EA000356B1 - Container for storing and transporting flammable and/or dangerously explosive liquid materials - Google Patents

Abstract

Container for storing and transporting flammable and/or dangerously explosives liquid materials, comprising a housing with a filling neck and outer protecting coating, and a protective element, characterized in that said protective element is made porous of foam polyurethane, having open cellular structure or pieces of perforated aluminium foil of three-dimensional structure with cell size, being between 3 and 7 mm and arranged on a metal mesh, mounted inside the housing at a distance of 2/3 height from the filling neck and total volume of the protective porous element constitutes from 50 to 65% of the total inner volume of the container, wherein the outer protecting coating comprises 3 layers, the first of which is made of elastic polymer self-tightening material is attached to the container with an adhesive compound, the second is made of heat-insulation material based on glass or basalt fibers, and the third is made of fire-proof material, wherein the second layer is connected with the first and the second layers by mechanical connecting elements, and the ratio between said layers by their thickness is correspondingly: 1.0;2.0...2.5:0.3...0.4.

Description

The present invention relates to means, including containers, tanks, for storing or transporting combustible and / or explosive liquid materials.

Known capacity (fuel tank) for storage and transportation of combustible and / or explosive liquid materials, containing a housing with a filler neck and a protective element made of aluminum foil, placed outside and / or inside on the walls of the tank (see, for example, USSR patent No. 372795 from 10.10.70, MKI: B 65D 90/46).

This design allows to reduce the electrostatic charge, fuel diffusion, and also increase the impact strength of the tank.

However, the manufacturing technology of the protective element in such a design is rather complicated and does not exclude the likelihood of an explosion upon ignition of the vapor, and is not at all suitable for the manufacture of large-capacity tanks, in particular automobile and railway tanks, stationary tanks at gas stations.

In addition, in the event of a through penetration of such a tank, a fuel leak will occur, which is why a fire or explosion is highly likely.

The aim of the present invention is to reduce the electrostatic charge and eliminate the likelihood of an explosion in case of ignition of the vapors generated inside the tank, as well as the elimination of fire in the case of through penetration of the tank.

This goal is achieved by the fact that in a container for storing or transporting combustible and / or explosive liquid materials containing a housing with a filler neck and an external protective coating, as well as a protective element, the protective element is made porous of open-cell polyurethane foam or sections of perforated aluminum foil of a three-dimensional structure with the dimensions of the voids between its partitions, equal to 3.7 mm, and placed on a grate mounted inside the container body at a distance of 2/3 of the height from the filler neck, with the total volume of the protective porous element is 50 ... 65% of the total volume of the container body, and the outer coating is made in the form of three layers, the first of which is made of an elastic polymer self-tightening material and is fixed to the container body by means of an adhesive joint, the second of heat-insulating material based on glass or basalt fibers, and the third is made of fire-retardant material, the second layer being connected to the first and third by means of mechanical connecting elements, and the ratio is indicated x layers in thickness is 1.2: 2.0.2.5: 0.3.0.4, respectively.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the vehicle with the proposed capacity for storage and transportation of combustible and / or explosive liquid materials;

in FIG. 2 is a general view of a stationary tank of the same design and purpose.

This container for storing and transporting combustible and / or explosive liquid materials contains a housing 1 with a filler neck 2, a protective porous element 3 made of open-cell polyurethane foam or pieces of perforated aluminum foil of a three-dimensional structure, placed on a metal grill 4 mounted inside the housing 1 and its the total volume is 50.65% of the total volume of the housing 1 capacity. When filling the body 1 of the tank with a protective porous element 2 by less than 50% of the total volume of the tank, the probability of an explosion is not excluded, and when filling from 65% and above, an explosion does not occur, however, there will be an excess consumption of material of the porous protective element 3 and the useful volume of the body 1 of the tank will decrease .

The protective element 3 is made in such a way that it contains voids (pores, cells) with dimensions between the partitions equal to 3 ... 7 mm, and the metal grill 4 is mounted in the container body 1 at a distance of 2/3 of the height from the filler neck 2.

Outside, the container body 1 is faced with a three-layer coating. A layer 5 made of an elastic polymer self-tightening material is attached to the container body 1 by means of an adhesive joint.

Layer 6 is made of heat-insulating material based on glass or basalt fibers, and layer 7 is made of fireproof material, for example, SMOG, OVR. Layer 6 is connected with layers 5 and 7 by means of mechanical connecting elements, for example, fasteners (not shown in the drawing).

Thus, the protective layer 5, made of an elastic polymer self-tightening material, eliminates the leakage of liquid combustible material in case of breaking through the wall of the tank body 1 and, thus, eliminates the possibility of fire. In this case, the outer fire-retardant layer 7 allows providing reliable protection against external ignition factors (hit by open flame, sparks, arson, etc.), and the heat-protective layer 6 is an additional protective layer. The ratio of the thicknesses of these layers:

1: 2.0 ... 2.5: 0.3 ... 0.4 is chosen experimentally and is the most optimal in the manufacture of containers.

When the size of the voids in the protective porous element 2 is less than 3 mm, the loss of the useful volume of the container body 1 increases significantly, and when the size of the voids is more than 7 mm, the vapor pressure in the container body 1 remains explosive.

The principle of operation of such a tank is as follows.

When pouring through the filler neck 2 combustible or explosive liquid material into the container body 1, this liquid passes through the protective porous element 3 to the bottom of the container body 1, gradually filling it and, accordingly, filling all the voids of the protective porous element 3.

When sampling a combustible or explosive liquid material in the tank that is freed from the combustible part of the housing 1, vapor pressure is generated up to an explosive one. However, due to the implementation of the protective element 3 porous from a polymer open-cell foam or perforated aluminum foil of a three-dimensional structure, the useful volume of the container body 1 is disintegrated, and this, in turn, reduces the electrostatic charge and vapor pressure from 8 kg / cm ² to 1, 5 ... 2.0 kg / cm ² .

Thus, such a constructive solution allows, with minimal loss of the useful volume of the vessel body 1 (1.0 ... 5.0%), due to the mass of the material of the protective porous element 3 and the outer coating of the vessel, it is possible to practically exclude ignition from external factors and an explosion of accumulated in the free space of the housing 1 of the tank of vapors of combustible or explosive liquid materials.

Claims (1)

CLAIM A container for storing or transporting combustible and / or explosive liquid materials, comprising a housing with a filling neck and an outer protective coating, as well as a protective element, characterized in that the protective element in it is made of porous polyurethane foam or segments of perforated aluminum foil of a three-dimensional structure with dimensions voids between its partitions, equal to 3 ... 7 mm, and placed on a metal grid mounted inside the body at a distance of 2/3 of the height from the filling neck, while The total volume of the protective porous element is 50 ... 65% of the total volume of the tank body, and the outer coating is made in the form of three layers, the first of which is made of an elastic polymer self-tightening material and is fixed to the tank body by means of adhesive bonding, the second is made of heat insulating material on the basis of glass or basalt fibers, and the third - from a flame retardant material, the second layer being connected to the first and third by means of mechanical connecting elements, and the ratio of the said layer in thickness is, respectively: 1.0: 2.0 ... 2.5: 0.3 ... 0.4.