RU2758069C1 - Platform - Google Patents

Abstract

FIELD: shipbuilding.

SUBSTANCE: invention relates to the field of shipbuilding, in particular to floating platforms consisting of modules made of plastic material. Proposed platform contains buoyancy modules connected by fastening elements, each consisting of a hollow plastic elongated, at least double hull formed by sides with vertical projections and corresponding vertical depressions, upper and lower horizontal faces and having four extreme eyelets located on vertical ribs and at least one central eyelet on each of its two elongated sides, in this case, one central eyelet of each buoyancy module of one of the two extreme rows and one of central eyelets of each buoyancy module of the intermediate row are each fastened with a corresponding fastening element with one of the corresponding extreme eyelets of at least one of the two adjacent contacting elongated sides of the buoyancy modules, and one central eyelet of each buoyancy module of the other from the extreme rows and the other from the central eyelets of each buoyancy module of the intermediate row are each fastened by a corresponding fastening element with one of the corresponding extreme eyelets of at least one of the two adjacent contacting elongated sides of the buoyancy modules, with one of the corresponding extreme eyelets of at least one of the two adjacent buoyancy modules contacting the horizontal faces of the adjacent layer and with one of the corresponding central eyelets of the corresponding adjacent buoyancy module contacting the edges of the adjacent layer.

EFFECT: invention is aimed to increase strength and rigidity of the platform under wave loads, increasing the buoyancy and load capacity of the platform under vertical loads, as well as increasing its reliability by reducing risk of damage to eyelets due to reduced load on joints.

1 cl, 5 dwg

Description

The invention relates to floating platforms designed for special purposes, namely pontoons, floating docks, rafts and other floating structures and consisting of modules, the hulls of which are made of plastic material.

The closest in technical essence to the proposed invention is a platform selected as a prototype, containing buoyancy modules connected by fastening elements, each consisting of a hollow plastic elongated, at least double body formed by lateral sides with vertical protrusions and corresponding vertical depressions, upper and lower horizontal edges and having four extreme lugs located on vertical ribs, and at least one central lug on each of its two elongated lateral sides (RF patent No. 2504498, Fig. 3, publ. 20.01.2014).

The disadvantages of the prototype, including the technical problem, are insufficient buoyancy and carrying capacity under vertical loads, rigidity and reliability of the platform under wave loads, the possibility of damage to the lugs in the junction points of four adjacent modules.

The technical result achieved by the proposed invention consists in expanding the operational capabilities by increasing the strength and rigidity of the platform under wave loads and at the same time increasing the buoyancy and carrying capacity of the platform under vertical loads due to the presence of layers and additional connections and shifting them together, as well as increasing reliability by reducing the risk of damage to the lugs due to a decrease in the load on the joints by combining in one section the connection of the two extreme lugs of two adjacent modules of the same row with the central lug of the integral part of the module of the adjacent row.

The delivered technical result is achieved by the fact that in the platform containing the buoyancy modules connected by the fastening elements, each consisting of a hollow plastic elongated, at least double body formed by lateral sides with vertical protrusions and corresponding vertical depressions, upper and lower horizontal edges and having four extreme lugs located on vertical ribs and at least one central lug on each of its two elongated lateral sides, one central lug of each buoyancy module of one of the two outer rows and one of the central lugs of each buoyancy module of an intermediate row are each fastened by the corresponding an attachment element with one of the corresponding extreme lugs of at least one of two adjacent buoyancy modules in contact with the elongated sides, and one central lug of each buoyancy module of the other from the extreme rows and the other from the cent lugs of each buoyancy module of the intermediate row are each fastened by a corresponding attachment element to one of the corresponding extreme lugs of at least one of two adjacent buoyancy modules in contact with the elongated sides, with one of the corresponding extreme lugs of at least one of the two adjacent, contacting horizontal edges, buoyancy modules of the adjacent layer and with one of the corresponding central lugs of the corresponding adjacent, contacting ribs, buoyancy module of the adjacent layer.

FIG. 1 shows the platform, general isometric view,

in fig. 2 - extended body of the buoyancy module, bottom view,

in fig. 3 - layout diagram of adjacent buoyancy modules in one layer,

in fig. 4 is a diagram of the location of adjacent buoyancy modules located one above the other (in adjacent layers),

in fig. 5 is a diagram of the location of adjacent buoyancy modules in adjacent layers.

