RU134912U1 - WATERFLOWING FLOATING ROOFS OF RESERVOIRS - Google Patents

Abstract

Spillway of floating roofs of tanks, containing drainage holes in the center of the roof and in the lower part of the wall of the tank, connected by a pipe with the formation of a continuous drainage channel made in the form of a flexible pipe located on the periphery of the tank, characterized in that the flexible pipe is made of corrugated polymer, plastic, combined and other non-metallic materials, along the entire length has a spiral arrangement to the axis of the tank and is connected by means of elastic spring rods to the periphery iey floating roof tank in radial section, with the ability to uniformly lengthen the distance equal to the distance of their fixing points on the pipeline to the floating roof at its top location in the tank.

Description

The utility model relates to the field of oil pipelines, in particular to the design of tanks with floating roofs.

Known designs of weirs of floating roofs of tanks, containing the places of attachment of the weir on the floating roof and inside the tank and spillway from rigid steel pipes interconnected by hollow hinged devices or from a flexible thick-walled pipeline made of synthetic rubber, made with a margin of length (US Patent N 1819401 M. C. B65D 88/38, patent NDP N 264942 M. C. B65D).

The main disadvantage of the mentioned designs of overflows is the low-tech installation due to the bulkiness of the design and low-tech operation, due to the need for routine maintenance to repair hinges, rigid pipelines and insufficient service life of both.

The closest in technical essence is the design of the spillway, containing connecting pipes on the floating roof and on the tank wall, which are connected by a pipeline, from rigid steel pipes interconnected by hollow articulated devices or from a flexible pipeline made with a margin of length, which are equipped with a flexible cable, attached to the middle part of this pipeline and to the top of the tank wall, through the openings in the roof, to the pulling device, so as to lift the middle part the pipeline synchronously with the floating roof (U.S. Patent No. 2,857,072 M. class B65D 88/38).

This spillway also has disadvantages: high consumption of pipes and materials, cumbersome design, the complexity of installation and operation.

The purpose of the utility model is the simplicity of the construction, durability and ease of operation.

This goal is achieved by the fact that the overflow of the floating roofs of the tanks contains drainage holes with connecting pipes on the floating roof and on the wall of the tank, connected by a flexible pipe, which is completely helical in relation to the axis of the tank, made of corrugated from polymer, plastic, combined and other non-metallic materials, connected by elastic spring rods to the periphery of the tank roof, with the ability to evenly extend by a distance equal to the distance from t points of their fastening on the pipeline to a floating roof with its upper location in the tank.

Figure 1 and figure 2 shows a section aa of figure 3 with the upper and lower position of the roof of the tank, figure 3 shows the tank with a floating roof - "top view", figure 2 shows the connection of the flexible pipe with elastic spring traction. The graphic part explains the essence of the proposed solution.

The tank 1 with a floating roof 2 contains drainage holes 3, 4 on the floating roof and on the wall 5 of the tank, which are connected by means of a flange connection 6 to a spillway 7, a water intake device 8 and a flexible pipe 9 made of corrugated from polymer, combined and other non-metallic materials. The flexible pipe 9 is located spirally to the axis of the tank in the direction coinciding with the direction of the spiral of the corrugations of the pipeline, with a spiral diameter of at least ten pipe diameters. The flexible pipe 9 is equipped with elastic spring rods: the front 10-12 to support the front of the pipe spiral, the rear 13-15 to support the rear, so as to lift the flexible pipe 9 synchronously with the floating roof 2. The spring rods are connected to the pipeline by the clamps 16 and are attached to the peripheral part of the roof by means of brackets 17, which should be located on the roof with a diameter of not less than twenty diameters of the pipeline. The length of the rods is equal to the distance from the periphery 18 of the roof 2, in the highest position, to the clamps 16.

The principle of operation of the weir of the floating roofs of the tanks is as follows. When water accumulates on the floating roof of the tank, it is necessary to ensure its flow from the surface to the water intake. This is achieved as follows: by means of an inlet drainage hole 3 mounted on a floating roof 2, water through a water intake device 8 enters a flexible pipe 9 connected to a spillway 7. A water outlet outside the tank is provided by an outlet drainage 4 which is connected to a spillway branch pipe 7.

The proposed location of the flexible pipeline and spring elastic rods allows you to ensure the safe necessary position of the pipeline for vertical movements of the floating roof 2. For example, with the roof top position, the parts of the flexible pipeline are at an angle "x", with optimal bending radii in the connection zone 20. And when moving the roof 2 to the lower position 19/2, the flexible pipe 9 is arranged along the side wall spirally, in the form of a "spring", with minimal bends, and it is the spring rods 10-15 that provide tightening the excess sleeve length to the periphery of the bottom of the tank without undesirable additional bending.

The use of hose sleeves made of polymer plastic, combined and other non-metallic materials in the weirs of reservoirs in combination with a favorable installation scheme in the reservoir, providing the necessary service life, reduces the cost of manufacturing and operation of weirs.

Claims (1)

Spillway of floating roofs of tanks, containing drainage holes in the center of the roof and in the lower part of the tank wall, connected by a pipe with the formation of a continuous drainage channel made in the form of a flexible pipe located on the periphery of the tank, characterized in that the flexible pipe is corrugated from polymer, plastic, combined and other non-metallic materials, along the entire length has a spiral arrangement to the axis of the tank and is connected by means of elastic spring rods to the periphery iey floating roof tank in radial section, with the ability to uniformly lengthen the distance equal to the distance of their fixing points on the pipeline to the floating roof at its top location in the tank.

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