SE429950B - Partially submersible float - Google Patents

Abstract

Partially submersible float comprising a module made up of a tightly closing container provided with ballast, and arrangements to vary the ballast. A frame arrangement is arranged on the container and is partially submersible during use. A horizontal tyre is supported by the upper portion of the frame arrangement. The lower part of the float, which is formed by the closed container, has the shape of a body of rotation provided with a central opening. The container which has been sealed in a water- tight manner is provided with partition walls arranged therein and forming several corresponding tanks 19, 20. Some of the partition walls form torus-shaped spaces, coaxial with the axis of rotation, thereby delimiting a plurality of annular spaces. <IMAGE>

Description

2 a2o1oz4 ~ 9 with reference to the accompanying drawings, in which fig. Fig. 1 is a sectional view schematically showing the design of a floating element or module having the shape of a truncated egg; Fig. 2 schematically shows a section of an embodiment of a floating element or module with a bridge; 3 is a plan view of assembled elements or modules constituting a floating body, fig. Fig. 4 is a view of a vertical section along the line IV - IV in Fig. 3 of several composite elements or modules, Fig. S is a perspective view of an embodiment of a rack device supporting the bridge, Fig. 6 is a perspective view of another embodiment of the frame device, Fig. 7 is a view of a section along the line VII - VII in Fig. 4, fig. Fig. 8 is a view of an axial section of an embodiment of a partially submersible floating body with spherical container and Fig. 9 is a view of an axial section through another embodiment of a floating body according to the invention. Figures 1 and 2 show schematically a partially submersible floating body module or element which has substantially the shape of an egg with the axis rxl at both ends truncated in two horizontal planes yyl and zzl, said module having an annular shape and thus is limited by an inner side 4 and an outer side 3 to form in its inner part a closed waterproof container 1 with variable ballast and at its upper part provided with a truss frame 2, which is partially submerged below the water surface and which at its upper part carries a horizontal bridge 6 ('(fig. 2)) g The lower part of the floating body, which consists of the closed container, has a centrally located well, which at the top opens in the direction of the frame 2 and at the bottom through an opening 5 is connected to the water Figures 3 and 4 show in more detail several modules or elements assembled into an unsinkable floating body, which modules are joined at their central portions by means of a truss 28, 29, 40 (Fig. 4, 7).

The bridges, which preferably have a hexagonal shape, consist of a superstructure with several decks, of which the uppermost deck is indicated by 7, and the decks have a central well 32, which allows the lowering of cargo from said deck 7. The truss frame 2 (Figs. 4 and f) is formed by an inner network consisting of tubular elements 8 connected to each other in points or knots 9 and a outer network consisting of tubular elements 10 connected to each other in points or knots lll 'The knots 8 and ll are hollow metal balls, 1 which openings are taken up where the ends of the tubular elements are welded fast. It is also possible to make the points by welding the ends of the tubular elements together. The knots are placed on the common meridians of the surfaces 3 and 4.

Figure 4 is a section along one of the meridians and shows the arrangement of the knots in each meridian, said device having an embodiment. Thus, along the meridian, the tubular connecting elements are formed, which are dependent on the variation of the thickness of the frame. in the intermediate network 12 together a tubular girder formed by a curved stack of substantially four-sided panes, each of which is provided with a tubular connecting element 13 along its diagonal.

Fig. 6 shows another embodiment of the frame 2, in which the lower side 4 is framed by meridians and parallels. The nodes 9_är As far as the nodes 3 are located at the intersection points in said grid system. ll in the network on the outside; then they are placed on the outside the top of the substantially regular pyramids, which are formed by the tubular elements 12 of the intermediate network, and whose bases are màumönñnganmi said ruis system. The internal network and the external network are both designed by means of a tubular grid system between the respective nodes.

The waterproof container of a module (figure 4) is divided into a set of toroidal tanks, the axis of symmetry of which is constituted by the axis xxl in the module. These tanks 14, 15, 16, 17, 18 are inserted between tanks 19, 20, Z1 which have larger dimensions and the boarding of the container.

The tank 21 is adapted to the interior of a ballast member 23, which is preferably made of prestressed aerated concrete. The volume of the torus spaces is radially divided so that said tanks form a plurality of chambers in the form of a divided torus space.

