RU116479U1 - PONTON FROM ALUMINUM ALLOYS FOR RESERVOIRS - Google Patents

Abstract

1. A pontoon made of aluminum alloys for tanks, containing a carpet, a sealing gate and support posts, characterized in that the carpet consists of sealed float sections connected by a bolt connection, each float section is made hollow with volumetric cellular inserts made made of aluminum alloy, and each cell of the volumetric cellular nesting is made hermetically sealed relative to other cells, hatches are made in two or more float sections, structurally combined with breathing valves and drain devices. ! 2. Pontoon made of aluminum alloys for tanks according to claim 1, characterized in that each cell of the volumetric cellular nesting of the float sections is made in the form of honeycombs. ! 3. Pontoon made of aluminum alloys for tanks according to claim 1, characterized in that the float sections are connected in a zigzag manner in the form of a "herringbone".

Description

Technical field

The utility model relates to the oil industry, namely to the storage of petroleum products and is intended to reduce the loss of petroleum product from evaporation during storage in vertical cylindrical tanks, to increase the fire safety of the operation of tanks, as well as to reduce harmful interactions on the environment.

State of the art

The prior art various technical solutions intended for use in the storage of petroleum products. In particular, a pontoon for a tank is disclosed in the copyright certificate SU 1294712, published on 03/07/1987, including a frame, support legs and a sealing shutter. A pontoon for a tank is also known, described in the copyright certificate SU 1599275, published on 10/15/1990, including a membrane with installed box segments, a sealing shutter to close the gap and support legs.

The above devices have a number of disadvantages. So the floats of known pontoons are not completely immersed in the stored liquid (oil, oil products), therefore, between the surface of the product and the surface of the pontoon, free space forms, filling up with vapor of the stored liquid, creating a fire-hazardous and explosive situation, even if there is a gate around the perimeter of the pontoon.

The closest in technical essence to the claimed device is the pontoon disclosed in patent RU 2219117, published September 20, 2003, which contains a carpet consisting of separate sectors with a filler, a sealing shutter, individual sectors consist of separate prefabricated elements of the same type filled with polyurethane foam.

The disadvantages of this technical solution are the complexity of the construction of the connection of the sectors and, accordingly, the complexity of the installation of the pontoon, the insufficient rigidity of the pontoon carpet, due to the connection of the elements in the sectors, and low reliability, since in the event of damage to the surface of the element, its filler (polyurethane foam) is destroyed by exposure to liquid stored in the tank , which leads to a significant decrease in the buoyancy of the pontoon and the likelihood of flooding.

Utility Model Disclosure

The task to which the utility model is directed is to create a pontoon structure with increased buoyancy, ensure fire and explosion safety, increase operational and technical characteristics, simplify the installation of the pontoon.

The technical result achieved in solving the problem through the use of the claimed utility model is to ensure the unsinkability of the pontoon, increase the durability of the pontoon carpet, increase the ease of installation, improve performance by connecting several devices in one node.

The specified technical result is achieved by the fact that the pontoon of aluminum alloys for tanks contains a carpet, a sealing shutter and support legs, while the carpet consists of sealed sections - floats, interconnected by means of a bolt connection, each section-float is made hollow with volumetric cellular enclosures made of aluminum alloy, and each cell of a volumetric cellular enclosure is sealed with respect to other cells, hatches-manholes are made in two or more sections-floats, structurally ovmeschennye with breathing valves and dispensing devices, each cell cellular attachment sections surround-float has the shape of cells, and the connection section is made in a zigzag-floats as a "herringbone".

Brief Description of the Drawings

The essence of the claimed utility model is illustrated by drawings, where:

figure 1 shows a General view of the pontoon from above;

figure 2 shows the connection sections of the floats in the context;

figure 3 shows the main section of the float with a cutout, top view;

figure 4 shows a manhole combined with a breathing valve and a drain device, top view.

The best option for implementing a utility model

The aluminum alloy pontoon for tanks is a flat carpet consisting of hermetically connected main float sections 1, having the same shape and size, and peripheral float sections 2, made in the form of rectangular triangles or trapezoids, while to increase the strength of the carpet in the case of the occurrence of pressure in the sub-pontoon part of the tank, the section-floats are connected in a zigzag manner in the form of a "herringbone". Each section-float 1 and 2 is made of profile 3, inside which are placed the mesh attachments 4. Cells of the mesh attachment are made in the form of honeycombs. From above and below, the float section is hermetically closed by sheets 5, and each individual cell of the volumetric cellular enclosure is sealed with respect to adjacent cells. In case of damage to the lower or upper surface of the sheet 5 of the float section, only one cell is depressurized, while the other cells remain airtight, and the float section does not lose buoyancy, ensuring the floatability of the pontoon as a whole. In two and whiter main sections-floats, manholes 6 are made, providing access for maintenance personnel to the sub-pontoon space for carrying out preventive and repair work. Manholes are structurally combined with breathing valves 7 and drain devices 8. This solution differs from the construction of known pontoons in which the described units are mounted separately in the pontoon. The combination of manhole with breathing valves and drain devices simplifies the design of the device as a whole, reduces the number of parts of the pontoon. The main and peripheral sections of the pontoon floats, including those with manholes and support racks, are manufactured in the factory, after which the float sections and other components of the pontoon on the installation site inside the tank are connected to each other by means of a bolt connection in a zigzag pattern in the form of a “Christmas tree” ”, Forming a flat surface of the pontoon carpet. In diameter, a shutter is fastened to the pontoon carpet, providing a sealing of the gap between the pontoon carpet and the tank wall when the pontoon is in the working position. Breathing valves located in manholes equalize the pressure in the sub-pont and over-pont space when filling and emptying the tank. In the absence of liquid stored in the tank, maintenance personnel through hatches enter the sub-pontoon space for the necessary routine maintenance.

This pontoon device solves the tasks set for it, namely, a pontoon made of aluminum alloys for tanks is assembled from separate sections-floats, which retain buoyancy in case of damage, thereby providing increased buoyancy of the entire pontoon. Fire and explosion safety is achieved due to the fact that the lower part of the pontoon in contact with the stored product is a flat surface, eliminating the formation of a gas-air mixture in the sub-pontoon space. The inventive device of the pontoon consists of small in size and easily assembled between each other parts, which makes the pontoon transportable, simplifies assembly at the place of use and does not require special tools and lifting mechanisms.

Claims (3)

1. The pontoon of aluminum alloys for tanks, containing a carpet, a sealing shutter and support racks, characterized in that the carpet consists of sealed sections-floats, interconnected by means of a bolt connection, each section-float is made hollow with volumetric cellular enclosures made made of aluminum alloy, and each cell of a volumetric cellular enclosure is sealed relative to other cells, manholes-manholes, structurally combined with breathing valves, are made in two or more sections-floats and drain devices. 2. The pontoon of aluminum alloys for tanks according to claim 1, characterized in that each cell volumetric cellular embedding sections of the floats is made in the form of honeycombs. 3. The pontoon of aluminum alloys for tanks according to claim 1, characterized in that the section-floats are connected in a zigzag manner in the form of a "Christmas tree".