RU2172928C1 - Ammunition container - Google Patents

Abstract

FIELD: concerns containers of bounding mines bursting after rush-out from the ground, applicable for destruction of armored vehicles. SUBSTANCE: the ammunition container has laminated vertical cylindrical glass-reinforced plastic body 1 with bottom 2 and cover 3. Body 1 is made in the form of a sleeve with central hole 11 in bottom 2 fastened by metal flange 12. It has annular fitting hoop 4 with fitting ring 6 formed by expansion of its upper part and located outside in the area of transition of the cylindrical part to fitting hoop 4 holding hoop 5 that forms the shock-absorbing assembly together with hoop 4. Body 1 also has annular supporting-protective hoop 7 located outside in the area of transition of the cylindrical part to bottom 2, and bottom plate 8 for fixing the position of subammunition in body 1 fastened with bottom 2. EFFECT: reduced mass, enhanced reliability in operation of container with a high damping capacity. 6 cl, 3 dwg

Description

 The invention relates to the field of engineering and can be used in containers of ammunition, in particular in containers of "jumping" mines, in exploding after departure from the ground, designed to destroy armored vehicles.

State of the art
Known containers for mines containing a vertical body with a bottom and a lid (GB application N 2173285 A, CL F 42 B 23/16, 23/26, publ. 08.10.86; GB application N 2227081 A, CL F 42 B 23 / 16, publ. 18.07.90).

 Known containers are made of metal. They are massive without equipment, and given the ammunition intended for the destruction of armored vehicles, they are almost too heavy for two fighters. They have low damping ability, which in the case of careless handling during installation in combat conditions or during transportation can cause a spontaneous explosion of ammunition. They are susceptible to corrosion, corrosion by insects and fungi.

 Closest to the technical nature of the claimed is a container containing a vertical cylindrical body with a bottom and a cover (RU patent N 2121652, CL F 42 B 23/16, publ. 10.11.98, bull N 31). It is also made of metal and has all the disadvantages described above.

 This container is selected as the closest analogue (prototype).

 Disclosure of the invention.

 The technical problem to which the invention is directed is the development of a lightweight, non-corrosive container equipped with a shock-absorbing unit capable of damping unwanted movements of explosive cargo.

 The technical result that can be obtained by using the invention is to reduce the weight of the container without compromising mechanical strength, increase its damping ability and chemical resistance.

 The problem is solved in that in the known ammunition container containing a vertical cylindrical body with a bottom and a lid according to the invention, the cylindrical body is provided, on the one hand, with a landing belt formed by a cup-shaped extension of its upper part, profiled with the possibility of hanging a set of submunitions on it, and, on the other hand, a holding belt made outside with the coverage of the zone of its transition into the landing belt, made in the form of a power ring with a profile corresponding to the profile of the specified the transition zone, bonded to the parts of the housing and the landing belt included in the specified zone to ensure the possibility of interaction with them under the action of radial bending and axial compressive loads, while the cylindrical housing with its bottom and landing belt is integral and made of a multilayer composite material based on polymer binder and fibrous reinforcing material, as well as a cylindrical body, can be equipped with an annular support and protective belt made of an elastic material ala, mainly rubber, placed outside the casing with a transition zone in the bottom, a seat ring placed on the landing belt and fastened with it, a pallet with cells, the number of which corresponds to the number of submunitions in the kit, made of foam material, mainly polyurethane foam, placed in the casing and fastened with its bottom, conductive elements placed in the outer layer of the housing, and the cylindrical housing can be made with a Central hole in the bottom, hardened metal them flange, or without it.

