RU2103208C1 - Container - Google Patents

Abstract

FIELD: materials handling facilities; storage and transportation of polymeric articles in containers formed by butt-joined cylindrical compartments. SUBSTANCE: container has shock absorbing layers 10, 11 and 12, 13 with flexibly yielding gaskets 14, 15 between layers, built into walls of cylindrical housing compartments secured by ends on support circular belts of compartments and power fittings fixed by concentric layers of glass cloth embracing side surfaces relative to horizontal symmetry pane over angles equal to 30-75 deg and made of pressed laminated composite material on base of glass-, basalt-, or organic fabric, or their combination and polymeric binder. EFFECT: enlarged operating capabilities. 3 cl, 6 dwg

Description

 \\ 2 The invention relates to means of transportation and storage of goods, in particular, polymer products, and can be used in containers for them with a cylindrical body docked from the compartments.

 A known container containing a multilayer housing made of fiberglass, docked from cylindrical compartments with centering pins and seat slots for mutual fixation [1].

 Also known is a container made of laminated fiberglass containing a housing reinforced with stiffening elements [2].

 In these structures, the problem of joining, fixing and securing the attached compartments is solved.

 A similar problem is also solved in a container containing a cylindrical body docked from the compartments, a bottom, a removable cover, gaskets between them, guide pins and mounting sockets for mutual fixation and means of their fastening installed and made in them [4].

 Known pipe-shell, consisting of the outer and inner layers of fiberglass, an intermediate foam layer and the ring frames between them and fastened with frames, panels [3].

 In this design, panels made of composite material are installed along the inner contour of the shell, weakly perceive and counteract the shock loads of penetrating automatic and carbine bullets.

 In a fiberglass sheath pipe (USSR N 186231, class F 16 L 9/12, 1966), the middle layer is made in the form of extruded stringers bearing axial load, increases resistance to shock loads, but has an increased mass.

 The closest analogue, selected as a prototype, is a container according to the patent of the Russian Federation N 2043961 [4].

 The main objective of the development is to create a container of such a design that would have weight characteristics with a lower mass, high resistance to penetration from impact loads created by such ballistic objects as bullets from a machine gun or carbine, would not be destroyed as a result of the impact, would not lead to failure placed in her products.

 The technical result that can be obtained by using the invention is to increase the reliability of the container and the efficiency of its use.

 The main problem is solved and the technical result is achieved by improving the design of the cylindrical container body, introducing protective shock-absorbing layers into its wall.

The invention consists in the following. In a container containing a cylindrical body docked from the compartments, a bottom, a removable lid, gaskets between them, guide pins and mounting sockets for mutual fixation and means for their fastening, and the compartments of the cylindrical body are provided with protective devices built into their wall, respectively shock-absorbing layers made in the form of panels of convex curvature from a pressed layered composite material based on reinforcing fabrics and a polymer binder, are installed mi with an elastic-flexible foam-type gasket between them, fixed with ends on the support annular belts of the compartments and fixed concentric layers of fiberglass cloths of power reinforcement. Protective shock-absorbing layers of the compartments are made with angles of coverage of their side surfaces relative to the horizontal plane of symmetry, equal to 30 - 75 ^o , made of glass, basalt or organ fabrics, or a combination of them.

Distinctive features of the container are the following features:
the supply of the compartments of the cylindrical body, built into their wall, protective shock-absorbing layers;
the implementation of these layers in the form of panels of convex curvature;
from a pressed layered composite material based on reinforcing fabrics and a polymer binder;
the introduction between the shock-absorbing layers of an elastic-flexible strip type foam;
fixing the ends of shock-absorbing layers on the supporting annular belts of the compartments;
fixation of shock-absorbing layers with concentric layers of fiberglass cloths of power reinforcement;
the implementation of protective shock-absorbing layers with angles of coverage of the side surfaces of the compartments relative to the horizontal plane of symmetry, equal to 30 - 75 ^o ;
the implementation of protective shock-absorbing layers of glass, basalt, or a combination of them.

 These distinctive features are significant, since each of them individually and jointly aimed at solving the problem and achieving a technical result.

 So, for example, not introducing protective shock-absorbing layers with an elastic-flexible gasket between them returns to the statement of the problem and the search for a new technical solution. Such layers make it possible, in the presence of the smallest mass, to provide reliable protection against the penetration of automatic or carbine bullets.