The spaces in the ballast means 23 are used as functioning underwater means and are therefore pierced at their base by a well 24, which is in communication with the surroundings. Each of these spaces is directly connected to the bridge 6 on the module by means of a connecting line 25, which leads to a screen 33.

Some of these spaces are provided with chambers 18, in which electric motors or explosion motors are mounted, each of which drives a movable propeller 31, which is adjustable in different directions to enable pivoting of the floating body, both in terms of the propulsion of the module and its dynamic mode setting. 3201034-9 are iThe various pipelines, actuators and other means installed between the container 1 and the bridge 6 have their location inside the elements of the truss frame 2, which ensures them protection against waves and currents. 7 _ Several degrees deep are possible. What is indicated by the arrow A in Figure 4 'is intended for navigating the composite floating body in ocb for a rapid achievement of a distant target. It also allows the formation of a calm water reserve in the concavities of its container 1 to provide protection to ships, when the sea is not too agitated. Arrow B 'indicates the minimum draft when the wells 5 in the modules are blocked by gates, which thereby allow emptying of said reserves of calm water by means of pumping. This minimum draft is used when traveling with the composite buoyancy in shallow water, during its construction or when its container is to be inspected. 1. The arrow D indicates the draft in normal use in a partially submerged position. ' Figure 7 shows a floating body equipped with a central well 26 between the modules, of which it is composed. This well 26 is rigidly attached to the bridge of the floating body and to the girder of tubular struts 28, 29, 30 schematically shown in Figure 7 by the volumes they occupy; and respectively connecting each of the float module to the adjacent ones. The well 26 allows an immersion from the bridge 6 in an enclosure of calm water, which is protected from the currents.

Said well may be equipped with a telescopic member mounted therein, which is provided with devices by means of which it can be automatically extended or retracted into said well. The purpose of the well 26 is to allow a direct connection with the seabed.-. According to the invention, the construction is carried out by a module in deep water on a base consisting of sections as a foundation, which gradually, gradually as the work progresses, sinks under the growing weight of the structure. The washbasin-like design of the container 1 provides a great stability of the bed in that it enables a significant part of the interior of said vessel to be kept dry due to the well 5 being kept closed by the substrate. In addition, the tanks in the said reservoir are utilized as they are mounted as floats. The building of the composite floating body is completed, after which the fastening of the modules to each other takes place.

The floating body according to the invention can be used when resting on the bottom; and to accomplish this, the tanks 21 are filled with water and later used for storing liquids. It can thus be placed on a continental shelf and in deep water at the same time serve as an oil port, as an artificial island for the installation of industrial complexes or for tourism, and as a fish farming facility in the surrounding environment. utilization is made possible by setting up nets along the truss- The latter stand in its modules.

In deeper water, a similar use can take place by usual anchoring or by freely movable placement of the floating body and in this case the wells S can be blocked with nets. fish supply, the surface water is enriched with nutrients by creating an artificial upstream. To achieve this, a pump system is installed in the well 26 provided with a telescopic extension to cause the cold water at the seabed, which is rich in nutrients, to rise to the surface. It is advantageous to connect this artificial upwelling with the production of thermal electrical energy; whereby the temperature differences at different depth levels in the oceans are utilized.

An electric power station for such a purpose is installed in one or more tanks. If the power plant operates with freon or ammonia, it is advantageous to install existing capacitors in its upper part and evaporators in its lower part. This is so that the pressure differences between these two levels and between the environment and the gas at such a large immersion of the liquid body, which is compatible with its stability, will be as small as possible, so that thus the wall thickness in said heat exchanger can be reduced to a corresponding degree. . In fact, this reduction in pressure allows, on the one hand, the thermal yield of the heat exchangers to be improved and, on the other hand, the considerable cost of producing titanium to reduce the corrosive effect of seawater.

The cold water is caused by pumping to rise into the well 26 and its extension and then it is passed into the condensers by means of drainage channels placed at the level of the contact points of the upper edges of the reservoirs with said well 26. After circulating in the condensers the water is discarded out of the tanks via adjustable pipe nozzles enabling the operation of the float.The same is the relationship with the hot water, which is pumped_up at the surface and which is channeled to the evaporators through pipelines, which are attached to the storage container concave portion.The electrical energy produced by the turbo generators installed at evaporators The feed end was used to produce hydrogen by electrolysis of the seawater, and the spaces in the reservoirs were equipped to store this gas in liquid form.

