RU2309879C1 - Explosion-resistant bin for refuse containment - Google Patents

Abstract

FIELD: containers, particularly ones adapted to collect refuse.

SUBSTANCE: refuse bin comprises body 1 with handles 2, strong lid 3 and anchor receiving units 4. Body includes cylindrical part 5 and bottom 6, which are molded-on, glued or mechanically connected with each other. Cylindrical part 5 has inner 7 and outer 8 walls and filler layer 9 arranged in-between. Bottom 6 has inner 10 and outer 11 walls separated one from another by filler layer and conforming to inner or outer cylindrical part perimeter. Walls are made of composite material, for instance of epoxy glass-reinforced plastic having 1500 kg/m³ density and based on fibers having 20 μm diameters. Volumetric fiber content is 65%. Cylindrical part walls 7, 8 are made by winding operation. Walls 10, 11 are created by molding or press-forming operations. Bottom may be flat or convex. Cylindrical part 5 and bottom 6 may be made as a single whole.

EFFECT: prevention of damage caused by fragment and increased service and maintenance convenience.

25 cl, 3 dwg

Description

The invention relates to designs of garbage bins and can be used in crowded places such as stadiums, air and railway stations, cinemas, supermarkets.

Garbage cans are a convenient tool for discreetly placing explosive objects and substances, and therefore, especially for the above locations, they should be made explosion-proof to reduce the number of victims and the degree of damage in a likely explosion.

Known capacity for collecting, transporting and storing liquid and / or solid materials, consisting of a double-walled housing in the bottom and side parts (RU patent No. 2246435, IPC ⁷ B65F 1/16, B65D 77/04, F16J 13/20, publ. . 02.20.20005, bull. No. 5).

The known container is suitable for flammable, but it is not suitable for explosive materials.

Known explosive ballot box containing a housing consisting of a cylindrical part and a flat bottom, formed by external and internal walls, separated by a layer of aggregate of energy-absorbing material (polyurethane foam) (RU certificate No. 29048 for utility model, IPC ⁷ B65F 1/00, publ. 27.04. 2003, Bulletin No. 12).

The external and internal walls of the cylindrical part and the bottom of the body of the famous urn are made of metal (alloy steel), which in the explosion will lead to the formation of mass of secondary fragments from them. The ballot box is heavy, inconvenient for processing due to the lack of handles or openings for capture by technical means.

Known explosive ballot box containing a housing consisting of a cylindrical part and a bottom formed by external and internal walls, separated by a filler layer of energy-absorbing material (patent RU No. 2272767 C1, IPC B65F 1/08 publ. 03/27/2006).

The well-known urn cannot provide protection against explosive devices with a high explosive charge mass, as it has a thin-walled, low-density, easily destructible body, the fragments of which, together with filler (sand or porcelain crumb), become a secondary damaging factor in an explosion. The urn cannot serve as a container, as it has large dimensions and weight (due to filler) and does not have handles.

The ballot box according to patent RU No. 2272767 B65F 1/08 is the closest in technical essence to the claimed and selected as the closest analogue (prototype).

The technical problem that was posed during the creation of the invention was to develop an explosive ballot box - a container with a low level of secondary fragments, light in weight, convenient to use, inexpensive in cost, suitable for use as a ballot box or as a container for transportation explosive cargo in a deserted place.

The technical result that can be obtained by using the invention is to increase the level of suppression of fragmentation, increasing the convenience of use and maintenance.

