RU195221U1 - Prefabricated floating platform - Google Patents

Abstract

The utility model relates to the field of floating collapsible structures used as berths, pontoon crossings, platforms for the repair of hydraulic structures, for the placement of solar power panels, etc. and is aimed at increasing the strength and rigidity of the floating platform. The technical result is achieved by the fact that in the proposed floating platform of prefabricated elements containing modular pontoons made in the form of regular hexagonal prisms, attachment nodes consisting of plates with teeth directed towards the upper and lower faces and connecting rods passing through the holes in the plates, the upper end of the rods is made in the form of a conical head, and the lower end is equipped with a latch, holes in the upper the holes are made in the shape of a cone, inside the prefabricated elements 1, at the intersection of the lateral and horizontal faces, tides with blind holes open to the outside are made, the plates are equipped with spikes 4 of cylindrical shape with pointed ends, a thread is cut at the lower end of the connecting rod 5, the corresponding thread is cut in the lower hole plates 3, bearing pads under the plates on the upper face of the prefabricated elements 1 are located below the surface by an amount equal to the thickness of the plates, the fastening nodes of the prefabricated elements are placed on the perimeter of the platform equipped with pads 7 for supporting the upper 2 and lower 3 plates, to protect the precast elements 1 from damage and fastening the racks of the rail 8. The precast elements 1 can be made in the form of parallelepipeds.

Description

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

Known floating platform, according to the patent of the Russian Federation No. 2508225, MKI: B63B 35/44, publ. 02/27/2014, containing floating elements made in the form of parallelepipeds, at the corners of which eyes are placed parallel to the middle surface, adjacent eyes are shifted in height by an amount equal to the thickness of the eye. The eyes of adjacent floating elements located inside the structure are connected by means of mushroom fingers, and the peripheral eyes with bolts. To increase the rigidity of the assembled assembly, additionally, protrusions and depressions are engaged on each side on the side faces of the floating elements.

The disadvantages of the analogue are the low bending stiffness of the assembled structure, if we consider it as a plate on an elastic base, since the eyes that accept tensile loads are located near the middle surface of the plate. With a certain combination of loads, for example, their location not on adjacent floating elements, the formation of cracks on the upper surface of the platform is possible, which leads to a deterioration in the performance of the structure.

Known berth (RF Patent No. 2356778, IPC V02B 35/34, published May 27, 2009) containing conjugate floating modules (floating elements) made in the form of regular hexagonal prisms made of a composite material consisting of a polyurethane shell and located inside it pressed foam. Adjacent floating elements are interconnected by means of fasteners, including plates with teeth bent towards the horizontal faces of the module and connecting rods placed in the conical recesses of the plates, the upper end of the rods equipped with conical heads, and the lower latches.

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

The disadvantages of the prototype include: low bearing capacity of the mount, which in this design is limited by the depth of the teeth into the surface, the flexural rigidity of the plates and the force of pressing the plates to horizontal edges.

The technical result, which the proposed utility model is aimed at, is to increase the strength and rigidity of the floating platform.

To achieve the specified technical result in a floating platform made of prefabricated elements containing modular pontoons made in the form of regular hexagonal prisms, attachment nodes consisting of plates with teeth directed towards the upper and lower faces and connecting rods passing through the holes in the plates, the upper end the rods are made in the shape of a conical head, and the lower end is equipped with a latch, the holes in the upper plate are made in the form of a cone, inside the prefabricated elements at the intersection of the lateral and of tonal faces, tides with blind holes open to the outside are made, the plates are equipped with spikes of cylindrical shape with pointed ends, a thread is cut at the lower end of the connecting rod, the corresponding thread is cut in the hole of the lower plate, bearing pads under the plates on the upper face of the prefabricated elements are located below the surface by an amount equal to the thickness of the plates, the fastening nodes of the prefabricated elements located around the perimeter of the platform are equipped with overlays for supporting the upper and lower plates, for protection s prefabricated elements from damage and mounting struts guard rail.

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

- prefabricated elements are made in the form of parallelepipeds.

