RU217129U1 - Multilayer platform - Google Patents

Abstract

The utility model relates to floating multilayer 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 utility model is aimed at providing an increase in reliability by eliminating the shift of layers relative to each other. The multilayer platform contains buoyancy modules connected by fastening elements, each consisting of a hollow plastic body with lugs for fastening elements, formed by the side surfaces, the upper edge and the bottom, while the platform is equipped with elongated limiters, each having an eye at each end connected to one, for example , by means of a threaded plastic fastener with the corresponding extreme eye of the extreme buoyancy modulus of one layer, and the other with the corresponding extreme eye of the extreme buoyancy modulus of the adjacent layer. In this case, the elongated limiters can be made of metal, for example, steel, corner profiles. 1 w.p. f-ly, 1 ill.

Description

The utility model relates to floating multilayer platforms intended 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 utility model is a multilayer platform selected as a prototype, containing buoyancy modules connected by fastening elements, each consisting of a hollow plastic body with lugs for fastening elements, formed by side surfaces, the top edge and the bottom (RF patent No. 2757140, published 10/11/2021).

The disadvantage of the prototype, including a technical problem, are insufficient reliability of the multilayer platform due to the shift of the layers relative to each other at high loads.

The technical result achieved by the proposed utility model is to increase reliability by eliminating the shift of layers relative to each other.

The stated technical result is achieved by the fact that the multilayer platform containing the buoyancy modules connected by the fastening elements, each consisting of a hollow plastic body with lugs for the fastening elements, formed by the side surfaces, the upper face and the bottom, is equipped with elongated limiters, each having an eyelet at each end. , connected one with the corresponding extreme lug of the extreme buoyancy modulus of one layer, and the other with the corresponding extreme lug of the extreme buoyancy modulus of the adjacent layer. In addition, in a multilayer platform, elongated limiters can be made of metal corner profiles.

In FIG. 1 shows a multilayer platform, a general isometric view,

in fig. 2 shows an elongated limiter in the form of a metal corner profile, a general isometric view.

The multilayer platform contains buoyancy modules 2 connected by fastening elements 1, each consisting of a hollow plastic body 3 with lugs 4 for fastening elements 1, formed by side surfaces 5, upper face 6 and bottom 7, while the platform is equipped with elongated limiters 8, each having an eye at each end, connected one (eye 9), for example, by means of a threaded plastic fastener 10 with the corresponding extreme eye 4 of the extreme buoyancy module 11 of one layer 12, and the other (eye 13) with the corresponding extreme eye 4 of the extreme buoyancy module 14 of the adjacent layer 15. In this case, the elongated limiters 8 can be made of metal, for example, steel, corner profiles 16 (see Fig. 2). In addition, layers 12 and 15 can additionally be fastened with threaded studs 17, and the outermost lugs 4 of the outermost modules in layers (namely, modules 11 in layer 12 and modules 14 in layer 15) can be interconnected by threaded plastic fasteners 10.

The multilayer platform works as follows.

The platform is assembled into a single structure from extrusion-blow molded buoyancy modules 2, 11 and 14 by connecting the lugs 4 of hollow plastic cases with 3 fasteners 1, threaded plastic fasteners 10 and together with the latter with elongated limiters 8 connecting layers 12 and 15, as well as additionally threaded studs 17.

Thus, in this technical solution, the connection of the buoyancy modules 2 with the fastening elements 1 and the additional fastening of the layers 12 and 15 to each other by the limiters 8 by means of, for example, threaded plastic fasteners 10 improves reliability by preventing the layers 12 and 15 from shifting relative to each other.

Analysis of the claimed technical solution for compliance with the terms 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 (supertotal) technical result.

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

the object embodying the claimed technical solution refers to multilayer platforms designed for special purposes and consisting of buoyancy modules 2, the bodies 3 of which are made of plastic material and are connected by fastening elements 1, and the extreme modules 11 and 14 are additionally fastened with elongated limiters 8 holding layers 12 and 15 from shifts;

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

an object embodying the claimed technical solution, in its implementation, is capable of achieving the technical result perceived by the applicant.

Therefore, the claimed object, according to the applicant, meets the patentability criteria "novelty" and "industrial applicability" under the current legislation.

Claims (2)

1. A multilayer platform containing buoyancy modules connected by fastening elements, each consisting of a hollow plastic body with lugs for fastening elements formed by the side surfaces, the top edge and the bottom, characterized in that it is equipped with elongated limiters, each having an eyelet at each end , connected one with the corresponding extreme lug of the extreme buoyancy modulus of one layer, and the other with the corresponding extreme lug of the extreme buoyancy modulus of the adjacent layer. 2. Multilayer platform according to claim 1, characterized in that the elongated limiters are made of metal corner profiles.

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