RU2523326C1 - Shock-absorber for explosion protective elements of buildings - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: single-action shock absorber comprises a housing, the elastic and damping elements, as well as an additional support rod which is rigidly fixed to the stop perpendicular to its axis, which is formed as a plate. The lower surface of the stop the damping base is attached with screws and flange sleeve located coaxially. The upper flange of the sleeve is connected to the damping base and the lower - to the clamping sleeve-type element with grooves for fixing one end of the elastic element made in the form of a conical spring which other end abuts to the cup with the bottom and the central opening, in which the rod is coaxially placed. On the outer surface of the flange sleeve the protective sleeve is mounted coaxially to the rod, made of fragile, crumbling material, such as porcelain. The cup is also made of fragile, crumbling material, such as porcelain, and is attached with screws with its sidewall to the clamping element.

EFFECT: invention enables to increase reliability of triggering of explosion protecting switching devices in case of emergency explosion at the facility.

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Description

The invention relates to protective devices, for example, shock absorbers used in explosive objects.

A device for explosion-proof panels is known (application DE No. 19638658, IPC E04B 1/92 dated 04/16/1998), where the possibility of raising and lowering the panel to its original place in the explosion is carried out by the action of shock absorbers inserted into the support pipes.

The closest in technical essence to the claimed object is the object according to the patent of the Russian Federation No. 2471936, class. E04B 1/92 (prototype), consisting of an armored metal frame with armored metal sheathing and a filler - lead. In the coating of the object near the opening, four support rods are fixed, telescopically inserted into fixed support pipes with shock absorbers, embedded in the panel.

The achieved result is an increase in the reliability of operation of explosion-proof devices in an emergency explosion.

This is achieved by the fact that in a disposable shock absorber comprising a housing, elastic and damping elements, a support rod is additionally contained, to which a stop made in the form of a plate is rigidly attached perpendicular to its axis, and a damping base and a coaxially located flange are attached to the bottom surface of the stop by screws a sleeve, the upper flange of which is connected to the damping base, and the lower one - with the clamping element of the sleeve type with grooves for fixing one of the ends of the elastic element, you filled in the form of a conical spring, the other end of which abuts against a cup with a bottom and a central hole, in which the shaft is coaxially placed, and a safety sleeve made of brittle, collapsing material, such as porcelain, is installed coaxially with the shaft on the outer surface of the flange sleeve it is also made of a fragile, collapsing material, such as porcelain, and is screwed with its shell to the clamping element.

The drawing shows a diagram of a shock absorber for explosion-proof elements of buildings.

The shock absorber for the explosion-proof elements of buildings contains a support rod 1, to which a stop 2 made in the form of a plate is rigidly attached perpendicular to its axis. A damping base 3 and a coaxially located flange sleeve 5 are attached to the lower surface of the stop 2 by screws 4, the upper flange of which is connected to the damping base 3, and the lower one - with the clamping element 11 of the sleeve type with grooves 12 for fixing one of the ends of the elastic element 14 made in in the form of a conical spring, the other end of which abuts against the cup 7 with the bottom 9 and the central hole 10, in which the rod 1 is coaxially placed. On the outer surface of the flange sleeve 5, a safety a sleeve 6 made of a brittle, collapsing material, such as porcelain. The glass 7 is also made of brittle, crumbling material, such as porcelain, and is fastened with its shell 8 to the clamping element 11 with screws 13.

The shock absorber assembly for explosion-proof elements of buildings is carried out in the following sequence. A stop 2 is welded to the rod 1 perpendicular to its axis, after which a damping base 3 is fastened to it via screws 4 through a flange sleeve 5 with a safety sleeve 6. To the bottom flange of the sleeve 6 are screwed 4 a clamping element 11 of the sleeve type with grooves 12 in which the upper the base of the elastic element 14, made in the form of a conical spring. Then set the glass 7 with emphasis in its bottom 9 of the lower base of the conical spring 14 and tighten it with screws 13 to the clamping element 11.

The shock absorber for explosion-proof elements of buildings works as follows.

When the explosion-proof object is raised (not shown in the drawing) from the impact of the shock wave, it abuts against the bottom 9 of the cup 7, which 1 collapses upon further movement of the explosion-proof object, freeing the conical spring 14 and the path for further advancement of the clamping element 11 along the rod 1 until it interacts with a flange sleeve 5, in this case, the safety sleeve 6 made of brittle, collapsing material is destroyed, and the clamping element 11 abuts through the flange sleeve 6 in the damping base 3. In the case of a large (5 kPa) pressure blast wave, the following occurs: either cut off a weld joint which secures the support rod 1, the abutment 2, or jamming occurs and the rupture of the rod 1.

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.

Claims (1)

A disposable shock absorber comprising a housing, elastic and damping elements, characterized in that it further comprises a support rod, to which a stop made in the form of a plate is rigidly attached perpendicular to its axis, and a damping base and a coaxially located flange sleeve are attached to the bottom surface of the stop by screws, the upper flange of which is connected to the damping base, and the lower one - with the clamping element of the sleeve type with grooves for fixing one of the ends of the elastic element, made in the form of a conical spring, the other end of which abuts against the bottom and the central hole, in which the rod is coaxially placed, and a safety sleeve made of brittle, collapsing material, such as porcelain, is installed coaxially with the rod on the outer surface of the flange sleeve it is also made of a fragile, collapsing material, such as porcelain, and is screwed with its shell to the clamping element.

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