RU2132808C1 - Container - Google Patents

Abstract

FIELD: mechanical engineering; storage and transportation of optical and electronic devices. SUBSTANCE: container has housing and cover made of polymeric material reinforced by fiber filler, and inserts. The latter are rigidly connected with housing and cover and are made of at least two layers of porous elastic polymeric material interconnected by layers of rigid polymeric material. Ratio of thickness of porous material layer to thickness of rigid material layer is 5.3-8.0. Shape of inserts provides reliable fixing of articles. EFFECT: enhanced conditions of storage and transportation. 2 tbl, 3 dwg

Description

 The invention relates to containers for transporting and storing engineering products, in particular for optoelectronic devices, operated for a long time in the field, including in countries with a tropical climate.

 Known packaging, which is the closest in technical essence to the offer, containing a body with a lid, having porous easy-crushing liners and shaped flanges and locking elements in the form of tubes with a longitudinal groove, the thickness of the liner of the body and the liner are respectively 0.8 and 0.2 the thickness of the housing and cover (RF patent N 2007356 B 65 D 81/02).

The known solution does not meet the technical requirements for containers for products, including optical-electronic devices operating in the field, and intended for their long-term storage and transportation by road, sea and air, including the need:
- ensuring the strength of the packaging with products under the impact of shocks of multiple (1000 strokes) action with an acceleration of 15g;
- ensuring the strength of the packaging with products in conditions of falling on all faces, all ribs and all angles from a height of 500 mm;
- ensuring the strength of the packaging with products under the influence of sinusoidal vibration with a frequency of 15 to 500 Hz and an acceleration of 4g;
- ensuring the buoyancy of packages with products for at least 48 hours;
- ensuring the resistance of packages to temperature in the range (-60) - (+60) ^o C, moist air, sea fog, solar radiation;
- providing a resource of work, including 1000 cycles of packing and unloading.

 The invention is aimed at creating containers for engineering products that would solve the issues of protecting products from external influences, provide rational placement in vehicles during operation of the products, storage of products in warehouses and in the field, ease of transportation and handling.

 This goal is achieved by the fact that the proposed container contains a housing with a lid having porous liners, shaped flanges and locking elements. In this case, the liners are made of at least two layers of porous elastic sheet polymer material, interconnected by a layer of rigid polymer material, and the ratio of the thickness of each layer of porous elastic material to the thickness of the layer of rigid material is 5.3 - 80.0, and have a configuration providing the placement and fixation of products, in addition, the liners are rigidly connected to the housing and the cover, made of a polymeric material reinforced with a fibrous filler.

 The invention is illustrated in the drawing, where in FIG. 1 shows the container assembly, side view, section; in FIG. 2 - the same, top view, the cover is removed; in FIG. 3 - same, front view, section.

 The container consists of a housing (1), a cover (2), locking elements (3), handles (4), foam rubber seals (5), and body and cover inserts, consisting of a number of elements (6-32) interconnected and, respectively, the housing and the cover using layers of hard polymer material. In turn, a number of elements of the liner consists of two or more layers of elastic porous sheet polymer material connected by a layer of rigid polymer material. The elements of the liners in contact with the body and the lid of the box are connected to its surface by gluing.

 The case and lid of a box having overall dimensions, for example, 900 x 600 x 400 mm with internal shaped flanges are made, for example, of fiberglass based on polyester or epoxy resin (TU 2296-050-00204961-97), lock elements and handles are used in in accordance with OST 4. GO.440.202-80. Elements of the liner with a thickness of 8-40 mm are made, for example, of foam based on foamed polyethylene PPE-3 (TU6-55-221-1465-97) or expanded polystyrene PSB-025. The formation of a layer of rigid polymeric material connecting the layers of elastic porous material is ensured by welding sheets of polyethylene foam with each other on one or two planes of the sheet, or by spreading a layer of adhesive, for example ADV-11 (TU 2252-029-22736960-97), with its subsequent curing in restrictive equipment, which ensures the creation of a layer of hard material of a given (0.1 - 1.5 mm) thickness. The formation of the shell and cover inserts is ensured by installing elements with the application of a layer of glue on the contact points between the elements and the surface of the housing and the cover with the installation of restrictive equipment (spacers), the dimensions of which provide for the creation between the elements of layers of hard material of a given thickness and the connection of the elements of the insert with the housing and cover.

