RU2631278C1 - Blast resistant panel - Google Patents

Abstract

FIELD: blasting works.

SUBSTANCE: four support bars are fully-fixed in the explosive object coating in the blast resistant panel, which is composed of the metal armored frame with the metal armored plating and the filler - lead, and of four immovable branch pipes-supports in the flat ends. These support bars are telescope introduced into the immovable branch pipes-supports of the panel. The filler is made in the form of the air-lead dispersion system. The lead is made in the shape of the grit, and on the outside of the support bars, there are elastic-damping elements, one end of which bumps into the armored metal-coating, and the other - into the leafs-supports that are placed at the top of the support bars. The damping element, which is intended to damp the panel impact loads with the leafs-supports, is rigidly attached to the flat ends of the elastic support bars with the leafs-supports for the fixation of the panel end position. It is attached opposite to the panel and is directed to the panel side, and is designed as the solid body with the internal cavity and the surfaces, the panel equidistant surfaces, upon that, the internal cavity of the solid body is filled with the air-lead dispersion system. The additional elastic-damping element is positioned between the blast resistant panel and the damping element, which is rigidly attached to the flat ends of the elastic support bars with the leafs-supports. The additional elastic-damping element is made in the form of the multiple-unit spring, which comprises the cylindrical spiral spring composed of two parts with the opposed ends, one part of which has the rectangular cross-section turns, and the other part of the spring is hollow made. The first part opposed end is housed within the second part cavity, the segmental-bar clearances of the spring contacting parts are filled with the antifriction grease. The sealing cup is mounted on the spring second part end for the grease leakage prevention, and the made of the damping material, for example of the poly urethane, tube encircles the spiral spring first part, which is implemented with the rectangular cross-section turns with the eased edges. And the clearances of the spiral spring first part, which is implemented with the rectangular cross-section turns and which is encircled with the tube made of the damping material, are filled with the crumb of the friction material, which is comprised of the fixed composition.

EFFECT: growth of the reliability of the explosion proof devices operation in the time of the crash explosion on site and guarantee these constructions return to normal position after the explosion.

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Description

The invention relates to protective devices used in explosive and radioactive objects, such as easily erasable panels and roofs, explosion-proof fences and dampers, overpressure valves.

The closest technical solution to the claimed object is an explosion-proof panel according to the patent of the Russian Federation No. 2533390, Cl. Е04В 1/92 (prototype), consisting of an armored metal frame with armored metal casing and a filler - lead. In the coating of the object near the opening, four support rods are embedded that are telescopically inserted into fixed support pipes embedded in the panel. To fix the limit position of the panel, stop plates are welded to the ends of the support rods.

A technically achievable result is an increase in the reliability of operation of explosion-proof devices during an emergency explosion at the facility and ensuring the return of these structures to their original position after the explosion.

This is achieved by the fact that in the explosion-proof panel containing a metal armored frame with metal armored casing and lead filler having four fixed support pipes at the ends, and four support rods that are telescopically inserted into the fixed support pipes, are rigidly embedded in the coating of the explosive object panels, the filler is made in the form of a dispersed air-lead system, moreover, the lead is made in the form of crumbs, and elastically damping elements are located outside the support rods, o the other end of which abuts against an armored metal sheathing, and the other into abutment sheets located in the upper part of the support rods, the elastic-damping elements are made in the form of cylindrical coil springs, the external helical surface of which is covered with vibration damping mastic, for example, type VD-17, and the filler is made in the form of spherical crumbs of one diameter, or the filler is made in the form of spherical or arbitrary crumbs of different diameters, to fix the limit position of the panel to the ends of pore elastic rods with abutment sheets, a damping element is attached for damping the shock loads of the panel against the abutment sheets, moreover, it is mounted opposite to the panel and directed in its direction, and is made in the form of a three-dimensional body with an internal cavity and surfaces equidistant to the panel surfaces, In this case, its internal cavity is filled with a dispersed air-lead system, and the lead is made in the form of crumbs, spherical in shape, between an explosion-proof panel consisting of an armored metal frame with armor An additional elastic-damping element, an elastic-damping element made in the form of a combined spring containing a cylindrical screw a spring, consisting of two parts with opposite ends, one part of which has turns of rectangular cross section, and the other part of the spring is made hollow, while the counter-directed end of the first part is placed in the cavity of the second, the gaps of the segment profile of the contacting parts of the spring are filled with antifriction grease, while at the end of the second part of the spring a sealing sleeve is installed to prevent leakage of lubricant, and the first part of the coil spring made with rectangular turns cross-section with rounded edges, covers a tube made of a damping material, such as polyurethane, and the gaps in the first part of a helical spring made with turns of a rectangular the sections covered by the tube of damping material are filled with crumbs of friction material, the gaps in the first part of a coil spring made with coils of rectangular cross section, which are covered by the tube of damping material, are filled with crumbs of friction material made of a composition comprising the following components, at their ratio, wt. %: a mixture of rezol and novolac phenol-formaldehyde resins in a ratio of 1: (0.2-1.0) in an amount of 28 ÷ 34%; fibrous mineral filler containing glass roving or a mixture of glass roving and basalt fiber in a ratio of 1: (0.1-1.0), in an amount of 12 ÷ 19%; graphite in the amount of 7 ÷ 18%; a friction modifier containing carbon black in the form of a mixture with kaolin and silicon dioxide, in an amount of 7 ÷ 15%; barite concentrate in an amount of 20 ÷ 35%; talc in the amount of 1.5 ÷ 3.0%.

