RU2214353C1 - Load container - Google Patents

Abstract

FIELD: materials handling facilities. SUBSTANCE: invention relates to containers for storage and transportation of different loads. Proposed container has outer housing made in form of detachable parallelepiped with cut off corners and provided with necks for charging and discharging of load located in cut off corners of housing. At least one flexible container is arranged inside outer housing and connected with at least one neck. Outer housing and flexible inner container(s) are made of polypropylene-based material. for manufacture of outer housing polymeric composition is used containing the following components, mass%: polypropylene 94-99.4; siloxane rubber 0.1-4.5; stabilizer(s) 0.05-1.5. For manufacture of flexible inner container composition is used containing, mass %: polypropylene 68.5-94.5; siloxane rubber 5-30; stabilizer(s) 0.5-1.5. Material used for manufacture of flexible container is subjected to irradiation with γ- radiation at exposure doses within (2-5)•10⁶ R, and outer housing is subjected to irradiation with γ- radiation at doses within (3-5)•10⁶ R.. EFFECT: provision of small weight, high strength and chemical resistance, possibility of carrying up to eight different loads simultaneously. 9 cl, 2 dwg, 2 ex

Description

 The invention relates to containers for storage, storage and transportation of liquid or solid substances and can be used in storage, as well as in road, sea, river and rail transport.

 A tanker is known having a number of separate insulated tanks for accommodating and transporting liquid cargo, each of which has a sealed stretchable plastic coating removably attached to the inner walls of the tanks (US 3844239, 1974).

 From the patent US 4230061, 1980, a ship container for liquid cargo such as oil or other chemicals is known. The outer tank of the container is made of high strength metal. Inside is a prismatic hold, supported by a frame. Inside the hold is an internal tank, which is a folding folding flexible container made of polystyrene and coated from the inside with a water- and gas-tight film of silicone-rubber elastomeric material. The specified insert container for liquid cargo is placed in the hold through the neck in the folded state (US 4230061, 1980).

 The disadvantage of these devices is that the problem of excluding empty flights is not solved.

 The closest analogue of the claimed invention is a container, the outer casing of which is made in the form of a parallelepiped with two necks for loading and unloading goods, and an elastic container connected with one neck is installed inside (DE 2214990, B 65 D 25/16, 1973).

 The disadvantages of the known solutions are the significant weight of the container, the inability to use it for the simultaneous storage and transportation of more than two different cargoes. In addition, this container is not suitable for aggressive chemicals and explosives.

 The problem to which the present invention is directed was the development of a freight container, the outer casing and the inner container of which are made of the same raw material, having a relatively low dead weight, high strength and chemical resistance, which enables the simultaneous transportation of up to eight different cargoes, including toxic and explosive substances.

The problem is solved in that in a cargo container containing an external casing in the form of a parallelepiped with necks for loading and unloading goods and at least one elastic container placed inside it, according to the invention, the external casing is made detachable with cut corners in which the necks for loading are located and unloading cargoes, said at least one elastic container is connected to at least one neck, wherein the outer casing and at least one elastic container are made of materials polypropylene-based yala, moreover, for the manufacture of the casing used a polymer composition containing, wt.%:
Polypropylene - 94.0-99.4
Siloxane rubber - 0.1-4.5
Stabilizer (s) - 0.5-1.5
and for the manufacture of elastic containers used polymer composition containing, wt.%:
Polypropylene - 68.5-94.5
Siloxane rubber - 5-30
Stabilizer (s) - 0.5-1.5
and at the same time, the material used to manufacture the elastic container was subjected to γ-radiation in the range of exposure doses (2-5) • 10 ⁶ P, and the outer casing was subjected to γ-radiation in the range of exposure doses (3-5) • 10 ⁶ R.

 The above set of essential features set forth in the independent claim ensures the achievement of the intended technical result, and the dependent claims correspond to the preferred container designs.

 So, in the particular case of execution, two to four elastic containers are placed inside the outer casing, each of which is connected to at least one neck.

 Each container can be connected to two necks, while in the upper cut corners of the casing there are necks for loading, and in the lower cut corners there are necks for unloading.

In the particular case, the corners of the outer casing are cut at 45 ^o to its faces.

 In another particular case, the outer casing is made detachable horizontally and consists of two identical parts.

 Preferably, dimethylsiloxane, methylvinylsiloxane or dimethylmethylphenylmethylvinylsiloxane rubber is used as the siloxane rubber.