 The thickness of the layer of rigid material formed during the welding of sheets of expanded polyethylene and expanded polystyrene was evaluated by measuring on witness samples obtained under conditions (temperature and specific pressure) similar to those realized in the manufacture of liner elements and are 0.1-1.0 mm for sheets of expanded polyethylene connected by welding, and 1.0 - 1.5 mm for sheets of expanded polystyrene and expanded polyethylene connected by a layer of glue.

The welding of sheets of polyethylene foam was carried out by heating the joined surfaces to a temperature above 120 ^o C, either by means of infrared panels or by blowing air with a temperature above 120 ^o C. After heating, the welded sheets were connected with the application of a load and cooled to room temperature.

 The variety of shapes of the liners is ensured by rational placement of the elements, while achieving the location of the planes of the rigid material in the directions that provide hardening and increasing the rigidity of the container as a whole. For example, when forming the lid liner, the layers of rigid material are usually parallel to the upper plane of the lid; during the formation of the bottom liner, the layers of rigid material are positioned, as far as possible, perpendicular to the lateral and end faces, mainly in the middle part, where the deformation under the influence of external and internal loads reaches maximum values.

 Shaped flanging of the cover and the body have a protrusion and a groove corresponding to each other in size and shape, and the protrusion and groove can be both on the cover and on the body. A seal is made of a flexible material, such as porous rubber, in the groove.

 Inserts fix products in containers, protect them from shock and vibration. The container provides protection of products from direct environmental influences.

 The body and cover can be made of a polymeric material reinforced with fiberglass, carbon fiber, basalt fiber and other types of reinforcing fillers.

 Thus, the container body is a shell with a liner installed in it, the shape of which ensures the placement of products in special sockets formed by the elements of the liner. Products are placed in sockets, and then fixed in place by the lid insert when closing the locking elements. The shape of the nests and the liner of the lid ensures the fixation of products in place at any position of the container.

 The physical properties of the materials of the liners provide damping of vibrations and shocks associated with the transportation and operation of containers. The case and the lid of the container protect the product from any external influences: mechanical and climatic. The body and lid, connected through a porous seal, form a sealed volume and provide buoyancy containers with a design load and protection from dust, rain, fog.

 The location of the layers of the rigid material of the liners provides an increase in the strength of the liners while maintaining their damping characteristics. In addition, the rational arrangement of the layers of the rigid material of the liners increases the strength of the packaging shell due to the appearance of additional supports of its faces.

A number of packaging options were made, differing:
- the presence or absence of layers of rigid material between the layers of porous material;
- materials forming hard and porous layers;
- the location of the layers of material of the liners in relation to the body and cover;
- the presence or absence of a mechanical connection between the liners and the housing and the cover.

 Description of packaging options are given in table 1.

Variants of packaging with dimensional-mass models of products were tested:
- strength under the influence of sinusoidal vibration with a frequency of 15-25 Hz and an acceleration of 2g;
- 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 15g.

 The test results are shown in table 2.

The strength of the container was assessed by the presence or absence of damage preventing its further use, which included:
- through cracks on the surface of the box and shaped flanges,
- violation of the integrity of the liners by tearing apart individual elements, parts and layers or tears of the surface of the liners, a dent on the surface of the liners with a depth of more than 15 mm

 As follows from the test results, the necessary characteristics of the containers are achieved only when using all the elements of the invention (var. 5-7).

 Using the present invention, 6 standard sizes of packaging for engineering products, including complex optoelectronic, including laser and infrared devices, have been developed. GUP SPC "TSNIITOCHMASH-1" developed technical documentation for packages of type 1Я32 (1Я32.00.000ТУ) and released 5 pilot industrial batches of packages.

 The container using the present invention improves the reliability of operation of the products, reduce the time of their preparation for work, rationalize and facilitate loading and unloading operations. The container is made at a high designer level, its production uses modern materials and technologies.

Claims (1)

 A container containing a body with a lid having porous liners, shaped flanges and locking elements, characterized in that the liners are made of at least two layers of porous elastic sheet polymer material, interconnected by a layer of rigid polymer material, and the ratio of the thickness of each layer of porous elastic to the thickness of the layer of hard materials is 5.3 - 80.0, and have a configuration that provides for the placement and fixation of products, and is also rigidly connected to the body and cover made of reinforced th fiberfill polymeric material.

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