In FIG. 1 is a diagram of an explosion-proof coating panel (or roof) of an explosive or radioactive object; FIG. 2 shows a variant of the anti-explosion panel; FIG. 3 shows a variant of an additional elastically damping element 12 located between the anti-explosion panel and the damping element 11.

The explosion-proof panel consists of an armored metal frame 1 with an armored metal casing 2 and a filler - lead 3. In the coating of the object 7 at the aperture 8, four support rods 4 are embedded symmetrically with respect to the axis 9, telescopically inserted into the fixed support tubes 6 embedded in the panel. To fix the limit position of the panel, the stop sheets 5 are welded to the ends of the support rods 4. In order to damp (soften) shock loads when the panel is returned, the filler is made in the form of an air-lead dispersed system, and the lead is made in the form of crumbs, and supporting rods 4 can be made elastic.

Outside the support rods are resiliently damping elements 10, one end of which abuts against the armored metal sheathing 2, and the other into the abutment sheets 5 located in the upper part of the support rods 4.

Elastic-damping elements 10 can be made in the form of cylindrical coil springs, the external helical surface of which is covered with vibration damping mastic, for example, type VD-17.

A variant is possible (Fig. 2) when, in order to fix the limit position of the panel, damping element 11 is attached to the ends of the supporting elastic rods 4 with stop sheets 5 (Fig. 2), designed to dampen the shock loads of the panel on the stop sheets 5.

The damping element 11 is attached opposite the panel and is directed towards it, i.e. towards her movement during the explosion.

The damping element 11 is made in the form of a volumetric body with an internal cavity and surfaces equidistant to the panel surfaces, while its internal cavity is filled with a dispersed air-lead system, and lead is made in the form of crumbs of a spherical shape.

A variant is possible (Fig. 2), when between an explosion-proof panel consisting of an armored metal frame 1 with an armored metal casing 2 and a filler - lead 3, and a damping element 11 (Fig. 2), attached to the ends of the supporting elastic rods 4 with sheets - stops 5 and intended for damping the shock loads of the panel on the stop sheets 5, an additional elastic-damping element 12 is placed.

The explosion-proof panel operates as follows.

When an explosion occurs inside the production room (not shown in the drawing), the panel 1 rises from the action of the shock wave and overpressure is released through the open opening 8.

In this case, the elastic damping elements 10 are compressed, extinguishing the energy of the explosion, and then return the panel to its original state.

The outer screw surface of the elastic damping elements 10 is covered with vibration damping mastic, for example, type VD-17, which additionally contributes to the damping of the blast wave.

When the panel moves upward along the elastic rods 4, it encounters an additional elastic-damping element 12 in its path, and then a damping element 11, in the interaction with which the blast energy is suppressed.

After the explosion and the drop in excess pressure, dropping down, the panel closes the opening 8 and harmful substances do not enter the atmosphere. Stop plates 5 are used to fix the limit position of the panel. In order to damp (soften) shock loads when the panel is returned, the filler of the metal frame 1 is made in the form of a dispersed air-lead system, moreover, the lead is made in the form of crumbs, and the support rods 4 can be made elastic.

Using the proposed technical solution allows the prevention of explosive objects from destruction and the reduction of harmful substances into the atmosphere during an accidental explosion.

It is possible that between the explosion-proof panel and the damping element 11 an additional elastic-damping element 12 is placed, made in the form of a combined spring with an integrated damper, which contains a coil spring, consisting of two parts 15 and 16 with opposite ends 18 and 17 of the corresponding turns of these springs . On the supporting coils of the spring, support rings 13 and 14 are made for strong and reliable fixing of the ends of the springs during their operation. The first part of the coil spring 15 is made with coils of rectangular (or square) section with rounded edges, and the second part 16 of the spring is hollow, for example of circular cross section, while the counter-directed end 18 of the first part of the spring is placed in the cavity of the counter-directed second part of the spring with the end 17 while its second end, mounted on the support ring 14, is sealed, for example, using a threaded plug (not shown).

