RU201592U1 - Explosion Proof Sandwich Panel - Google Patents

Abstract

The technical solution relates to the field of construction, namely to the elements of prefabricated building structures intended for facing buildings and structures, which are subject to increased requirements for resistance against a blast wave. In an explosion-proof sandwich panel containing two metal sheets forming the inner and outer surfaces of the panel, a filler is placed between the said metal sheets, the density of which is from 130 to 300 kg / m3, and clamps designed to connect the panel to another panel, made on ends of metal sheets, the filler contains at least three rows of insulating material, each of which consists of segments, while the joints of the segments of one row are displaced relative to the joints of the other row. The filler can be glued to metal sheets. The clamps are made with the possibility of being connected to another panel with a thorn-groove lock. A sealant can be placed in the retainer on one of its elements. The technical result consists in increasing the strength of the explosion-proof sandwich panel. Such a panel is distinguished by a high service life, resistance to mechanical damage and the ability to withstand the damaging factors of explosive phenomena, while maintaining its integrity and shape.

Description

The technical solution relates to the field of construction, namely to the elements of prefabricated building structures intended for facing buildings and structures, which are subject to increased requirements for resistance to blast waves.

A sandwich panel is known from the prior art according to the utility model patent RU 147673 "WALL SANDWICH PANEL" (IPC E04C 2/284; published on November 10, 2014). The known panel contains two surface layers made of metal sheets, the end sides of which are equipped with “thorn-groove” locks, a sealant is fixed on one of the locks, and heat-insulating layers are placed between the metal sheets. The disadvantage of this technical solution is its insufficient strength, in particular, the strength of the heat-insulating layers, and therefore it cannot act as an explosion-proof panel. In contrast to this analogue, the filler of the declared panel has a density of 130 to 300 kg / m3, which allows it to contain the blast wave.

A wall panel according to the international application WO 2018084702 "Blast protection wall" (IPC E04B 2/92; E04C 2/292; E04H 9/10; published 05/11/2018) is known from the prior art, which is selected as the closest analogue. The wall panel contains two metal plates and a layer of mineral fibers placed between them, the density of the fibers is preferably 200 kg / m3. The sandwich panel is held in place by a support structure containing support posts.

The person skilled in the art knows that the filler, that is, the layer of mineral fibers, in such panels, as a rule, is made in the form of bars consisting of segments, the joints of the segments of each bar are located opposite each other. The disadvantage of this technical solution is the low strength of the panel and its short service life, since over time, the filler breaks along the line of joints and the panel is deformed. In contrast to this solution, the filler of the declared sandwich panel contains rows, each of which consists of segments, while the joints of the segments of one row are displaced relative to the joints of the other row, which increases the strength and service life of the panel as a whole, reducing the likelihood of its destruction.

The objective of the proposed technical solution is to create an explosion-proof sandwich panel, characterized by high strength, reliability and durability. The technical result consists in increasing the strength of the explosion-proof sandwich panel. Such a panel is distinguished by a high service life, resistance to mechanical damage and the ability to withstand the damaging factors of explosive phenomena, while maintaining its integrity and shape.

The claimed technical result is achieved by the fact that in an explosion-proof sandwich panel containing two metal sheets forming the inner and outer surfaces of the panel, a filler is placed between the said metal sheets, the density of which is from 130 to 300 kg / m3, and clamps intended for joining panels with another panel made at the ends of metal sheets, the filler contains rows of insulating material, each of which consists of segments, while the joints of the segments of one row are displaced relative to the joints of the other row. The filler is glued to metal sheets. The latches are made with the possibility of being connected to another panel with a thorn-groove lock. A sealant can be placed in the retainer on one of its elements.

The presence of two metal sheets forming the inner and outer surfaces of the panel, due to their high fire resistance, rigidity and resistance to mechanical damage, increases the strength of the structure, and, consequently, the service life of the entire panel.

To realize the purpose, namely the facing of buildings and structures, the sandwich panel contains clamps designed to connect the panel to another panel, made at the ends of the metal sheets.

The latches are made with the possibility of connecting to another panel with a lock of the type

"Tongue-groove", providing connection of panels without gaps, which increases the strength characteristics of the panel.

To exclude the movement of air through the joints of the panels, as well as the ingress of moisture and atmospheric precipitation, leading to a deterioration in the characteristics of the panel, its damage and destruction, a sealant is placed in the retainer on one of its elements.

Between these metal sheets is placed, in particular glued, a filler, the density of which is from 130 to 300 kg / m3, which ensures the explosion resistance of the panel and, according to the tests carried out, makes it possible to contain the blast wave up to 100 kPa.

The filler contains rows of insulating material, each of which consists of segments, while the joints of the segments, i.e. the lines of contact of the segments of one row are displaced relative to the joints of the other row. This design makes it possible to form a strong structure that is resistant to mechanical loads due to the uniform distribution of the load throughout the entire volume, and to reduce the likelihood of fracture of the filler segments and damage or deformation of the panel as a whole, which increases its overall service life.