In deep water with little re 8201034-9 -An interesting area of use for the floating body according to the invention is to use it as a basis for the collection and treatment of non-metallic nodules with which the seabed is flooded in certain areas; Figure 8 shows a partially submersible floating body of the type described above and including a closed container 1 which is waterproof, has a variable ballast 23 in its interior and on which a stand with pillars 34 is fixed in its upper part supporting a horizontal bridge 6. The container 1 is normally submerged below the water surface, while the pillars 34 in the frame are partially submerged. The container 1 is bounded by an outer wall 35 consisting of a spherical zone, the center CL 'of which is located on the axis of symmetry xx1 of the container, and of an inner wall 36 consisting of a spherical zone, the center of which is located on the axis of symmetry xx1 of the container, the respective geometric centers CX and ¿á of the spherical zones are located on the geometric axis at a mutual distance which is less than 1/8 of the radius of the outer wall.

The center C of the underwater hull is located on the axis of symmetry below the geometric centers OÅ and ß. '' If the weight were concentrated in the center C of the hull, the body would be statically balanced and would be subject to free rolling as a result of the impact of the waves. However, due to the displacement of its center of gravity G to a point below the center of the hull, the buoyancy body is unbalanced and pivots like a pendulum about an axis of rotation, with which movement the natural period of oscillation is associated. g The floating body is provided with solid ballast, preferably of concrete (Figures 8 and 9), which in part contributes to the necessary stabilizing moments to keep the bridge 6 in a horizontal position. is not generally divided by the container into a plurality of toroidal spaces 37 (Figure 8) in coaxial arrangement with the symmetrical portion xx1 of the container 1 or a plurality of cylindrical or annular spaces 38 (Figure 9) joined to at least one toroidal space. The inner partition 36 defines a hemispherical cavity 39, which is open in its upper part with its concavity directed towards the plane of the water surface and which opens into the lower part of the container 1 through a well S.

In the embodiment shown in Figure 8, the floating body is anchored to the bottom by means of cables 40 attached to anchoring bodies 41. Attached to the seabed. Figure 9 shows a floating body in which the truss construction 820103lf ~ 9 has the shape of a truncated cone and consists of a sparse damper , and 7 comprises two networks of tubes each composed of columns 42, 42a whose axes coincide with the directories of the truncated cone and which are interconnected by means of horizontal tubular struts 43.

Inclined tubular struts 43 connecting the two networks hold them rigidly in place between them. On the other hand, this type of construction allows the placement of large diameter pillars 34 between the two truss nets, which pillars make the top of the container easily accessible from the bridge.

It is possible to mount groups of drive motors 45 (Figure 9) on the container around its circumference, which allow it to move and pivot independently. These drive units are rotatably mounted each on its vertical axis and allow operation in any direction.

Of course, various modifications may be made by those skilled in the art to those devices and methods described by way of non-limiting example only, without departing from the scope of the invention.

Claims (7)

820.1-034-9 PATENT REQUIREMENTS 1. _. Partially submersible floating body, consisting of a module made up of a medallast ballast, tightly closed container, means for varying said ballast, a rack device arranged at the container, which rack device is partially submersible in use, and a horizontal deck which is supported by the upper part of the frame device, characterized in that at least the lower part of the floating body formed by the closed container is in the form of a rotating body provided with a central cavity, that the watertight closed container (1) is provided with partitions arranged therein forming several corresponding tanks (19, 20), and that some of said partitions form toroidal spaces (19, 20) coaxial with said axis of rotation, thus limiting a plurality of annular spaces. A floating body according to claim 1, characterized in that some of the partitions are arranged to radially divide the annular spaces to form spaces in the form of cut pieces of a ring. A floating body according to claim 1, characterized in that some of the spaces (19, 20) delimited by partitions constitute reservoirs for collecting in various media in the form of liquids or gas. A floating body according to any one of claims 1 and 3, characterized in that certain delimited spaces (23) constitute ballast tanks intended to contain water from the surroundings and arranged to be emptied by injection of compressed air. 5. A floating body according to claim 1, characterized in that the frame device (2) is perforated and consists of a pipe body (8 - 13) which consists of at least a three-dimensional truss construction. Floating body according to claim 5, k ä n n e t e c k n a d d ä r a v ,. that the pierced frame device nixigen (2) has the shape of a truncated cone. ' Floating body according to claim 5, characterized in that the frame device (2) has the shape of the pointed end part of an ovoid.