In the cavity of the second spring part 16, made of a hollow circular section, formed on four sides relative to the rectangular section of the first spring part 15, the gaps 19 of the segment profile in a section perpendicular to the axis of the contacting parts 15 and 16 of the spring.

The first part 15 of the coil spring, made with turns of rectangular (or square) section with rounded edges, covers the tube 20 of a damping material, such as polyurethane. The gaps in the first part 15 of a coil spring made with coils of rectangular cross section, which is covered by a tube 20 of damping material, are filled with crumbs of friction material (not shown in the drawing).

It is possible that the gaps in the first part of a coil spring made with coils of rectangular cross section, which are covered by a tube of damping material, are filled with crumbs of friction material made of a composition that includes the following components in their ratio, wt. %: a mixture of rezol and novolac phenol-formaldehyde resins in a ratio of 1: (0.2-1.0) in an amount of 28 ÷ 34%; fibrous mineral filler containing glass roving or a mixture of glass roving and basalt fiber in a ratio of 1: (0.1-1.0), in an amount of 12 ÷ 19%; graphite in the amount of 7 ÷ 18%; a friction modifier containing carbon black in the form of a mixture with kaolin and silicon dioxide, in an amount of 7 ÷ 15%; barite concentrate in an amount of 20 ÷ 35%; talc in the amount of 1.5 ÷ 3.0%.

Combined spring with integrated damper works as follows.

The spring stiffness is adjusted by shortening or lengthening the spring height. When the support rings 13 and 14 rotate, the spring coils move relative to each other in mutually opposite directions relative to the longitudinal axis of the spring, i.e. screwed in or out. In the first case (when screwing in), the stiffness of the spring increases, and in the second case (when unscrewing) it decreases, which makes it easier to adjust the stiffness of the spring.

Claims (1)

An explosion-proof panel containing a metal armored frame with metal armored casing and lead filler, having four fixed support pipes at the ends, and four support rods that are telescopically inserted into the fixed pipe support pipes of the panel, are rigidly embedded in the ends, the filler is made in the form dispersed air-lead system, moreover, lead is made in the form of spherical or arbitrary shape crumbs of one or different diameters, and outside the support rods are elastic-damping elements are laid, one end of which abuts against an armored metal sheathing, and the other - on abutment sheets located in the upper part of the support rods, to fix the limit position of the panel, a damping element is attached to the ends of the support elastic rods with abutment sheets, intended for shock absorption the panel loads on the abutment sheets, moreover, the opposite panel is attached and directed towards it, and is made in the form of a three-dimensional body with an internal cavity and surfaces equidistant to the surface panels, while its internal cavity is filled with an air-lead dispersed system, and lead is made in the form of spherical crumbs, between an explosion-proof panel consisting of an armored metal frame with armored metal casing and lead filler, and a damping element attached to the ends of elastic support rods with stop sheets and designed for damping the shock loads of the panel on the stop sheets, an additional elastic damping element is placed, characterized in that the elastic damping the irradiating element is made in the form of a combined spring containing a cylindrical helical spring, consisting of two parts with opposite ends, one part of which has turns of rectangular cross-section, and the other part of the spring is hollow, while the opposite direction of the first part is placed in the cavity of the second, The gaps of the segment profile of the contacting parts of the spring are filled with antifriction grease, while at the end of the second part of the spring a sealing sleeve is installed to prevent leakage of the lubricant, and the first part of the coil spring made with coils of rectangular cross-section with rounded edges is covered by a tube of damping material, for example polyurethane, and the gaps in the first part of a coil spring made with coils of rectangular cross-section, which is covered by a tube of damping material, are filled with crumbs of friction material, made from a composition comprising the following components in their ratio, wt. %: a mixture of rezol and novolac phenol-formaldehyde resins in a ratio of 1: (0.2-1.0) in an amount of 28 ÷ 34%; fibrous mineral filler containing glass roving or a mixture of glass roving and basalt fiber in a ratio of 1: (0.1-1.0), in an amount of 12 ÷ 19%; graphite in the amount of 7 ÷ 18%; a friction modifier containing carbon black in the form of a mixture with kaolin and silicon dioxide, in an amount of 7 ÷ 15%; barite concentrate in an amount of 20 ÷ 35%; talc in the amount of 1.5 ÷ 3.0%.

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