RU2536473C2 - Beam assembly and intermediate element - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: beam assembly and a spacer element are designed for a reservoir. The reservoir comprises a system of beams (4), aligned at the right angle to each other ,which work in tension and are arranged in alternating horizontal layers. At least in some crossing points the beams aligned at the right angle to each other and working in tension are connected by vertical spacer elements (5) having bending stiffness and resilience when twisted. Also the spacer elements are proposed, which are suitable for such system.

EFFECT: simplified assembly of the reservoir.

7 cl, 6 dwg

Description

FIELD OF THE INVENTION

The present invention relates to reservoirs for storing and transporting fluids, such as hydrocarbons, including liquefied natural gas having a low temperature. In particular, the invention relates to reservoirs for ships and floating offshore structures that are exposed to wave loads, as well as to reservoirs for gravity (based on the seabed) offshore structures and coastal tanks that are susceptible to earthquakes.

State of the art

Tanks can have different configurations, such as spheres, cylinders, cones, shells, as well as prisms. The principal advantage of prismatic forms is that they are installed closer to each other, minimizing the volume occupied by such tanks. Simple prismatic tanks are much less structurally effective because they rely on bending to mobilize strength. Shells develop strength due to direct tension in the plane of the shell. This provides greater strength for the same amount of material.

A more effective design of prismatic forms is the inclusion of internal bonds (tensile beams). When installing internal connections as the main means of containing the internal load or internal pressure, such tanks reinforced with internal connections are comparable to sinks in terms of efficiency in a structural sense. WO 2006/001711 2 discloses such reservoirs and is incorporated herein by reference.

In addition to developing structural strength, internal connections absorb shock caused by the movement of waves. Horizontal loads applied to tensile internal bonds caused by shock waves are absorbed by the beams, and to limit the bending of the beam, they must be connected at each crossing. Beams are organized into alternating layers, where in each layer the beams are oriented at right angles to the beams of adjacent layers.

Efforts from shock waves cause an angular displacement of the internal bonds in different layers. The torques arising in the joints at each crossover will be extremely large with respect to the applied geometry of the joints if they (joints) provide rigid restraint. A solution to this problem would be very helpful.

Disclosure of invention

An object of the present invention is to provide a joint between intersecting beams at right angles in alternating layers. This connection must withstand the relative angular displacement of the beams in alternating layers and at the same time attach the beams to the transverse beams above and below. To eliminate the aforementioned hard restraint problem, the joint must have torsional ductility combined with sufficient shear strength and resistance to lateral bending.

To provide torsional flexibility in combination with sufficient shear strength and resistance to lateral bending, the invention uses a short strut joint having a cross-shaped cross section. The cross-shaped cross section may have a variable thickness and may also include holes or cuts to optimize the stress distribution with respect to strength and fatigue. The cross section can also be modified in such a way as to include three or more plates intersecting along a common axis.

Short racks can be attached by welding to one or more base plates, which, in turn, are attached to internal connections by bolts, welding, or other means.

The objective of the present invention is solved by connecting the transverse internal bonds by a sequence of short struts, flexible during torsion and rigid in bending and shear. The present invention proposes the following.

A system of beams oriented at right angles to each other, working in tension and arranged in alternating horizontal layers, for use in the tank. At least at some intersection points, the beams oriented at right angles to each other and working in tension are connected by vertical spacer elements having bending rigidity and torsional flexibility.

In this system, the beams may contain walls and shelves.

In this system, the spacers are preferably attached to the beams using bolts, welding, or any other suitable fixing means.

In this system, the spacer elements are preferably connected to the beams via the walls or shelves of these beams.

A spacer element is also proposed for use in the system described above, which has two base plates connected by a plurality of plates intersecting along a common axis, this axis intersecting both base plates.

In a preferred embodiment, the intersection of the plates has a cross-shaped cross section and preferably a common axis perpendicular to the base plates.

Brief Description of the Drawings

Other details of the invention will now be described with reference to embodiments shown schematically in the accompanying drawings, in which:

figure 1 shows a perspective view of a cross-shaped spacer element,

figure 2 shows a horizontal cross section, including a top view of the base plate,

figure 3 shows some alternative cross-sections of a spacer element,

figure 4 shows a side view of a cross-shaped spacer element,

figure 5 shows a system of cross-shaped spacer elements and beams fastened with these spacer elements,

Figure 6 shows a perspective view of the interior of a tank having a system of tensile beams.

The implementation of the invention

Figure 1 shows a perspective view of a spacer element consisting of plates 1 forming a cross-shaped short strut and two base plates 2 with holes 3 for receiving bolts for attaching the spacer element to intersecting internal connections / beams. The spacer element can be made by die forging or from welded plates, stamped or rolled profiles.

Figure 2 shows a cross-section of a spacer element, on which (section) shows a cross section of a cross-shaped short strut, one of the base plates 2 on top and holes 3 for bolts with inserted bolts.

Figure 3 shows alternative embodiments of a spacer element.

Figure 4 shows a side view of the spacer element with plates 1 forming a short strut and two base plates 2 with holes 3 for receiving bolts.

Figure 5 shows typical elements of the system of internal connections / beams 4, shown as I-beams, and cross-shaped spacer elements 5, attached to the walls of the internal connections / beams 4.

Figure 6 shows a perspective view of the inside of the tank having a system of tensile beams 4 connected by cross-shaped spacer elements 5 at the intersection points.

Claims (7)

1. A tank containing a system of horizontal beams intersecting at right angles (4) working in tension and connected at the intersection points, characterized in that at least at some intersection points, the beams oriented at right angles and working in tension are connected vertically spacers (5), which provide the possibility of relative angular displacement, while simultaneously resisting shear and bending, between adjacent beams oriented at right angles. 2. The tank according to claim 1, characterized in that the beams have walls and shelves. 3. The tank according to claim 2, characterized in that the spacer elements are attached to the walls of the beams. 4. The tank according to claim 2, characterized in that the spacer elements are attached to the shelves of the beams. 5. The tank according to one of claims 1 to 4, characterized in that the spacer elements are connected to the beams by bolts or by welding. 6. A spacer element (5) for use in the tank described in one of claims 1 to 5, having two base plates (2) connected by a plurality of plates (1) intersecting along a common axis, this axis intersecting both base plates. 7. The spacer element according to claim 6, characterized in that the intersection of the plates has a cross-shaped cross section and preferably a common axis perpendicular to the base plates.

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