RU137769U1 - TARA - Google Patents

Abstract

1. A container containing a housing and a cover, forming an outer shell and having stiffeners and grooves on the outer surface, shaped flanges to accommodate the seal, locking and other functional elements, characterized in that it further comprises an inner shell, also consisting of a housing and a cover, connected through a deformable fire-resistant seal, while the outer surface of the housing and the cover of the outer shell, the surface of the inner shell facing the body and the cover of the outer shell, as well as the surface area and an inner shell up to 50 mm wide, adjacent to the fire-resistant seal, is coated with a composition that swells when heated above 150 ° C. 2. A container according to claim 1, characterized in that the space between the outer and inner shells is filled with heat-insulating material.

Description

The utility model relates to containers for mechanical engineering and instrumentation, in particular, to containers for shells of artillery shells, ammunition of small arms, missiles, pyrotechnic devices, as well as other products that may be exposed to open flame and elevated temperatures during operation and storage. for a limited time.

The well-known "Tara" (RF patent for industrial design No. 47172), which consists of a body and a cover connected by locks through a seal located in the internal fittings, the side faces of the body and the cover have slopes, the side sections of the body and the cover have a trapezoidal shape with their large sides combined, the ribs and corners of the container body and the lid of the container are rounded. The grooves and protrusions are stacked during stacking; grooves are made in the cross-section on the side and end faces of the container to accommodate locks and handles.

A well-known technical solution provides the creation and mass production of containers with the necessary technical characteristics, reliability during transportation and storage, however, it has several disadvantages:

- made of combustible materials (fiberglass based on polyester or epoxy resins);

- does not provide, at a reasonable thickness (up to 10 mm) of the fiberglass shell wall, a sufficient level of thermal protection of the explosive payload in fire conditions (the necessary level of thermal protection should ensure that the maximum payload temperature does not exceed 150 ° C for 15 minutes under the conditions of a developed fire);

- It creates great difficulties when using progressive methods of forming fiberglass shells (RTM-molding) in production, since the formation of internal flanges requires the use of composite or flexible punches.

The inventive utility model is aimed at creating containers for fire and explosion hazardous objects, which would solve the issues of improving the reliability of protection of products from the damaging factors of fire and the time-limited effects of heat and radiation heat fluxes of various nature: solar heating, radiation exposure of heated devices, nuclear light pulse explosion, incendiary mixtures, contact with heated surfaces, etc., protection from external mechanical and climatic influences, provided rational displacements in the vehicle during operation of products, storage products in the warehouses, including the open storage and in the field, the convenience of carrying and handling operations while reducing the complexity of its production.

The problem is solved in that the container containing the housing and the cover, forming the outer shell and having stiffeners and grooves on the outer surface, shaped flanges to accommodate the seal, lock and other functional elements, further comprises an inner shell, consisting of a similar outer shell of the housing and the cover connected through a deformable fire-resistant seal, while the outer surface of the housing and the lid of the container, the surface of the inner shell facing the body and the lid of the outer shell, and the surface area of the inner shell up to 50 mm wide, adjacent to the fire-resistant seal, is coated with an intumescent composition when heated above 150 ° C.

In FIG. 1 shows a container assembly, a frontal section,

in FIG. 2 shows a fragment of a container, frontal section

The container consists of a housing 1, a cover 2, an inner shell 3 housing, an inner shell 4 cover, a container seal 5, a fireproof inner shell seal 6. The outer surface of the “container” and the inner shell surface facing the body and lid are covered with an intumescent coating 7 up to 0.5 mm The same coating is applied to the surface of the housing and the lid of the inner shell adjacent to the perimeter of the fireproof seal, providing additional sealing of the inner volume of the container in case of breakthrough of hot gases through two sealing circuits.

The space between the outer and inner shells can be filled with heat-insulating material 8 of bulk or fibrous type.

Thus, the goal of the proposed utility model is achieved - increasing the stability of containers to the effects of the damaging factors of a developed fire and ensuring an inert state of the payload for the time necessary to eliminate the fire or evacuation of personnel and material assets from the danger zone. In addition, the proposed design of the container provides its resistance to low-power sources of ignition (such as "cigarette butts") and powerful short-pulse sources. The presence of two power shells provides mechanical stability of the container during the fire exposure, which is especially important when storing containers in stacks. In this case, the intumescent fire-retardant coating 7 with an expansion temperature of about 150 ° C provides favorable conditions for the operation of the inner shell to maintain mechanical characteristics by attributing the front of the expansion of the coating to the interior of the space between the outer and inner shells.