Distinctive features of the proposed design from the above known, closest to it, are the tides inside the prefabricated elements at the intersection of the side and horizontal faces with blind holes open to the outside, equipping the plates with spikes of cylindrical shape with pointed ends, equipping the lower end of the connecting rod with threads and the corresponding the thread is cut into the hole of the lower plate, the placement of supporting platforms under the plates on the upper face of the prefabricated elements below the surface of the of a face by an amount equal to the thickness of the plates, equipping the fasteners of the prefabricated elements located around the platform perimeter with overlays to support the upper and lower plates, to protect the pontoons from damage and fasten the racks of the rail rails.

Due to the presence of these features, the proposed design of the floating platform provides a reduction in the bending load on the plates of the connecting unit due to the placement of spikes in the holes of the tides, which is equivalent to a rigid termination of the ends of the plate, and modern technologies make it possible to achieve the required manufacturing accuracy. These design features increase the bearing capacity of the floating platform.

The proposed utility model is illustrated by the drawings shown in FIG. 1-5.

in FIG. 1 shows a floating platform of prefabricated elements of regular hexagonal prisms, top view;

in FIG. 2 is a cross-sectional view of the attachment point of a horizontal plane extending below the abutment area of the upper plate;

in FIG. 3 - section of the assembly of fasteners of prefabricated elements with a broken vertical plane passing through the axis of the spikes and the connecting rod;

in FIG. 4 is a cross-section of the attachment point of the external prefabricated elements with a broken vertical plane passing through the axis of the spikes and the axis of the connecting rod;

in FIG. 5 is a cross-sectional view of the attachment point of the external prefabricated elements with a horizontal plane flush with the bottom surface of the upper plate.

The floating platform made of prefabricated elements contains modular pontoons of hollow elements 1 made in the form of regular hexagonal prisms or parallelepipeds, the mounting unit including the upper 2 and lower 3 plates equipped with spikes 4 of cylindrical shape with pointed ends, a connecting rod 5 made in the form of a screw with a conical head and a washer 6 fixed at its lower end, pads 7 for connecting the outer elements of the floating platform and protect the latter from damage when bulk ships, rack rails o fencing 8.

The proposed floating platform works as follows.

For mounting the floating platform, the lower plate 3 is first moved by turning to the end of the connecting rod 5 (screw) until it stops in the washer 6. Then four prefabricated elements 1 are pressed against each other while placing the connecting rod 5 in the center of the formed square. Next, the spikes 4 of the upper plate 2 are inserted into the holes located in the corners of the prefabricated elements 1, after which the spikes 4 of the lower plate 3 are combined with the holes of the prefabricated elements 1 by rotating the connecting rod 5 and, lifting the connecting rod 5, push the spikes 4 into the holes.

Then, rotating the connecting rod 5 tightly press the upper 2 and lower 3 plates to the horizontal faces of the prefabricated elements 1. The remaining prefabricated elements 1 are docked to the floating platform in a similar manner.

To attach the prefabricated elements 1 located around the perimeter of the floating platform using pads 7, which also play the role of fenders. The racks of the guard rail 8 can be equipped with flanges, which are attached to the upper plate 3 using bolts screwed into the threaded holes in the spikes 4.

Claims (2)

1. A floating platform of prefabricated elements, containing modular pontoons made in the form of regular hexagonal prisms, attachment nodes consisting of plates with teeth directed towards the upper and lower faces and connecting rods passing through the holes in the plates, the upper end of the rods is made the shape of the conical head, and the lower end is equipped with a latch, the holes in the upper plate are made in the shape of a cone, characterized in that inside the prefabricated elements (1) at the intersection of the lateral and horizontal faces tides with blind holes open to the outside, the plates are equipped with spikes (4) of cylindrical shape with pointed ends, a thread has been cut at the lower end of the connecting rod (5), the corresponding thread has been cut in the hole of the lower plate (3), bearing pads under the plates on the upper the faces of the prefabricated elements (1) are located below the surface by an amount equal to the thickness of the plates, the fasteners of the fasteners of the prefabricated elements located along the perimeter of the platform, equipped with overlays (7) to support the upper (2) and lower (3) plates, to protect the teams elements (1) from damage and fastening racks rails (8). 2. A floating platform of prefabricated elements according to claim 1, characterized in that the prefabricated elements (1) are made in the form of parallelepipeds.

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