RU196678U1 - Floating platform of prefabricated modules - Google Patents

Abstract

The utility model relates to the field of collapsible floating structures used as berths, pontoon crossings, platforms for the repair of hydraulic structures, for the placement of solar power panels, for cultural events, etc. and aims to reduce the mass of prefabricated modules of the floating platform and to reduce its cost. The specified technical result is achieved by the fact that in the proposed floating platform of prefabricated modules containing modular pontoons 1 having a parallelepiped shape and connected to each other by means of fingers 3 passing through holes in the eyes 2, the axis of the holes in the eyes 2 are oriented horizontally and lie in planes coinciding with the side faces, the eyes 2 are made of the same width and are spaced at an interval equal to their width; on adjacent faces of the modular module, the position of the eyes 2 is shifted by an amount equal to its width On the edge, and on the edges of the upper and lower faces, recesses are made for the eyes of 2 adjacent prefabricated modules, and the width of the corner eyes 2 is reduced by an amount equal to half the thickness of the eye 2. The prefabricated modules are made in the form of regular hexagonal prisms 1.

Description

The utility model relates to the field of collapsible floating structures used as berths, pontoon crossings, platforms for the repair of hydraulic structures, for the placement of solar power panels, for cultural events, etc.

Known collapsible floating berth (USSR AS No. 659450, MKI BV 35/44, publ. 04/30/1979), consisting of a group of separate floating elements (modular pontoons) in the form of a parallelepiped, interconnected by attachment points located at the corners in the upper and lower parts of the floating elements, the attachment points are made in the form of a group of eyes with holes and connecting elements (fingers), the eyes are arranged alternately in height at each corner of the buoyancy element and are interconnected by connecting elements passed into the opening eyelets Ia. Additionally, the berth is equipped with fasteners located at the bottom of the floating elements at its corners and made in the form of a group of eyes with holes located in height in the opposite order with respect to the eyes of the upper part of the floating elements, each connecting element (finger) is made in the form of a rod with conical guides and cylindrical mounting surfaces mating with the holes of the eyes of the upper and lower parts of the floating elements.

The disadvantages of the analogue include the need to combine eyelets in height. The maximum displacement from the upper face of the pontoon is three eye thicknesses and the same displacement is necessary from the side of the lower face, which leads to a decrease in the bending moment of the assembly.

Known prefabricated floating platform containing modular pontoons having the shape of a parallelepiped and connected to each other by fingers passing through holes in the eyes placed at the corners of the pontoons and in the middle of the side faces, the outer surface of all the eyes is flush with the upper and lower faces of the modular pontoon, having recesses in the corners and on the side faces for placement of the liners, in the form of cylinders with vertical holes matching the holes in the eyes, while the surface is deepened and corresponds to the outer surface of the liners (RF Patent No. 2672407, IPC EV 02/00, publ. 11/14/2018).

According to the number of similar features and the achieved result, this technical solution is selected as a prototype of the proposed floating platform.

The disadvantages of the prototype include: the presence of additional liner parts, which reduces the loading capacity of the platform and increases its cost, the load on prefabricated floating modules is distributed over a small number of connecting elements, which increases their mass and uneven stress state of the structure.

The technical result, the achievement of which is proposed by the proposed utility model, is to reduce the mass of prefabricated modules of the floating platform and to reduce its cost.

To achieve the specified technical result in a floating platform made of prefabricated modules containing modular pontoons having a parallelepiped shape and connected to each other by fingers passing through holes in the eyes, the axis of the holes in the eyes are oriented horizontally and lie in planes coinciding with the side faces, the eyes made of the same width and spaced at intervals equal to their width, on adjacent faces of the modular module, the position of the eyes is shifted by an amount equal to its width, and on the edges of the top recesses for the eyes of neighboring prefabricated modules are made, and the width of the corner eyes is reduced by an amount equal to half the thickness of the eye.

In addition, the claimed technical solution has an optional feature characterizing its particular case, namely:

- prefabricated modules are made in the form of regular hexagonal prisms.

Distinctive features of the proposed design from the above known, closest to it, are the horizontal orientation of the axes of the holes in the eyes and their location in planes coinciding with the side faces of the assembly module, eyes having the same width are distributed along the perimeters of the upper and lower faces with an interval equal to the width of the eyes the implementation of the recesses on the adjacent sides of the module in place of the eyes, reducing the width of the corner eyes by an amount equal to half the thickness of the eye.

The proposed utility model is illustrated by the drawings shown in FIG. 1-4.

In FIG. 1 shows a plan of a floating platform consisting of square precast modules.

In FIG. 2 is a cross section of a junction of two prefabricated modules. In FIG. 3 is a plan of a floating platform of hexagonal precast modules.

In FIG. 4 is a cross-sectional view of the assembly site of the prefabricated modules with a horizontal plane passing through the axis of the fingers.

The floating platform of prefabricated modules consists of modular pontoons 1 with eyelets 2 and fingers 3.

The proposed design works as follows.

Installation of a floating platform: when the platform reaches the size of 3 × 3 modules, first of all they install modular pontoons 1 in the middle of the sides, for which connecting elements, for example, pins 3, designed for these modules 1, are moved through the holes of the eyes 2 of the corner modules 1. Corner modules 1 mount last. If necessary, the fingers 3 can be equipped with devices, for example, cotter pins, to prevent their spontaneous creep out of the holes of the eyes 2.

When installing a floating platform of modular pontoons 1 made in the form of regular hexagonal prisms, fingers 3 immediately occupy the working position. In addition, the mass of the hexagonal modular pontoon 1 is approximately 7.5% less than the mass of the square modular pontoon 1 with the same displacement.

Thanks to this design, the mass of the floating platform from prefabricated modular pontoons 1 is less than that of the prototype due to the uniform distribution of the load along the perimeter of the horizontal faces and the reduction of the cross sections of the eyes 2 and fingers 3.

Claims (2)

1. A floating platform of prefabricated modules, containing modular pontoons 1 connected to each other by means of fingers 3 passing through holes in the eyes 2, characterized in that the axis of the holes in the eyes 2 are oriented horizontally and lie in planes coinciding with the side faces, the eyes 2 are made of the same width and spaced at an interval equal to their width; on adjacent faces of the modular module, the position of the eyes 2 is shifted by an amount equal to its width, and recesses for the eyes 2 are made on the edges of the upper and lower faces ednih prefabricated modules, and the angular width of the lugs 2 is reduced by an amount equal to half the thickness of the eyelet 2. 2. The floating platform according to claim 1, characterized in that the modular pontoons 1 are made in the form of a parallelepiped or regular hexagonal prisms.

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