 The outer casing may be made of a material additionally containing a filler modifying its mechanical properties. As the filler, for example, glass fibers or carbon fibers are used.

 In the particular case, the container can be mounted on the chassis and used to transport goods by rail or road.

The execution of the outer casing in the form of a parallelepiped allows, in comparison with a cylindrical container, to increase its usable capacity by 1.273 times, since provided that their linear dimensions are equal (d = a, N _c = N _p ), the cylinder capacity is V _u = 1 / 47πd ² N _c , the parallelepiped capacity (without cut corners, the volume of which can be neglected) V _n = a ² H _p and V _n / V _u = 4 / π = 1,273.

 Making the outer casing detachable and consisting of two identical parts simplifies the placement of elastic containers inside it and their connection with the necks, facilitates cleaning and replacement of failed elements (both elastic containers and parts of the external casing).

 In addition, the proposed design of the containers makes it possible to compactly place them in the form of a stack in warehouses or vehicles. Loading into the necks located in the cut corners of the parallelepiped is carried out without any special difficulties, as well as unloading.

 The advantage is that cheap and affordable materials are used to carry out the container, as well as the fact that the original polymer compositions for the manufacture of the outer casing and the internal elastic containers are similar in composition. This circumstance greatly simplifies the container manufacturing process.

The mass of the proposed container is significantly reduced, since its specific gravity is 0.9-0.91 g / cm ³ , while the specific gravity of the steel container is 7.87 g / cm ³ . Moreover, their strength and hardness are close in magnitude. The γ-radiation treatment of the material promotes additional crosslinking of polymer chains and their hardening. Optimal for the material used for the manufacture of the outer casing is irradiation in the range of exposure doses (3-5) • 10 ⁶ R. For irradiation of elastic containers, doses may be less.

 Introduction to the composition of the original polymer composition for the manufacture of the outer casing of such fillers as glass or carbon fibers, makes it possible to further increase the strength of the product.

 Elastic containers favorably differ in that they have high ductility and occupy a relatively small volume when inoperative.

The container can be used for transportation of liquid and fine cargoes. It is resistant to various environments, including acids, oils and other hydrocarbons, as well as radiation, does not change its properties in the temperature range of at least -60 ^o C to +60 ^o C and above. On the other hand, the materials of which the outer casing and elastic containers are made are chemically inert and can be used for transporting food products.

 The invention is illustrated by the drawing, in figure 1 which shows a General view of one of the preferred options for the container with a partial cut, and figure 2 - installation of containers in the form of a stack.

 The container consists of an outer casing 1, made detachable from two parts 2, 3 with cut corners 4, in which are placed the neck 5 for loading and 6 for unloading, and four elastic containers 7, each of which is connected to one neck 5 for loading and one neck 6 for unloading.

 Example 1

A sample of finely ground and dusted with polypropylene (PP) dimethylmethylphenylmethylvinylsiloxane rubber SKTFV-2101 in the amount of 0.5 wt.% Is poured into the mixer, which is pre-loaded with powdered PP based on its total content in the composition of 98.2 wt.% And light and heat stabilizers : 0.3% by weight of KA topanol, 0.5% by weight of tinuvin and 0.5% by weight of dilauryl thiodipropionate. The loaded ingredients are then mixed for 20 minutes. The resulting mixture is fed into an extruder and granules are made at 210 ^° C, from which further molding the outer casing of the box is made in the form of a parallelepiped with corners cut at 45 ^° , consisting of two parts, as shown in Fig. 1. The resulting casing is exposed to γ-radiation with an exposure dose of 4-10 ⁶ P. The material of the container has the following indicators: tensile strength σ - 320 kg / cm ² , hardness N _in - 6.5, heat resistance - 95 ^o C, frost resistance - -60 ^o FROM.

For the manufacture of four elastic containers using the same ingredients as for the outer casing, except that SKTFV-2101 is administered in an amount of 15 wt.%, And PP - 83.7 wt.%. The granules obtained by extrusion are subjected to γ-radiation with an exposure dose of 2 × 10 ⁶ P, and then elastic containers having two necks are made from irradiated granules. The material of containers is characterized by the following indicators: tensile strength - 300 kg / cm ² , elongation - 850%, specific impact strength - 5.2, heat resistance - 82 ^o C, frost resistance - -60 ^o C.

