protection boards.

Implementation of the invention.

The method of assembling fire protection for utility lines 5, which consists of a prefabricated and collapsible fire-resistant box (Fig. 1) or a steel box with fire-protective plates (Fig. 2), is characterized by the following stages of assembling individual segments of the fire protection structure, as well as connecting them into a single structure.

Initially, separate segments of the collapsible fire-resistant box consisting of a steel tray and a steel cover, or a steel box with fire-protective plates are assembled. The steel tray of the segment of the collapsible fire-resistant box is assembled, wherein the outer steel tray 2 of the segment is connected to the inner steel tray 3 of the segment through a gasket with reduced thermal conductivity using connectors, providing a thermal break that limits heat transfer from the heated part to the unheated part through the steel elements. Then, filler 4 is placed in the internal space between the outer steel tray and the inner steel tray of the segment of the collapsible fire-resistant box. The next stage is the assembly of the steel cover of the segment of the collapsible fire-resistant box, wherein the outer steel cover 1 of the segment is connected to the inner steel cover 7 of the segment through a gasket with reduced thermal conductivity using connectors, providing a thermal break. Then, filler 4 is placed in the internal space between the external steel cover and the internal steel cover of the segment of the prefabricated fire-resistant box. A wooden gasket is used as a gasket with reduced thermal conductivity to ensure thermal break.

Also, as a gasket between the inner 3 and outer tray 4 or the inner 7 and outer cover 1, a gasket with reduced thermal conductivity made of rubber or plastic, or a material with poor thermal conductivity, is used.

The presented implementation options of the declared technical solution with different types of gaskets between the internal and external tray or internal and external cover allow achieving the technical result, since it ensures the possibility of installing fire protection of utility lines on site, as well as increasing the accuracy of the assembly of the fire protection structure of utility lines in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer.

The individual segments of the steel box with fire protection boards are assembled, wherein the fire protection boards 9 are connected to the steel box 8 on four sides with connectors, and the joints between the boards are filled with heat-expanding material 6. Then the individual segments of the prefabricated and collapsible fire-resistant box or the steel box with fire protection boards are connected to each other, wherein the individual segments of the prefabricated and collapsible fire-resistant box or the steel box with fire protection boards are connected end-to-end or overlapping with connectors, and the joints between the segments are filled with heat-expanding material 6. The overlapping connection of the segments, when the end of one segment of the box is inserted into the end of the second segment of the box and fixed with connectors, for example, fixed with a screw and nut, thereby gaining the required length and/or configuration of the box.

In alternative embodiments of the invention, individual segments of the fire-resistant box are connected with self-tapping screws.

The presented implementation options of the declared technical solution with different types of connectors of the segments of the fire-resistant box allow achieving the technical result, since it ensures the possibility of installing fire protection of utility lines on site, as well as increasing the accuracy of the assembly of the fire protection structure of utility lines in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer.

The second option for joining the box segments end-to-end, i.e. joining two segments located in the same plane and adjoining each other with end surfaces, connectors. The joints of the segments are treated with fire-resistant heat-expanding material 6 to seal the gaps in order to limit the penetration of hazardous fire factors into the box. At the moment of fire, when exposed to high temperatures, the fire-resistant heat-expanding material 6 begins to swell instantly, expanding tenfold and filling the gaps between the box segments, thereby preventing the penetration of fire, smoke, and high temperatures into the box with utility lines.

Materials with low thermal conductivity and/or capable of absorbing heat with simultaneous release of vapors, gases, smoke, pyrolysis products are used as filler 4, thereby reducing the amount of heat entering the box. For example, fire-protective compounds based on gypsum, cement, magnesia, alkaline solutions of sodium and/or potassium silicates are used as filler 4.

In other embodiments of the invention, the filler is used on the basis of paints and varnishes, and/or mineral materials, and/or mineral wool materials, and/or stone wool, and/or glass wool, and/or vermiculite, and/or perlite, and/or foamed glass, and/or fibrous materials, and/or various heat-insulating materials, and/or non-combustible materials, and/or hardly combustible materials, and/or combustible materials with limited flammability and combustion, and/or lightweight concrete, and/or polystyrene concrete, and/or aerated concrete, and/or foam concrete, and/or concrete with the addition of vermiculite and/or perlite, and/or expanded clay, and/or cellulose wool, and/or foamed polystyrene.