An example of the practical implementation of the proposed utility model is described below.

A container with overall dimensions of 960X466X430 mm consists of a body and a lid with a wall thickness of 2.5 ± 0.50 mm, made of low-combustibility polyester fiberglass using RTM molding using fiberglass matrices. The housing and the lid are interconnected through the seal of the container of porous rubber with locking elements, for example, locks 2-2 GOST 16561-76. Grooves are formed in the housing for placing the handles, as well as protrusions protecting the locking elements from damage when the container falls. On the bottom of the case and on the upper surface of the lid, protrusions and grooves are formed respectively, providing mutual fixation of the same products when stacking. Inside the casing and the lid, the casing and the lid of the inner shell, also made of RTM-formed fiberglass with a thickness of 2.0 ± 0.50 mm, are placed. The shape of the body and the lid of the inner shell ensures that shaped grooves made of chemically vulcanized polyethylene foam grade ППЭ-1П, ППЭ-3П are placed in their grooves, which serve for laying and fixing the property placed in the container - for example, 24 pcs. aerosol ammunition AOB-05. The installation and fixation of the housing and the lid of the inner shell in the housing and the lid of the container is ensured mechanically due to their tight fit on the centering wedges (9) installed on the inner surface of the housing of the packaging lid ..

On the outer surface of the container, as well as on the surface of the case and the lid of the inner shell, facing the outer shell, a fire-retardant coating like Ograks-V-SK-15278-054-1367785-12 is applied by airless spray. The space formed between the outer and inner shells of the container can be filled with fibrous (basalt glass wool), foam (polyurethane foam) or bulk insulating materials. The gap between the body and the lid of the inner shell is sealed with a fibrous cord, for example asbestos, placed along the outer perimeter of the inner shell, which provides additional protection against penetration of fire when the main rubber seal of the container is destroyed. The outer surface of the container is additionally painted with XC-5146 or XB-124 enamels, which provide protection against atmospheric influences.

The tare weight is 20 kg; Payload mass 36 kg

The proposed packaging can have both a removable lid and a hinged lid, i.e. as described above, detachable and integral loops can be used as locking elements.

Manufactured in accordance with the proposed utility model, the container passed the full cycle of operational tests:

- strength under the influence of sinusoidal vibration with a frequency of 15-25 Hz and an acceleration of 2 g;

- strength when dropped (on all faces, all edges and all angles) with mass-dimensional models of products from a height of 500 mm;

- on the strength under the influence of multiple impact shocks (1000 strokes) with an acceleration of 15 g.

- on the impact of atmospheric precipitation;

- on the dynamic effects of dust;

- on exposure to elevated temperature + 60 ° C;

-on the effect of low temperature -60 ° C;

- on the effects of temperature extremes -60 ° C + 60 ° C;

- to a designated resource, including 1000 open-close operations;

- on durability in conditions of transportation by road with overall weight models of products at a range of 10,000 km, including 3,000 km on dirt roads;

- on resistance to the effects of fire damaging factors, consisting in determining the temperature on the elements of the payload (temperature should not exceed 150 ° C) when exposed to open flame containers with temperatures up to 800 ° C for 15 minutes

The tests performed showed the compliance of the proposed packaging with the requirements.

Currently, more than 100 items of products are manufactured using fiberglass containers for modern optoelectronic technology. According to its characteristics, the proposed packaging can be used in the design of all these products, providing an increase in their reliability and a decrease in the complexity of production. The high fire-heat-protective characteristics of the proposed containers allow to expand the scope of its application by placing artillery shells, ammunition for small arms, missiles, and pyrotechnic products in it. The use of containers will ensure fire safety of the storage of these products and minimize the effects of fires.

The container in accordance with the proposed utility model has an attractive appearance and modern design.

Thus, the proposed utility model provides a solution to the practically important urgent task of increasing reliability and reducing the laboriousness of manufacturing important engineering products, increasing its consumer and aesthetic characteristics.

Claims (2)

1. A container containing a housing and a cover, forming an outer shell and having stiffeners and grooves on the outer surface, shaped flanges to accommodate the seal, locking and other functional elements, characterized in that it further comprises an inner shell, also consisting of a housing and a cover, connected through a deformable fire-resistant seal, while the outer surface of the housing and the cover of the outer shell, the surface of the inner shell facing the body and the cover of the outer shell, as well as the surface area and an inner shell up to 50 mm wide, adjacent to the fire-resistant seal, is coated with an intumescent composition when heated above 150 ° C. 2. The container according to claim 1, characterized in that the space between the outer and inner shells is filled with insulating material.

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