The platform contains the buoyancy modules 4 connected by fastening elements 1 (each made, for example, by casting in the form of a pin 2 with a head 3), each consisting of a hollow plastic elongated, at least double body 5, resembling a rectangular parallelepiped (it is possible to perform a triple body - not shown in the drawings), formed by lateral sides 6 with vertical protrusions 7 and corresponding vertical depressions 8, upper 9 and lower 10 horizontal edges and having four extreme lugs 11 located on the vertical edges 12 of an elongated parallelepiped, and at least one a central lug 13 on each of its two elongated lateral sides 14 (Fig. 3 shows the elongated lateral sides 14 of the body 5 (parallelepiped), designated ADHE = BCGF, twice as long as its short sides 6 ABFE = DCGH), with one central lug 13 of each buoyancy module 4 one of the two extreme rows 15 and one of the central the lugs 13 of each buoyancy module 4 of the intermediate row 16 are each fastened by a corresponding fastening element 17 (18) to one of the corresponding extreme lugs 11 of at least one of two adjacent buoyancy modules 4 in contact with the elongated sides 14 (in Fig. 3, the contact surface of the elongated sides 14 is designated A'CGE '), and one central lug 13 of each buoyancy module 4 of the other from the outermost rows 19 and the other of the central lugs 13 of each buoyancy module 14 of the intermediate row 16 are each fastened by a corresponding fastening element 20 (21) with one of the corresponding extreme lugs 11, at least one of two adjacent, contacting the elongated sides 14, buoyancy modules 4 (in Fig. 3, the contact surface of the elongated sides 14 is designated A'CGE ') of one layer 22, with one of the corresponding extreme lugs 11 of at least one of two adjacent, contacting horizontal faces 9 (10) (in Fig. 4, the contact surface by horizontal faces 9 and 10 is designated A''B''GH), buoyancy modules 4 of the adjacent layer 23 and with one of the corresponding central lugs 13 of the corresponding adjacent, contacting ribs (in Fig. 5, the contact rib is designated FG), the buoyancy module 4 of the adjacent layer oya 23. The platform works as follows.

The platform is assembled into a single structure from the buoyancy modules 4 made by extrusion-blow molding by connecting the lugs 11 and 13 of hollow plastic elongated bodies 5 with fastening elements 1.

Thus, in this technical solution, the presence of layers 22 (23) and their additional connection and their shift between each other provides an increase in buoyancy, carrying capacity and rigidity of the platform under various loads, for example, with an increase in weight and at the same time due to the combination in one section of the connection with the corresponding fasteners 1 of two extreme lugs 11 of two adjacent buoyancy modules 4 of one row (for example, the extreme row 15) with a central eye 13 of the integral part of the buoyancy module 4 of the adjacent row (intermediate row 16), the wave load is taken by the body (body 5) of the buoyancy module 4, thereby ensuring a decrease in the load on each joint node, and as a result, reducing the risk of damage to the lugs, especially the extreme ones (11) located on the vertical ribs 12 of the buoyancy modules 4, which increases the reliability and strength of the platform.

The analysis of the claimed technical solution for compliance with the conditions of patentability showed that the features indicated in the formula are essential and interconnected with the formation of a stable set of necessary features, unknown at the priority date from the prior art and sufficient to obtain the required synergistic (over-sum) technical result.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed technical solution:

- the object embodying the claimed technical solution refers to platforms designed for special purposes and consisting of buoyancy modules 4, elongated bodies 5 of which are made of plastic material;

- for the declared object in the form as it is characterized in the formula, the possibility of its implementation has been confirmed using the means and methods described above in the application or known from the prior art as of the priority date;

- an object that embodies the claimed technical solution, in its implementation, is able to ensure the achievement of the technical result perceived by the applicant.

Consequently, the claimed subject matter meets the criteria of patentability "novelty", "inventive step" and "industrial applicability" under the current legislation.

Claims (1)

A platform containing buoyancy modules connected by fastening elements, each consisting of a hollow plastic elongated, at least double body formed by lateral sides with vertical protrusions and corresponding vertical depressions, upper and lower horizontal edges and having four extreme lugs located on vertical ribs, and at least one central lug on each of its two elongated lateral sides, characterized in that one central lug of each buoyancy module of one of the two extreme rows and one of the central lugs of each buoyancy module of the intermediate row are each fastened by a corresponding attachment element to one of the corresponding extreme lugs of at least one of two adjacent contacting elongated sides of the buoyancy modules, and one central lug of each buoyancy module of the other from the extreme rows and the other of the central lugs of each buoyancy module and the intermediate row are each fastened by a corresponding fastening element to one of the corresponding extreme lugs of at least one of two adjacent buoyancy modules contacting with the elongated sides, to one of the corresponding extreme lugs of at least one of the two adjacent horizontal buoyancy modules contacting the adjacent layer and with one of the corresponding central lugs of the corresponding adjacent edge-contacting buoyancy module of the adjacent layer.

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