The presented variants of implementation of the declared technical solution with different fillers allow achieving the technical result, since it is possible to install fire protection of utility lines on site, as well as increase the accuracy of assembly of the fire protection structure of utility lines in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer.

The method of assembling fire protection for utility lines is used as follows.

The work on installation of fire protection for utility lines is performed in accordance with the design documentation of the facility and/or with the technological regulations (instructions) of the manufacturer. Installation of the claimed invention includes: marking of fire protection schemes, assembly and installation of the fire protection system, laying of utility lines. Fire protection ensures the preservation of the operability of cable lines, busbars, has the required fire resistance limit, which ensures the operability and protection of utility lines (for example, pipelines, air ducts) from the effects of hazardous fire factors in fire conditions.

The fire protection schemes are marked out in accordance with the project, taking into account the requirements for the minimum permissible bending radius of utility lines specified in the manufacturer's regulatory documentation. Initially, the fire protection is assembled at the project site and the box segments are successively fastened to the suspension system. A separate segment of the fire protection box is installed, followed by its overlapping or butt-joining with the second segment of the box, and so on until the required length and configuration of the fire protection for utility lines is achieved. A heat-expanding tape based on oxidized graphite is used as a fire-protective thermally expanding material 6 in the gaps between the box segments. Or a material based on a water-polymer dispersion with functional mineral and organic fillers and/or based on intumescent fire-protective coatings is used as a thermally expanding material 6. The box segments are connected using connectors with a high melting point.

Examples of use of the claimed invention.

The assembly method of fire protection for utility lines ensures fire safety in buildings and structures with high fire hazard. It allows for precise and according to plans and diagrams on-site construction of fire protection to prevent the impact of hazardous fire factors on cables and/or utility lines, as well as to prevent hazardous fire factors from exiting the interior of the box. In this case, the prefabricated and disassembled fire-resistant box for utility lines is assembled from cold-rolled galvanized steel with a filler in the form of a vermiculite-based fire-retardant composition, and the gasket between the trays and covers is made of rubber. The fire-resistant box has a rectangular cross-section, and the outer steel tray with an outer steel cover and the inner steel tray with an inner steel cover are made of a U-shaped profile. The connection of the box segments is made by overlapping with a connector, and the gaps between the segments are covered with a heat-expanding tape and/or an intumescent fire-retardant composition.

Also, a fire-resistant cable box is a mandatory element in industrial, administrative, warehouse, residential, parking premises. Therefore, the method of assembling fire protection for utility lines directly on site is very relevant in the listed places to increase accuracy and ensure the preservation of the operability of cable lines, busbars, pipelines. In this case, a steel box with fire-resistant plates is assembled on four sides. Further installation of the assembled fire protection in the form of a steel box with fire-resistant plates is carried out on a suspension system at a distance from the floor and ceiling. The connection of the box segments is made by overlapping, and the gaps between the segments are covered with a fire-resistant heat-expanding material - fire-resistant intumescent paint, which is used to increase the fire resistance limit of steel structures. Fire-resistant paint is an organic mixture with foaming components. In the event of a fire, it swells, forming a fire-resistant heat-insulating layer that slows down heating.

The technical result of the invention consists in providing the possibility of installing fire protection for utility lines on site, as well as increasing the accuracy of assembling the structure of fire protection for utility lines in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer.