The distinctive features of the ammunition container of the claimed design are the following features:
- supply of a cylindrical body landing belt,
- formed cup-shaped expansion of the upper part of the said housing,
- profiled with the possibility of suspension on it a set of submunitions,
- supplying the cylindrical body with a holding belt,
- placed outside the housing with coverage of the zone of its transition into the landing belt,
- made in the form of a power ring with a profile corresponding to the profile of the specified transition zone,
- fastened with parts of the housing and the landing belt included in the specified zone,
- the presence of one whole, made up of a cylindrical body, its bottom and landing belt,
- the implementation of the specified whole multilayer in structure of the wall of a composite material based on a polymer binder and fibrous reinforcing material, and
- supplying a cylindrical body with an annular support and protective belt,
- made of an elastic material, mainly rubber,
- placed outside the housing with the coverage of the transition zone in the bottom,
- supply of a cylindrical housing landing ring,
- placed on the landing belt and fastened with it,
- supplying a cylindrical body with a pallet with cells,
- the number of which corresponds to the number of submunitions in the kit,
- made of foam material, mainly polyurethane foam,
- placed in the housing and fastened to its bottom,
- supplying a cylindrical body with conductive elements,
- located in the outer layer of the said body,
- the implementation of a cylindrical body with a Central hole in the bottom, reinforced with a metal flange.

 These signs are structurally interconnected and significant, since each of them individually and all together are aimed at solving the problem with the achievement of the above technical result. The use of a combination of significant distinguishing features in the known solutions was not found, which characterizes the conformity of the proposed technical solution to the criterion of "novelty."

 A single set of new essential features with common known provides a solution to the problem and characterizes the proposed technical solution with significant differences compared with the prior art and analogues.

 This technical solution is the result of research work to increase the criteria for the functioning of ammunition containers. The solution has non-obviousness, which indicates its compliance with the criterion of "inventive step".

 The ammunition container of the claimed design has a housing equipped with a shock-absorbing unit, which reduces the undesirable effect of submunitions on the walls of the body when the container is equipped and the ammunition is transported. The proposed site includes an elastically deforming landing belt, perceiving the force of bending and tension-compression from the placed cargo, and an energy-absorbing holding belt, which reduces the time of returning the landing belt to its original position. To reduce the deformability of the landing belt without increasing its thickness under the action of high loads (especially heavy set of submunitions, increased installation speed of ammunition in difficult terrain, etc.), an additional landing ring is provided. The joint work of all elements of the depreciation unit is due to their respective design and relative position.

 The shock-absorbing unit is organically integrated into the design of the container and is technologically advanced in execution. This is directly related to the material from which it is proposed to make the container body and which is a composite material such as glass or fiberglass. Manufacturing technology, for example, by winding or laying out, allows you to produce in one piece the body with the bottom and the seat belt, and if necessary with the seat ring and the holding belt, although the latter can be made separately, for example, from metal or the same composite material. Depending on the design of the ammunition, the container body may have either a continuous bottom or a bottom with a hole. The design of the hole with the installation of a flange strengthening the weakened place of the flange is easier and better when winding. With it, a more ordered structure of the body wall is also achieved.

 The ammunition container made of composite material is durable, lightweight and chemically resistant to aggressive liquids; it does not decay and does not rust.

 To protect the bottom of the body from damage and reduce the load on it, the body has a support and protective belt made of an elastic material such as rubber, polyurethane, neoprene, etc.

 To ensure the accuracy of the orientation of the submunitions in the case, especially during transportation, a pallet is provided, the cells of which fix the position of the submunitions.

 To remove static electricity in the absence of a special device, the non-metallic container body is provided with conductive elements, which may be bicarbonone threads, metal or carbon threads placed in the outer layer of the multilayer case.

Description of the drawings and embodiments of the invention
Embodiments of the invention are the construction of containers of two types: with a Central hole in the bottom of the housing and without it.

 Figure 1 shows the design of an ammunition container with a housing having a central hole in the bottom; 2 - the same, with the housing having no holes in the bottom, in FIG. 3 shows the structure of the multilayer wall of the container body according to any one of the options with conductive elements in the outer layer.

 The ammunition container (Fig. 1, 2) contains a multilayer fiberglass vertical cylindrical body 1 with a bottom 2 and a cover 3.

 The housing 1 has a landing belt 4, holding the belt 5, and, if necessary, (not shown conventionally in FIG. 2), the landing ring 6, the support and protective belt 7, the pallet 8 and the conductive elements 9.

 The landing belt has the form of a cup-shaped expansion of the upper part of the housing 1. The expansion profile is selected taking into account the placement of the upper supporting elements of the set of submunitions on its bottom through the landing ring 6 or without it without slipping and providing due to this suspension kit.

