RU2101443C1 - Protective screen - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to erection of ground surface buildings and structures with protection of light openings in zone of probable explosions at breakdowns and disasters. Device has window sashes with double glazing, bolts secured in window opening with weakened necks and inserted through thrust sleeve, holes in window sashes and fastening angular members. Protective screen is made up of flat double-span frame of angular members. Attached to frame from outer side is insert lattice made of foam plastic material which is lined at both sides with sheets of reinforced organic glass. Frame is installed on supporting spacers of pliable material and is hung on vertical lengths of wire made of plastic metal secured at ends on supports. Wire lengths are inserted through holes in horizontal members of frame. Passages in metal pipes are filled with pliable material for sealing. Joining of frame and fastening of metal pipe lengths along sides to vertical angular members above lower and upper horizontal members of frame are effected by means of angular fastening members and connection bolts. EFFECT: high efficiency. 4 dwg

Description

 The invention relates to the construction of land-based buildings and structures, and can be applied to ensure the protection of light passageways of buildings and structures located in areas with the possible impact of explosions in accidents and disasters. At the same time, protective screens can be used both independently and to protect glazed openings.

 Known protective shields of light-transmitting openings, consisting of a window box, window frames with double or triple glazing and a window sill (Fig. 151, B) (1).

The disadvantage of such protective screens is the destruction of glazing, window frames and window frames with a sufficiently low intensity of excess pressure in the front of the air shock wave, comprising 0.015 0.062 kgf / cm ² (4). In this case, a significant amount of fragments of the structures of these protective screens and glass fragments is formed, which can have a damaging effect on people inside the building.

 An increase in the protective properties of such protective shields is achieved through the use of rotary glazed bindings that rotate relative to the upper horizontal or lateral vertical cylindrical hinges (2-4), as well as movable glazed bindings (4). The movable glazed binders are structurally double glazed and have four options for attaching window frames, in the form of bolts, loosened the neck, breaking elements, studs with folding ends and screws pulled out of a wooden boss (4).

 The disadvantages of these protective screens are the breakdown of window frames from fasteners, their partial destruction, as well as the destruction of glazing with the formation of fragments that can have a damaging effect on people.

 Closest to the proposed invention is a protective screen made of double-glazed window frames fixed in the opening by bolts loosened by the necks and passed through the thrust sleeve, holes in the bindings and corner fasteners (Fig. 3.2.2) (4).

 This protective screen is taken as a prototype, the prototype is the base object.

 The disadvantage of such a protective screen is the destruction of glazing and the formation of fragments that can have a significant damaging effect on people inside buildings.

 The aim of the invention is to increase the protective properties of filling light passage openings.

 This goal is achieved by the fact that the protective screen is made of a flat two-span frame made of corner elements, to which from the outside there is a lattice insert made of foam plastic, sheathed on both sides with sheets of reinforced plexiglass, and the frame is mounted on supporting strips of pliable material and hung on vertical , fixed at the ends of the supports, pieces of wire made of plastic metal, passed through holes in the horizontal elements of the frame and the channels of the pieces of metal pipes. The channels of the metal pipe sections are filled with a seal of ductile material.

 The connections of the frame and the attachment of the pieces of metal pipes to the vertical corner elements above the lower and lower upper horizontal frame elements are carried out by means of corner fasteners and connecting bolts.

 The protective screen is shown in figures 1-4 and consists of sheets of reinforced plexiglass 1, a lattice insert made of polystyrene 2, a flat two-span frame of corner elements 3, pieces of metal pipes 4, seals from malleable material 5, pieces of wire made of plastic metal 6, angular fasteners 7, connecting bolts 8 and support gaskets of compliant material 9. The design of ensuring a tight fit of the protective screen to the frame of the opening is conventionally not shown.

 The protective screen is attached to the supports 10.

The protective screen operates as follows:
an air shock wave, approaching the building begins to affect the walls and protective screens in the openings of the building. An air shock wave loads the outer sheet of reinforced plexiglass 1 and deforms it, almost simultaneously with this deforms (compresses) the foam insert grid 2 and then the action is transmitted to the inner sheet of reinforced plexiglass 1. With a further increase in the intensity of the impact, a flat two-span frame takes up the dynamic load corner elements 3, which, in turn, transmits all the impact through pieces of metal pipes 4 and seals from ductile material 5 to vertically tanovlenii wire segments of a plastic metal 6 and the support pad of compliant material 9.

 As a result of this, the wires 6 are stretched and provide horizontal movement of the protective shield as a whole.

 Organized deformability of the protective screen reduces the amplitude of the acting excess reflection pressure due to the violation of diffraction and flow patterns, which does not allow the formation of an intense dynamic reflection load on the protective screen installed in the opening.

 The most excessive reflection pressure is observed during diffraction by fixed rigid barriers installed vertically.

 Thus, it provides a significant increase in the protective properties of filling light-transmitting openings and reducing the damaging effect of glass fragments on people inside the building.

Claims (1)

 A protective screen comprising double-glazed window frames fixed in an aperture by bolts loosened by the necks and passed through a thrust sleeve, holes in covers and corner fasteners, characterized in that the protective screen is made of a flat two-span frame of corner elements, to which with an external a foam lattice is attached to the sides, sheathed on both sides with sheets of reinforced plexiglas, and the frame is mounted on supporting strips of compliant material and hung on vertical ones, fixed pieces of plastic metal wire drawn at the ends at the supports, passed through holes in the horizontal elements of the frame and the channels of the metal pipe sections, the channel of the metal pipe sections being filled with a seal of ductile material, and the frame joints and the fastening of the metal pipe sections on the sides to the vertical corner elements, above the lower and upper upper horizontal frame elements, implemented by means of corner fasteners and connecting bolts.

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