To solve the problem in an explosion-proof urn container containing a housing consisting of a cylindrical part and a bottom formed by external and internal walls separated by a filler layer of energy-absorbing material, according to the invention, the cylindrical part and the bottom of the body are made in the form of separate parts commensurate with the outside or inside , or as a whole with a flat or convex bottom, the outer walls of the cylindrical part and the bottom are made of a layered structure of a composite material based on fiber oily reinforcing material and polymer binder, a filler layer made of an energy absorbing material mortgages, the filling or a filling, wherein the density of energy-absorbing filler material layer is 60-950 kg / m ³ and the density of the composite material wall of the cylindrical portion and bottom of 1300-2300 kg / m ³ when the fiber diameter of the fibrous reinforcing material is 7-25 μm and its volumetric content is 55-85%. In special cases of the invention, the bottom is proportional to the cylindrical part from the inside and inserted flush into it with its lower end; the bottom is proportional to the cylindrical part from the outside, and the cylindrical part is supported by its lower end on the bottom; the inner walls of the cylindrical part and the bottom are made of a layered structure of a composite material based on a fibrous reinforcing material and a polymer binder; the inner walls of the cylindrical part and the bottom are made of composite material, while the inner and / or outer walls of the cylindrical part are made by winding, and similar walls of the bottom are molded or pressed; the inner walls of the cylindrical part and the bottom are made of metal; the walls of the cylindrical part and the bottoms are fastened with a preform and / or an adhesive and / or mechanical connection; the ratio of the thicknesses of the inner and outer walls of the cylindrical part is from 1: 5 to 5: 1; the open ends of the cylindrical part are molded or covered with a box-shaped annular element fastened by shelves with their walls; the material of the aggregate layer in the cylindrical part differs from the material of the aggregate layer in the bottom; the thickness of the aggregate layer in the cylindrical part differs from the thickness of the aggregate layer in the bottom; the outer wall of the cylindrical part is made with stiffeners, for example, in the form of frames; the outer wall of the cylindrical part is provided with handles and / or attachment points, for example, for anchors; its body is equipped with a decorative or power cover; its body is equipped with legs or a supporting shell, for example, cylindrical or conical; as a composite material, glass-, polymer- or basaltoplastics based on yarn, roving, fabric or thread-piercing fabric and an epoxy, polyester, vinyl ester or polyurethane binder, or a combination thereof, are used; as a material for the filling layer of the aggregate, foam aluminum sheets with a density of 250-950 kg / m ³ , polyurethane foam with a density of 80-600 kg / m ³ , honeycomb panels with a density of 60-200 kg / m ³ , cellular structures, multilayer flexible woven bags, rubber were used foam rubber, foam glass, foamed materials or blocks of granular materials bonded by a polymer composition at the points of contact of the granules, or a combination thereof; honeycomb panels are made on the basis of fiberglass, aluminum or paper; as the material of the filling layer of the aggregate, granular foam aluminum with a granule size of 1 to 20 mm, expanded clay, glass microspheres, or crumb rubber, or a combination thereof is used; the material of the filling layer is previously placed in a bag of a polymeric material, mainly polyethylene; non-combustible liquid is used as the material of the filler layer of the aggregate; as the material of the aggregate layer, material is used in the form of capsules or in the form of separate containers, for example tubes; the housing is equipped with a removable container of laminated material, polymer or metal in which the bag is placed, mainly made of polyethylene; the case is equipped with a decorative shell or paintwork on the outside; on the outer surface of her body posted advertising information.

Distinctive features of the prototype signs of the declared explosion-proof ballot box are the following:

a) the signs that ensure the receipt of a technical result in all cases to which the requested amount of legal protection applies:

- the implementation of the cylindrical part and the bottom of the housing in the form of individual parts commensurate with the outside or inside, or as a single unit with a flat or convex bottom,

- the implementation of the outer walls of the cylindrical part and the bottom of the layered structure of a composite material based on a fibrous reinforcing material and a polymer binder,

- the implementation of the aggregate layer of energy-absorbing material mortgage, filling or filling,

- the density of the energy-absorbing material of the aggregate layer, comprising 60-950 kg / m ³ ,

- the density of the composite material of the walls of the cylindrical part and the bottom, comprising 1300-2300 kg / m ³ when the fiber diameter of the fibrous reinforcing material is 7-25 μm and its volumetric content is 55-85%;

b) signs characterizing the invention in special cases:

- the proportionality of the bottom of the cylindrical part from the inside and insert it into it flush with its lower end,

- the proportionality of the bottom of the cylindrical part from the outside and the support of the cylindrical part with its lower end on the bottom,

- the implementation of the inner walls of the cylindrical part and the bottom of the layered structure of a composite material based on a fibrous reinforcing material and a polymer binder,

- the implementation of the inner walls of the cylindrical part and the bottom of the composite material, while the inner and / or outer walls of the cylindrical part are made by winding, and similar walls of the bottom are molded or pressed,

- the implementation of the inner walls of the cylindrical part and the bottom of the metal;

- fastening the walls of the cylindrical part and the bottoms by molding and / or adhesive and / or mechanical connection,

- the ratio of the thickness of the inner wall to the thickness of the outer wall of the cylindrical part, comprising from 1: 5 to 5: 1,

- forming or closure of the open ends of the cylindrical part by a box-shaped annular element fastened by shelves with their walls, the difference between the material of the aggregate layer in the cylindrical part and the material of the aggregate layer in the bottom,

- the difference between the thickness of the filler layer in the cylindrical part from the thickness of the filler layer in the bottom,

- the implementation of the outer wall of the cylindrical part with stiffeners, for example, in the form of frames,

- supplying the outer wall of the cylindrical part with handles and / or attachment points, for example, under anchors,

- supplying the case with a decorative or power cover,

- supplying the housing with legs or a supporting shell, for example a cylindrical or conical,

- the use as a composite material of glass-, polymer- or basaltoplastics based on yarn, roving, fabric or thread-piercing fabric and an epoxy, polyester, vinyl ester or polyurethane binder, or a combination thereof,