 Protective shock-absorbing panels must be made in the form of panels from an extruded layered composite material, since each layer is an obstacle in a visco-elastic medium - a polymer binder, which requires the impact energy of a ballistic body, which is a flying bullet, to overcome. In this case, the layers are not included in the work on their own, but in the aggregate, together, which blocks the penetration of the bullet, causes a change in its trajectory of penetration, loss, dissipation and absorption of all the impact energy. Partial instantaneous dissipation of the impact energy occurs from the deflection of the panels and the activated elastic-flexible strip between the protective shock-absorbing layers, the impact energy upon penetration of the bullet is significantly reduced and localized without breaking the structure. Effective protection is facilitated by securing the shock-absorbing layers with their ends on the supporting annular belts of the compartments and fixing them with concentric layers of fiberglass cloths of power reinforcement, which ensures the connection to the work of a larger zone of the design of the cylindrical body. The limitation of the area for setting protective shock-absorbing layers is dictated by the provision of reliable protection during sector shelling of the container. The choice of glass, basalt or organ fabrics, or a combination of them, was made based on the effectiveness of providing protective shock-absorbing functions, economic feasibility.

 These distinctive essential features are new, since their use in the prior art, analogues and prototype, was not found, which allows us to characterize the proposed technical solution in accordance with the criterion of "Novelty".

 A single set of new essential features with common known essential features allows us to solve the problem and achieve a new technical result, which allows us to characterize the new technical solution by significant differences compared with the prior art, analogues and prototype. The new technical solution is the result of experimental development and creative contribution, obtained without the use of standard, design solutions or any recommendations, in its originality and substantiveness of execution meets the criterion of "inventive step".

 In FIG. 1 shows a general view of the container; figure 2 - cross section aa in fig. one; figure 3 is a section bB in figure 1; figure 4 - section bb in figure 1; figure 5 - node I in figure 2; figure 6 is a cross section GG in figure 1 layers.

The container contains a cylindrical body docked from the compartments 1, 2 and 3, the bottom 4, a removable cover 5, gaskets 6 between them, respectively installed and made in them guide pins 7 and mounting slots 8 for mutual fixation and means for their fastening 9. Compartments 1 , 2 and 3 of the cylindrical body are equipped with built-in protective shock-absorbing layers 10, 11 and 12, 13 made in the form of convex curvature panels from an extruded laminated composite material based on reinforcing fabrics and polymer bonded binder, installed with resiliently flexible gaskets 14, 15 between them, made of foam plastic, fixed with ends on supporting ring belts 16, 17 and 18 of compartments 1, 2 and 3, fixed with concentric layers 19 of fiberglass cloths of power reinforcement. Protective shock-absorbing layers 10, 11, 12, 13 of compartments 1, 2 and 3 are made with angles of coverage of their side surfaces relative to the horizontal plane of symmetry equal to 30 - 75 ^o , from glass, basalt or organo-fabric, or a combination of them . The concentric layers 19 and the supporting annular bands 16, 17 and 18 of the compartments 1, 2, 3 are a cured layered composite material of reinforcing fabrics of power reinforcement and a polymer, such as an epoxy-phenolic binder.

 The functioning of the container consists in the perception by him of shock loads 1, 2, 3 coming to its compartments, and ensuring reliable safety of the products placed in it. Protective shock-absorbing layers 10, 11 and 12, 13 in conjunction with elastic-flexible gaskets 14, 15 between them, annular belts 16, 17 and 18 connected to the work, and concentric layers 19 of fiberglass cloths of power reinforcement effectively counteract and prevent penetration flying bullets, are not destroyed by the impact of their shock loads, are a reliable barrier to the absorption of their energy.

 Experimental work carried out with fragments of compartments of a cylindrical container body using a new technical solution showed positive results, such containers have high efficiency and reproducibility in an industrial way.

 Thus, the new technical solution meets the criterion of "Industrial applicability", i.e. level of invention, its creation and use, it is advisable to protect the exclusive rights of a patent.

Claims (3)

 1. A container comprising a cylindrical body docked from the compartments, a bottom, a removable cover, gaskets between them, respectively installed and made guide pins and seat slots for mutual fixation and means for their fastening, characterized in that the compartments of the cylindrical body are equipped with built-in their wall, protective shock-absorbing layers made in the form of panels of convex curvature from a pressed layered composite material based on reinforcing fabrics and polymer bonding guide mounted with elastically compliant gasket type foam between them, fixed ends on the supporting annular girdle compartments and fixed concentric layers of fiberglass cloths force reinforcement. 2. The container according to claim 1, characterized in that the protective shock-absorbing layers of the compartments are made with the angles of coverage of their side surfaces relative to the horizontal plane of symmetry equal to 30 75 ^o .  3. The container according to paragraphs. 1 and 2, characterized in that the protective shock-absorbing layers are made of glass, basalt or organ fabrics, or a combination of them.

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