The specified technical result is achieved due to the fact that the method of assembling fire protection for utility lines, consisting of a prefabricated and collapsible fire-resistant box or a steel box with fire-protective plates, is characterized by the following stages:

- initially, individual segments of a collapsible fire-resistant box are assembled, consisting of a steel tray and a steel cover, or a steel box with fire-resistant plates;

- a steel tray of a segment of a collapsible fire-resistant box is assembled, while the outer steel tray of the segment is connected to the inner steel tray of the segment through a gasket with reduced thermal conductivity using connectors;

- the next stage involves assembling the steel cover of the segment of the prefabricated fire-resistant box, while the outer steel cover of the segment is connected to the inner steel cover of the segment through a gasket with reduced thermal conductivity using connectors;

- individual segments of the steel box with fire protection plates are assembled, while the fire protection plates are connected to the steel box on four sides with connectors, and the joints between the plates are filled with heat-expanding material;

- connect individual segments of a prefabricated fire-resistant box or a steel box with fire-protective slabs to each other, while the individual segments of a prefabricated fire-resistant box or a steel box with fire-protective slabs are connected end-to-end or overlapping with connectors, and the joints between the segments are filled with heat-expanding material.

Based on this, a comparative analysis of the claimed invention with analogs and a prototype was conducted and errors in the installation of fire protection in accordance with the design documentation of the facility were determined. The obtained test data are presented in Table 1.

Table 1

Comparative analysis of the claimed invention, analogues and prototype

Claimed invention RU2727599 RU207840 RU2763218 Error in installation of fire protection (%) 0 5 7 10

The results of the analysis show that the declared method of assembling fire protection for utility lines ensures the highest accuracy of assembling the structure of fire protection for utility lines in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer, therefore, the fire protection is able to maintain its integrity longer and ensure fire safety of utility lines in comparison with analogues and the prototype.

Thus, the claimed invention makes it possible to install fire protection for utility lines on site, as well as to increase the accuracy of assembly of the fire protection structure for utility lines by an average of 7% in accordance with the design documentation of the facility or with the technological regulations (instructions) of the manufacturer.

Claims (10)

1. A method for assembling fire protection for utility lines, consisting of a prefabricated and collapsible fire-resistant box or a steel box with fire-protective plates, characterized by the following stages: - initially, individual segments of a collapsible fire-resistant box are assembled, consisting of a steel tray and a steel cover, or a steel box with fire-resistant plates; - a steel tray of a segment of a collapsible fire-resistant box is assembled, while the outer steel tray of the segment is connected to the inner steel tray of the segment through a gasket with reduced thermal conductivity using connectors; - the next stage is the assembly of the steel cover of the segment of the prefabricated and disassemblable fire-resistant box, while the outer steel cover of the segment is connected to the inner steel cover of the segment through a gasket with reduced thermal conductivity using connectors, or - individual segments of the steel box with fire protection plates are assembled, while the fire protection plates are connected to the steel box on four sides with connectors, and the joints between the plates are filled with heat-expanding material; - connect individual segments of a prefabricated fire-resistant box or a steel box with fire-protective slabs to each other, while the individual segments of a prefabricated fire-resistant box or a steel box with fire-protective slabs are connected end-to-end or overlapping with connectors, and the joints between the segments are filled with heat-expanding material. 2. A method for assembling fire protection for utility lines according to paragraph 1, characterized in that a filler is placed in the internal space between the outer steel tray and the inner steel tray, as well as in the internal space between the outer steel cover and the inner steel cover of the segment of the prefabricated fire-resistant box. 3. A method for assembling fire protection for utility lines according to paragraph 1, characterized in that the connectors are used in the form of a self-tapping screw or a screw and nut. 4. A method for assembling fire protection for utility lines according to paragraph 1, characterized in that the gasket with reduced thermal conductivity is made of rubber, or wood, or plastic, or a material with poor thermal conductivity. 5. The method for assembling fire protection for utility lines according to paragraph 2, characterized in that the filler is used from fire-protective compositions based on binders gypsum mortars, and/or cement magnesia mortars, and/or alkaline solutions of sodium and/or potassium silicates, and/or based on paints and varnishes, and/or mineral materials, and/or mineral wool materials, and/or stone wool, and/or glass wool, and/or vermiculite, and/or perlite, and/or foamed glass, and/or fibrous materials, and/or various heat-insulating materials, and/or non-combustible materials, and/or hardly combustible materials, and/or combustible materials with limited flammability and combustion, and/or lightweight concrete, and/or polystyrene concrete, and/or aerated concrete, and/or foam concrete, and/or concrete with the addition of vermiculite, and/or perlite, and/or expanded clay, and/or cellulose wool, and/or expanded polystyrene.

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