 The holding belt 5 is made in the form of a profile power ring, designed to reduce the impact of loads on the housing 1 and its landing belt 4 from the side of the set of submunitions. In this regard, the place of its location is selected in the most loaded zone of transition of the cylindrical part of the housing 1 to the landing belt 4, and its profile is selected corresponding to the outer profile of this zone.

 An annular support-protective belt 7 (Fig. 1) provides protection of the housing 1 from damage, made of rubber and placed outside the housing 1 with coverage of the transition zone in the bottom 2.

 Pallet 8 with four cells 10 (according to the number of submunitions in the kit) is made of polyurethane foam to minimize the impact on the total weight of the container, and is fastened to the bottom 2 of the housing 1.

 Conductive elements 9 for removing static electricity are made of bicarbonone in the form of threads laid in the manufacturing process of the housing 1 in its outer layer.

 A preferred embodiment of the invention is a container with a winding body 1 shown in FIG. 1, having a central hole 11 in the bottom 2. Depending on the design of the ammunition, the hole 11 can be sealed, but in any case it is reinforced with a flange 12, the location of which (inside, outside or between the layers of the body) is determined in advance. When installing the flange 12 inside the housing 1, as shown in FIG. 1 as shown in FIG. 1, the pallet 8 is fastened to the bottom 2 through the flange 12.

 The winding method makes it possible to produce in one piece the housing 1 with the bottom 2, with the landing belt 4 and the holding belt 5. Any composite material is suitable for this purpose, but today most of them are very expensive, therefore it is recommended to use the cheapest fiberglass.

 The lid 3 of the container may be made of any material suitable for this purpose. It is held by fasteners placed on the housing 1 (not shown conditionally).

 When the container is equipped, a set of submunitions is suspended on the landing belt 4 directly or through the landing ring 6, fixing the position of the submunitions in the cells 10 of the pallet 8.

 Under the weight of the equipment, radial bending and axial compressive loads begin to act, tending to deform housing 1. These loads increase during the transportation of ammunition due to the appearance of short-term dynamic loads from shaking, vibrations, etc.

 Part of the loads can withstand the landing belt 4 with the landing ring 6, and the rest is perceived by the holding belt 5, which prevents the permanent deformation of the belt 4 and the destruction of the housing 1.

 When installing ammunition, the weight of its equipment is redistributed taking into account the support and protective belt 7.

 The use of the invention allows to create a light, reliable in operation, with a high damping ability and chemical resistance ammunition container.

Industrial applicability
The claimed technical solution is reproducible industrially. Ammunition containers, taking into account this decision, are made on standard winding equipment or equipment for the manufacture of products from composite materials by calculation.

Claims (6)

 1. An ammunition container containing a vertical cylindrical body with a bottom and a lid, characterized in that its cylindrical body is equipped with a landing belt formed by a cup-shaped extension of its upper part, profiled with the possibility of suspension of a set of submunitions on it and a holding belt placed outside the shell with coverage of its area transition to the landing belt, and the holding belt is made in the form of a power ring with a profile corresponding to the outer profile of the specified zone, fastened to nnuyu zone housing parts and a landing zone for allowing interaction with them under the action of the radial bending and axial compressive loads, with a cylindrical body with its bottom and the landing zone is integral and formed multilayer composite material based on a polymeric binder and a fibrous reinforcing material.  2. The ammunition container according to claim 1, characterized in that its cylindrical body is additionally equipped with an annular support and protective belt made of an elastic material, mainly rubber, placed on it outside with coverage of the transition zone in the bottom.  3. The ammunition container according to any one of claims 1 or 2, characterized in that its cylindrical body is equipped with a landing ring placed on the landing belt and fastened with it.  4. An ammunition container according to any one of claims 1, 2 or 3, characterized in that the cylindrical body is equipped with a pallet with cells, the number of which corresponds to the number of submunitions in the kit, made of foam material, mainly polyurethane foam, bonded to its bottom.  5. The ammunition container according to any one of claims 1 to 3 or 4, characterized in that the cylindrical body is equipped with conductive elements located in its outer layer.  6. The ammunition container according to any one of claims 1 to 4 or 5, characterized in that the cylindrical body is made with a Central hole in the bottom, reinforced with a metal flange.

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