RU2303680C2 - Explosion-protected case for object - Google Patents

Abstract

FIELD: construction, particularly to prevent damage caused by inner or outer explosion of vehicle or building objects and structures.

SUBSTANCE: explosion-protected case has load-bearing frame assemblies and members secured in-between. The members may be opened under the action of excessive pressure. The openable members have sliding panels connected with resilient members having other ends cooperating with support structure. Support structure is fastened to load-bearing frame assemblies. Air-tight seal and guiding means extend along each openable member perimeter.

EFFECT: increased reliability, integrity and simplicity of case structure to be protected against damage caused by inner or outer explosions.

6 cl, 6 dwg

Description

The invention relates to transport and construction, in particular to transport and construction objects, structures of vehicles and structures, and can be used to prevent destruction during internal or external explosion of transport and construction objects and structures, including airtight ones.

A device and method for attenuating the effects of an explosion (US 6,782,792 B1, class F41H 5/007, 08/31/2004), including a system and method of manufacturing a protection to protect the space from the pressure of the explosion. One system includes a source supplying material that attenuates the effect of an explosion. The feed system delivers attenuating material to the outlet openings. The third system causes the valve device to open in response to a perceived explosion hazard. The feed system delivers the material to form a protection, directly to the periphery of the protected space.

This device protects the structure of the object only from an external explosion, in addition, for the device to operate, the explosion must first be detected by the detector.

A structure device is known that absorbs the effect of a blast wave (WO 2004/088240 A1, class F42D 5/045, Е04Н 9/10, 10/14/2004), including an impact-absorbing wall having at least one surface with inlets on it which lead into the channels within this structure so that shock waves reaching said inlets pass through said channels, thereby directing the movement of the shock wave through at least a portion of said structure.

This invention also provides protection against unilateral explosive action only.

Closest to the claimed invention is the enclosure of an explosive room (SU 742572 A, class EB 5/12, 06/28/1980), including openable sections of the wall with sections of panel elements attached to the enclosure frame on top of the hinge, and the bottom - elastic ties.

However, such a fence is valid only in case of an explosion inside the object, in addition, such a design is difficult to use on a vehicle, including sealed vehicles.

The objective of the invention is to provide a housing that is protected from destruction during an internal or external explosion of transport and construction objects and structures, including airtight ones.

The technical result provided by the claimed invention is to increase reliability, maintain integrity and simplify the design of the housing, which is protected from destruction by an internal or external explosion. Known explosion-proof housing of the object, including the supporting frame structures and the elements fixed between them, opening under the action of overpressure, while the opening elements contain a movable panel connected to at least two elastic elements and one connection formed either by an elastic element or by a hinge connection to solve the above problem is supplemented by a sealing seal and at least two guides placed around the perimeter of each opening element one with the other ends of the elastic elements or joints are interconnected with at least one supporting structure fixed to the two bearing elements of frame structures and limiting movement of the movable panel.

In addition, in particular cases of the invention, the elastic elements can be made in the form of springs.

Supporting structures can be made in the form of two intersecting rods.

The sealing seal may be in the form of an elastic gasket or in the form of a flexible hollow cord provided with a gas source.

In addition, the surface of the movable panel of the opening member can be divided into several smaller panels.

An example implementation of the claimed invention is illustrated in figures 1-6.

Figure 1 - the first embodiment of the element that opens under the action of excess pressure.

Figure 2 - the second embodiment of the element that opens under the action of excess pressure.

Figure 3, 4 - embodiments of the body of the object with opening elements.

5 is an embodiment of an element opening under the action of excessive pressure, with a forced return to its original position.

6 is an embodiment of the design of the element with additional sealing.

Explosion-proof housing of object 7 includes a casing 2, hermetic seal 5, guides 6, supporting frame structures - frames 8 and stringers 9, supporting structures - curved crossing rods 4 are mounted on frames 8 and stringers 9, movable panels 1 have a round or rectangular shape and mounted on supporting structures - curved intersecting support rods 4, while the panels are connected to at least one support rod 4 or elastic ties 3, or a swivel (not yet drawings ano) and elastic ties 3, in the place where the movable panel is adjacent to the casing, the bevel is removed at the last along the perimeter of the fit so that the size of the hole in the casing for the movable panel to enter on the outer surface of the casing is larger than the inside, while the size of the movable panels without a tight seal are smaller than the size of the holes on the inner surface of the skin, and the panel contains at least two guides 6, which are made of rubber or of a more rigid elastic material, the sealing seal 5 is made in the form of a hollow cord or an elastic tube and is laid in the recess of the skin or placed around the perimeter of the movable panel, while the seal is made with the possibility of providing additional tightness by gas generation or by supplying gas into the cord or tube.