- the use as a filling layer material of a filler of sheet foam aluminum with a density of 250-950 kg / m ³ , polyurethane foam with a density of 80-600 kg / m ³ , honeycomb panels with a density of 60-200 kg / m ³ , cellular structures, multilayer flexible woven bags, rubber, foam rubber, foam glass, foamed materials or blocks of granular materials bonded with a polymer composition at the points of contact of the granules, or combinations thereof, making honeycomb panels based on fiberglass, aluminum or paper, using a backfill layer I am a filler of granular foam aluminum with a granule size of 1 to 20 mm, expanded clay, glass microspheres or crumb rubber, or combinations thereof,

- preliminary placement of the material of the filling layer in a bag of a polymeric material, mainly polyethylene,

- the use of non-combustible liquid aggregate as the filler layer material,

- use as a material a layer of filler material in the form of capsules or in the form of individual containers, such as tubes,

- supplying the housing with a removable container of laminate, polymer or metal in which the bag is placed, mainly made of polyethylene,

- supplying the housing with a decorative shell or paintwork from the outside, placing advertising information on the outer surface of the housing.

These distinctive features, each individually and all together, are aimed at achieving the stated result and are significant. In the prior art, the totality of the known and distinctive features presented in the claims is not known and, therefore, the invention meets the criterion of "novelty."

The declared explosive ballot box has several advantages over the prototype ballot box:

- a higher level of anti-fragmentation protection due to the implementation of the walls of the cylindrical part and the bottom of the housing made of composite material based on fibrous reinforcing material and a polymeric binder, a more durable material according to the prototype, which does not form secondary fragments with high destructive ability;

- significantly reduced weight;

- increased ease of use due to the equipment of the body with handles, a lid, nodes for anchors, removable containers;

- a large selection of options due to the proposed variety of materials for the filler layer and for the walls of the cylindrical part and the bottom;

- the possibility of using as a container for transporting explosive cargo to an uninhabited place for disposal.

The technical characteristics of the materials for the walls and the filler of the cylindrical part and the bottom of the body must provide a given level of explosion resistance of the container urn, so their characteristics lie in predetermined intervals.

The invention is illustrated by a description of a specific, but not limiting, example of implementation and the accompanying drawings.

Figure 1 presents the claimed explosion-proof ballot box according to one of the options, figure 2 shows another embodiment of the ballot box according to the invention, figure 3 is the same, another option.

Explosion-proof container bin (figure 1) contains a housing 1 with handles 2, a power cover 3 and nodes 4 for anchors.

The housing 1 consists of a cylindrical part 5 and a bottom 6, molded to each other.

The cylindrical part 5 has an inner 7 and an outer 8 wall and an aggregate layer 9 of flexible woven bags placed between them.

The flat bottom 6 has an inner 10 and an outer 11 wall, separated by a layer 12 of foam rubber aggregate. It is made proportionate to the cylindrical part from the inside (the diameter of the bottom 6 is equal to the diameter of the inner wall 7 of the cylindrical part 5) and is inserted flush into it with its lower end 12.

Walls 7, 8, 10 and 11 are made of epoxy fiberglass with a density of 1500 kg / m ² on the basis of a thread with a fiber diameter of 20 μm and its volumetric content of 65%. Cylindrical walls 7, 8 are made by winding, and flat walls 10 and 11 are formed by molding. The cylindrical part 5 and the bottom 6, each individually, can be made as a single unit.

The ballot box according to the second embodiment (FIG. 2) differs from the above in that its flat bottom 6 is made proportionate to the cylindrical part 5 outside it, i.e. the diameter of the bottom 6 is equal to the outer diameter of the outer wall 8 of the cylindrical part 5, and the cylindrical part 5 is mounted on the bottom 6. The aggregate layer 9 is made in the form of honeycomb panels, and the aggregate layer 12 is in the form of granular foam aluminum.

The urn container according to the third embodiment (Fig. 3) differs from the first two in that it is made not of separate parts (cylindrical part and bottom), but as a whole, while its body 1 has the form of a half-window due to the convex bottom 6. The housing 1 is made by winding.

Layers 9 and 12 in the urn containers according to the first and second options can be mortgages, filling or filling, and in the container bin according to the third option - mostly mortgages. The thickness and the selected material layer 9 in the cylindrical part 5 of the housing 1 may differ from layer 12 in the bottom 6.

The inner walls 7 and 11, respectively, of the cylindrical part 5 and the bottom 6 can be made of metal, which does not violate the manufacturing technology of ballot boxes.

Work explosive ballot box.

If an explosive object or bag containing an explosive substance or a charge without a clock is found in an urn container, the urn container is carefully transferred to an uninhabited place and rendered harmless.

In the event of an accidental or forced detonation of an explosive charge or substance in a container urn, its multilayer structure serves as a reliable obstacle for a blast wave and fragments due to layer-by-layer absorption and dissipation of the kinetic energy of the explosion.