 Elastic containers 7 are placed in the outer casing 1 and connect their necks with the necks 5 and 6 of the casing, equipped with sealing plugs.

 The container is used for transportation in one direction placed in two elastic containers of vegetable oil and granulated sugar. The other two containers remain free and pressed against the walls of the casing. Oil and sugar are unloaded at the destination and oil products are loaded into two other containers, while the elastic containers released from the load are pressed against the walls of the casing. Oil products are transported in the opposite direction.

 Example 2

The outer casing and elastic containers are prepared analogously to example 1, except that SKTV methyl vinyl siloxane rubber is used as the siloxane rubber. The ratio of the starting ingredients for the manufacture of the casing is as follows, wt.%: PP - 96.0, SKTV - 2.5, topanol - 0.5, tinuvina - 0.4, dilauryl thiodipropionate - 0.6. In addition, the polymer composition additionally contains carbon fibers in an amount of 1 wt.% By weight of the above ingredients. The ratio for the manufacture of two elastic containers having one neck, wt.%: PP - 74.2, SKTV - 25, topanol - 0.2, tinuvin - 0.3, dilauryl thiodipropionate - 0.3. The resulting casing is treated with γ-radiation at an exposure dose of 5 • 10 ⁶ P, and the material used for the manufacture of each container with a dose of 2-10 ⁶ R.

The material of the container has the following indicators: tensile strength а - 325 kg / cm ² , hardness Н _в - 6.0, heat resistance - 83 ^o С, frost resistance - -35 ^o С.

The material of containers is characterized by the following indicators: tensile strength - 280 kg / cm ² , elongation - 650%, specific impact strength - 4.9, heat resistance - 80 ^o C, frost resistance - -36 ^o C.

 Two elastic containers are placed in the outer casing and connect their necks with the two upper necks of the casing. All necks are closed with screw caps.

 The container is used for transportation of flour placed in two elastic containers in one direction. Flour is unloaded at the destination and, through the upper neck, which is not connected with elastic containers, oil products are loaded that are located in the inner space of the casing, while the elastic containers released from the load are pressed against the walls of the casing. Oil products are transported in the opposite direction.

 The above examples do not exhaust all possible embodiments of the proposed invention, but serve only as an illustration to it.

 Thus, a new type of container is proposed, which has a relatively light weight, high strength and chemical resistance and allows the simultaneous transportation of up to eight different cargoes.

Claims (9)

1. A cargo container comprising an external casing in the form of a parallelepiped with necks for loading and unloading goods and an elastic container placed inside, characterized in that the external casing is detachable with cut corners, in which necks for loading or unloading goods are located, mentioned at least at least one elastic container is connected to at least one neck, while the outer casing and at least one elastic container are made of polypropylene-based material, and for manufacturing Nia casing used polymer composition comprising, in weight.%:
Polypropylene - 94.0-99.4
Siloxane rubber - 0.1-4.5
Stabilizer (s) - 0.5-1.5
and for the manufacture of elastic containers used polymer composition containing, wt.%:
Polypropylene - 68.5-94.5
Siloxane rubber - 5-30
Stabilizer (s) - 0.5-1.5
the material used to manufacture the elastic container is exposed to γ-radiation in the range of exposure doses (2-5) • 10 ⁶ P, and the outer casing is exposed to γ-radiation in the range of exposure doses (2-5) • 10 ⁶ P .  2. The cargo container according to claim 1, characterized in that two to four elastic containers are placed inside the outer casing, each of which is connected to at least one neck.  3. The cargo container according to claim 2, characterized in that each container is connected to two necks, while in the upper corners of the outer casing there are necks for loading, and in the lower cut corners there are necks for unloading. 4. A cargo container according to any one of claims 1 to 3, characterized in that the corners of the outer casing are cut to 45 ^o .  5. A cargo container according to any one of claims 1 to 4, characterized in that the outer casing is made detachable horizontally and consists of two identical parts.  6. A freight container according to any one of claims 1 to 5, characterized in that dimethylsiloxane, methylvinylsiloxane or dimethylmethylphenylmethylvinylsiloxane rubber is used as a siloxane rubber.  7. A cargo container according to any one of claims 1 to 6, characterized in that the outer casing is made of a material additionally containing a filler that modifies its mechanical properties.  8. The cargo container according to claim 7, characterized in that fiberglass or carbon fiber is used as a filler.  9. The container according to any one of claims 1 to 8, characterized in that it is mounted on the chassis.

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