The claimed solution is illustrated with the help of figures, which conditionally represent possible versions of the claimed explosion-proof sandwich panel.

FIG. 1 shows a general view of an explosion-proof sandwich panel in the version for use as a roofing panel.

FIG. 2 shows a cross-section of an explosion-proof sandwich panel made for

use as a wall panel.

FIG. 3 shows an enlarged view of the clamps on one side of a wall explosion-proof sandwich panel.

FIG. 4 shows an enlarged view of the clamps on the other side of the wall blast-resistant sandwich panel.

The numbers in figures 1-4 indicate: 1 - a sheet forming an outer

panel surface, 2 - sheet forming the inner surface of the panel, 3 - clamps, 4 - sealant, 5 - filler, 6 - filler segment, 7 - joint of filler segments.

In the following, the construction of an explosion-proof sandwich panel is described with reference to the figures. The explosion-proof sandwich panel comprises two metal sheets 1, 2, in particular profiled steel sheets, forming the inner and outer surfaces of the panel. The surface of the metal sheets 1, 2 can be coated with an anti-corrosion coating, preferably zinc and polymer.

Between sheets 1, 2, there is a filler 5 with a density of 130 - 300 kg / m3, which has heat insulating ability and sound insulation characteristics. In a preferred embodiment, mineral wool with increased strength characteristics is used as filler 5. In this case, the filler 5 contains at least three rows, each of which consists of segments 6, while the joints 7 of the segments 6 of one row are displaced relative to the joints 7 of the other row. The filler 5 can be glued to the metal sheets using, for example, a polyurethane adhesive.

In the context of this description, segments 6 are bars or lamellas. The panel is filled with filler 5 by sequentially stacking vertically oriented segments 6 (bars or lamellas) or horizontally oriented segments 6 (bars or lamellas). Having filled one row along the entire length of the metal sheet, the next row of bars or lamellas is laid, the joints of 7 segments 6 of each next row are shifted relative to the previous one. Thus, at least 3 rows of filler are obtained.

At the ends of the metal sheets 1, 2 there are clamps 3, designed to connect the panels to each other. The retainers 3 can be located both on the metal sheet 1, which forms the outer surface of the panel, and on the sheet 2, which forms the inner surface of the panel, and contain a sealant 4. The sealant 4 can be used, in particular, a self-adhesive sealing tape made of expanded polypropylene or substances made on the basis of stable polymers such as polyisobutylene, polychloroprene and polysulfide rubbers.

In an advantageous embodiment, each metal sheet comprises two retainers 3 located along the parallel ends of the metal sheet 1, 2, one of the retainers 3 accommodates a sealant 4. The explosion-proof sandwich panel can be configured both for use as a roofing panel as shown in FIG. ... 1 and as a wall panel as shown in FIG. 2. To ensure reliable connection of panels and exclude air movement through the joints of the panels, as well as ingress of moisture and atmospheric precipitation, the clamps 3 of the roof explosion-proof panel can be made in the form of protruding elements having an inclined surface and intended for overlapping connection with the clamps panels. Wall panels, as a rule, have clamps 3 in the form of a tongue-and-groove connection, i.e. made in the form of protrusions or recesses for connecting several wall explosion-proof panels into a single canvas by aligning the projections of one panel with the recesses of the other. Moreover, in the recesses, i.e. “groove” elements, sealant 4 can be located.

Explosion-proof sandwich panels are used for cladding the roof and walls of buildings and structures and are attached to the supporting structure. The panels are connected to each other using clamps 3. The clamps 3 located on the metal sheet 1 forming the outer surface of the panel, in the version of the explosion-proof roofing panel, are connected to the clamps 3 of the other panel "overlapping" and can additionally be connected by fasteners in the form of rivets, bolts with nuts, screws or studs with nuts.

The explosion-proof sandwich panel is characterized by high strength, reliability and durability, and has a long service life.

It is obvious to a person skilled in the art that the above example of an explosion-proof sandwich panel and its individual parts, as well as the views shown in the figures, do not limit the scope of the proposed technical solution. It is possible to manufacture and use the panel in other forms within the scope of the claimed formula.

Claims (4)

1. Explosion-proof sandwich panel containing two metal sheets forming the inner and outer surfaces of the panel, a filler placed between the said metal sheets, the density of which is from 130 to 300 kg / m3, and clamps designed to connect the panel to another panel, made at the ends of metal sheets, characterized in that the filler contains rows of insulating material, each of which consists of segments, while the joints of the segments of one row are displaced relative to the joints of the other row. 2. Explosion-proof sandwich panel according to claim 1, characterized in that the filler is glued to the metal sheets. 3. Explosion-proof sandwich panel according to claim 1, characterized in that the latches are made with the possibility of being connected to another panel with a thorn-groove lock. 4. Explosion-proof sandwich panel according to claim 1, characterized in that a sealant is placed in the retainer on one of its elements.

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