RU2224216C2 - Device for localizing the explosion products - Google Patents

Abstract

FIELD: protection of room against contamination by toxic products at operation of a blasting device in an explosion-proof chamber in case of a loss of its sealing under the effect of explosion. SUBSTANCE: the device has an explosion-proof chamber, protective cover and a tray. The cover with the tray represent a single closed structure formed around the explosion-proof chamber, and provided with filtering windows, transport and suspension systems. The protective cover may be made multilayer of an aluminum layer facing inside the device, then of rubber and percale layers. The filtering windows may be provided with spokes, Petryanov's cloth is used in the windows, which may be placed between layers of capron thread for sieves. EFFECT: localized toxic products of explosion that can be removed together with the explosion-proof chamber on the device transport system for subsequent burial. 5 cl, 2 dwg

Description

 The invention relates to mechanical engineering and can be used as a circuit for protection against pollution by toxic products of the premises during the passive operation (elimination) of an explosive device in an explosion-proof chamber (BZK) in the event of an unforeseen loss of tightness from the effects of an explosion.

 A device explosion is considered passive when only the explosive in the explosive device is triggered. Such an operation can be carried out with respect to an explosive device that is knowingly damaged, the dismantling of which is dangerous (impossible).

 The proposed device allows subsequent removal of the toxic products formed and localized beneath it, together with the IBD, from the premises on the transport system of the device into a "sump" or "burial ground" for burial.

As an analogue of the proposed device can be known:
- "Device for isolating underground mining" (see copyright certificate 785514 class E 21 F 1/14, publ. BI 45 1980);
- "A method of preventing the spread of fragments during blasting operations" (see copyright certificate 621291 E 21 F 17/00, publ. 10.10.95. BI 28).

 They suggest the localization of the spread of an emergency or the spread of fragments by erecting protective barriers in the form of mats or shields on the path of their spread.

 The selected analogues have one common, very important drawback - localizing the explosion products or the spread of an emergency, they do not allow the removal of localized products from the accident zone without violating the closure of the protected volume.

 As a result of an information search, the closest analogue was not identified.

 The objective of the invention is the creation of a protection circuit around the IBD that allows the localization of toxic products that escaped from the IBD during its possible loss of pressure from the explosion, followed by their removal together with the IBD on the device’s transport system to a “sump” or “burial ground” for burial.

 The essence of the proposed technical solution lies in the fact that the device, which consists directly of an OCC, a protective cover, a pallet, filter windows, transport and suspension systems, forming a protective circuit around the OCC, allows not only localizing toxic explosion products escaping from the OCC during an unauthorized loss of tightness the latter from the explosion, but also remove them together with the OLC on the device’s transport system to a “sump” or “burial ground” for subsequent burial.

 The protective cover of the device is glued from a multilayer fabric and in the working position resembles a tourist tent around an air defense complex. The material of the protective cover is a multilayer fabric. The first layer is an aluminum coating, which is used as a heat shield in the device. The protective cover faces this layer inward to the IBD. The second and third (from the OLC) layers are rubber and percale.

 The protective cover is spaced in the working position from the outer walls of the OPC at a predetermined distance, eliminating its burnout from direct jets of hot gas from the OCC during an emergency loss of tightness of the latter. The protective cover takes the necessary shape around the OPC due to the suspension system: hinges and extensions on the protective cover and the system of anchor hooks (loops) in the ceiling, walls and floor of the room.

 The frameless design of the protective cover allows, after being released from the suspension system, unhindered removal of it together with the OPC through the door of the room, because, being placed on the OCC, it practically does not increase its dimensions.

 The frameless design of the protective cover also allows you to vary within the premises by the location of the cover relative to the VZK. Filter windows are located on the protective cover. As a filter material, Petryanov’s fabric is used. Filter windows are located on the side wall of the protective cover. They clean the gases flowing out from under the protective cover, eliminating the excessive increase in pressure under the cover and its destruction from the increased overpressure.

 Petryanov’s fabric is placed in the filter windows between the layers of kapron fabric for sieves, and the body parts of the filter windows have power spokes. Recent design solutions can prevent the destruction of Petryanov tissue under the influence of pressure of gases flowing out of the IBD.

 The protective cover in its lower part has a rubber ring bandage, which allows, using the counterpart in the pallet, to provide a tight connection between the protective cover and the pallet. The pallet is made welded from a metal sheet and has a trough-like shape. On the pallet there is a mating element - an annular groove under the rubber ring bandage of the protective cover. This ensures their tight connection. In the pallet there are nozzles for the hermetic conclusion of communications from the air-blast gun. The pallet is mounted on a transport system with a drawbar. The pallet with the transport system does not extend beyond the width of the air-tight gun, which ensures unhindered transportation of the device with the air-gun from the room.

 The transport system is a drawbar cart. Spacers are mounted on the frame of the trolley, on which a pallet and a wagon are mounted and fastened.

 The suspension system consists of a set of brackets and extensions placed on a protective cover, as well as the required number of anchor hooks (loops) in the ceiling, walls and floor of the protective structure.

 Figure 1 and Figure 2 shows a schematic diagram of the claimed device. The device containing the explosion products contains: VZK 1, protective cover 2, pan 3, filter windows 4, suspension system 5 and transport system 6. The device is mounted as follows: pan 3 is attached to the support legs of VZK 1 with spacers and bolts and then VZK with pallets through spacers bolted to the frame of the transport system 6.

 The protective cover 2, after preliminary fitting and debugging of the suspension system 5, is tied to the ceiling of the room 8 above the air defense system, the pallet 3 and the transport system 6.

 After carrying out preparatory operations for undermining the air defense system and the explosive device 9, removing and sealing communications 10 and connecting the corresponding electrical circuits, the cover is mounted around the air defense system, hermetically connected to the pallet and stretched using a suspension system, forming a closed airtight space (volume) around the air defense system.

Claims (5)

1. The device containing the explosion products, containing an explosion-proof chamber, a protective cover and a pallet, while the cover with a pallet is a single closed structure formed around the explosion-proof chamber and equipped with filtering windows, transport and suspension systems. 2. The device according to claim 1, characterized in that the protective cover is made of a multilayer aluminum layer facing the inside of the device, then the rubber and percale layers. 3. The device according to claim 1, characterized in that Petryanov’s fabric was used in the filter windows. 4. The device according to claim 3, characterized in that the Petryanov fabric is placed between the layers of nylon fabric for sieves. 5. The device according to claim 1, characterized in that the filter windows are equipped with knitting needles.

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