The explosion-resistant ballot box according to the invention is manufactured in an industrial environment using equipment for the production of articles made of composite materials.

Claims (25)

1. An explosion-proof ballot box containing a body consisting of a cylindrical part and a bottom formed by external and internal walls separated by a filler layer of energy-absorbing material, characterized in that the cylindrical part and the bottom of the body are made in the form of separate parts, commensurate from the outside or from the inside, or as a whole with a flat or convex bottom, the outer walls of the cylindrical part and the bottom are made of a layered structure of a composite material based on a fibrous reinforcing material and limernogo binder, a filler layer made of an energy absorbing material mortgages, the filling or a filling, wherein the density of energy-absorbing filler material layer is 60-950 kg / m ³ and the density of the composite material wall of the cylindrical portion and bottom of 1300-2300 kg / m ^3, with diameter fiber fibrous reinforcing material 7-25 microns and its volumetric content of 55-85%. 2. The urn container according to claim 1, characterized in that the bottom is commensurate with the cylindrical part from the inside and inserted flush with its lower end. 3. The ballot box according to claim 1, characterized in that the bottom is proportional to the cylindrical part from the outside, and the cylindrical part is supported by its lower end on the bottom. 4. The urn container according to claim 2 or 3, characterized in that the inner walls of the cylindrical part and the bottom are made of a layered structure of a composite material based on a fibrous reinforcing material and a polymer binder. 5. The urn container according to claim 2 or 3, characterized in that the inner walls of the cylindrical part and the bottom are made of composite material, while the inner and / or outer walls of the cylindrical part are made by winding, and similar walls of the bottom are molded or pressed. 6. The urn container according to claim 2 or 3, characterized in that the inner walls of the cylindrical part and the bottom are made of metal. 7. The ballot box according to claim 2 or 3, characterized in that the walls of the cylindrical part and the bottoms are fastened with a preform and / or an adhesive and / or a mechanical connection. 8. The ballot box according to claim 1, characterized in that the ratio of the thicknesses of the inner and outer walls of the cylindrical part is from 1: 5 to 5: 1. 9. The ballot box according to claim 1, characterized in that the open ends of the cylindrical part are molded or closed by a box-shaped ring element fastened by shelves with their walls. 10. The ballot box according to claim 1, characterized in that the material of the aggregate layer in the cylindrical part differs from the material of the aggregate layer in the bottom. 11. The ballot box according to claim 1, characterized in that the thickness of the filler layer in the cylindrical part differs from the thickness of the filler layer in the bottom. 12. The ballot box according to claim 1, characterized in that the outer wall of the cylindrical part is made with stiffeners, for example, in the form of frames. 13. The ballot box according to claim 12, characterized in that the outer wall of the cylindrical part is provided with handles and / or attachment points, for example, for anchors. 14. The ballot box according to claim 1, characterized in that its body is equipped with a decorative or power cover. 15. The ballot box according to claim 1, characterized in that its body is equipped with legs or a supporting shell, such as a cylindrical or conical. 16. The urn container according to claim 1, characterized in that glass, polymer, or basalt plastic based on a yarn, roving, fabric or filament yarn and an epoxy, polyester, vinyl ester or polyurethane binder, or a combination thereof, is used as a composite material. 17. The ballot box according to claim 1, characterized in that as the material of the embedded layer of the aggregate, sheet foam aluminum with a density of 250-950 kg / m ³ , polyurethane foam with a density of 80-600 kg / m ³ , honeycomb panels with a density of 60-200 kg / m ³ , cellular structures, multilayer flexible woven bags, rubber, foam rubber, foam glass, foamed materials or blocks of granular materials bonded by a polymer composition at the points of contact of the granules, or a combination thereof. 18. The ballot box according to claim 17, characterized in that the honeycomb panels are made on the basis of fiberglass, aluminum or paper. 19. The ballot box according to claim 1, characterized in that the granular foam aluminum with a granule size of 1 to 20 mm, expanded clay, glass microspheres or crumb rubber, or a combination thereof, is used as the material of the filling layer of aggregate. 20. The ballot box according to claim 19, characterized in that the material of the filling layer is previously placed in a bag of a polymeric material, mainly polyethylene. 21. The ballot box according to claim 1, characterized in that a non-combustible liquid is used as the material of the filler layer of the aggregate. 22. The ballot box according to claim 20, characterized in that the material in the form of capsules or in the form of separate containers, for example tubes, is used as the material of the aggregate layer. 23. The ballot box according to claim 1, characterized in that the housing is provided with a removable container of laminated material, polymer or metal, in which the bag is placed, mainly made of polyethylene. 24. The ballot box according to claim 1, characterized in that the housing is provided with a decorative shell or paintwork on the outside. 25. The container bin according to claim 1, characterized in that advertising information is placed on the outer surface of its body.

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