Opening under the action of excess pressure, the element contains a movable panel 1, combined with the surface of the body of the object 2, elastic elements 3 made in the form of springs, a sealing seal 5 and guides 6 made in the form of rubber strips. The elastic elements 3 are connected to the movable panel 1 and to the supporting structures 4, mounted on two elements of the supporting frame structures. The supporting structures 4 are made in the form of installation curved, intersecting rods. The shape of the opening panel 1 can be rectangular or round, as shown in figure 1 by a dashed line. The second embodiment of the element that opens under the action of overpressure differs from the first in that at the place of abutment of the movable panel to the casing of the body, the latter bevels around the abutment. Thus, the size of the hole in the casing for the movable panel to enter on the outer surface is larger than on the inner surface, while the size of the movable panel without the hermetic seal 5 is smaller than the size of the hole on the inner surface of the casing. In addition, in this embodiment, the guides 6 are made of a more rigid, elastic material and are located at an angle greater than 90 ° with respect to the surface of the movable panel.

To ensure reliable operation of the large-sized element opening due to overpressure, the movable panel 1 can consist of several smaller similar panels 10. Thus, the majority of the housing 7, including frames 8 and stringers 9, can be a set of movable panels. Such an object body becomes “transparent” for the shock wave.

The movable panel 1 can be connected to the supporting structure by a swivel 11. In this case, one of the fastenings of the movable panel is made in the form of a hinge connection, the rest as in the previous cases are made in the form of elastic ties 3.

The sealing seal 5 can be made in the form of a hollow cord or elastic tube, laid in the recess of the skin or panel around the perimeter of the movable panel 1. In this case, additional tightness can be provided by gas generation or by supplying gas inside the cord or tube.

In case of emergency depressurization of the movable panel or in the case of impossibility of returning the latter to the closed position, a device for forced sealing of the movable panel 1 can be used. The device can be made in two versions. In a first embodiment, the device includes a thrust grip 12 with a handle 13 having a thread. In the case of using this device, the supporting structures 4 must have threaded holes 14 for screwing the handle 13.

The second embodiment of the device includes a sealing pipe 15 having a base diameter larger than the size of the movable panel 1, a cover 16 that reliably closes the pipe and seals 17, for example suction cups (with a positive pressure drop between the object and the medium). With a negative pressure drop, the seals have a gasket and threaded connections around the perimeter.

The implementation of the explosion-proof enclosure of the object with built-in elements that open under the action of excessive pressure, and the mobility of the said elements both in and out relative to the housing, provides reliable protection of the main structures of the object during the explosion and the ability to save the object in distress in general.

Claims (6)

1. Explosion-proof housing of the object, including the casing, hermetic seal, at least two guides, frames and stringers, curved crossing rods mounted on frames and stringers, movable panels having a round or rectangular shape and mounted on curved crossing support rods, wherein the panels are connected to at least one support rod with either elastic ties or a swivel and elastic ties, at the place where the movable panel is in contact with the casing, in the chamfer is more one along the perimeter of the fit, so that the size of the hole in the casing for the movable panel to enter on the outer surface of the casing is larger than the inside, while the size of the movable panel without a tight seal is smaller than the size of the hole on the inner surface of the casing, the guides are made of rubber or made of stiffer elastic material, the sealing seal is made in the form of a hollow cord or elastic tube and is laid in the recess of the skin or placed around the perimeter of the movable panel, while plotnenie configured to provide additional tightness flatulence or gas fed into the cable or tube. 2. Explosion-proof housing of an object according to claim 1, characterized in that it includes a device for additional sealing. 3. The explosion-proof housing of the object according to claim 2, characterized in that the device for additional sealing includes a thrust grip with a handle having a thread, while the supporting structures contain threaded holes for screwing the handle. 4. Explosion-proof housing of an object according to claim 2, characterized in that the device for additional sealing includes a sealing pipe, cover and gaskets. 5. The explosion-proof housing of the object according to claim 1, characterized in that the guides are made in the form of strips. 6. Explosion-proof housing of an object according to claim 1, characterized in that the guides are located at an angle greater than 90 ° with respect to the movable panels.

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