ITRM940753A1 - INSULATION SYSTEM FOR SPHERICAL TANKS INTENDED TO CONTAIN REFRIGERATED LIQUIDS - Google Patents

Abstract

The invention refers to an insulation system of a spherical tank (1) intended for the containment of refrigerated liquids, consisting of panels (4), which are fixed on the surface of the spherical tank (1) supported roughly in the equatorial plane ( 5) on an annular support (2). On the upper edge of the insulation of the lower hemisphere of the spherical tank (1), between the surface of the spherical tank and an insulation on the internal side of the support (2) of the tank, shaped elements are inserted (6) and the passage of the insulation on the internal side of the support (2) of the tank and the adjacent panel of the insulation of the lower half of the spherical tank (1) is elastically shaped in a peripheral direction from the Equator to the South Pole.

Description

DESCRIPTION

accompanying a patent application for an invention entitled:

"Insulation system for spherical tanks intended to contain refrigerated liquids"

The invention relates to an insulation of a spherical tank intended to contain refrigerated liquids according to the preamble of claim 1.

A conformation of this kind is known from the publication JP-OS 52-45 721. In the known arrangement the slats, which represent the elastic passage, are folded into a v-shape and fixed with one of their ends to the edge of the insulation panels in the hemisphere area. with their other ends to the internal insulation of the tank support. In the event of thermal movements due to temperature differences, the slats can therefore roll up or unwind.

The object of the invention is preferably used for spherical tanks for the storage or transport of chilled liquids on board ships. The support of the spherical tank takes place on an annular surface / firmly connected approximately in the equatorial plane by welding with the spherical tank, a support which is also called "apron". The structure of suitable panels for insulation and their mounting on the surface of the spherical tank are known for example from publications DE 35 28 776 C2 - or DE 31 08 801 - C2 - and from other publications. The panels of an insulation for large temperature differences preferably consist of a polystyrene or polyurethane foam.

In the operating state the spherical tank and the insulated part of the flatter cylindrical support of the tank are therefore contracted with respect to the initial warm state during assembly. Since the tank support is hot below the insulating cover in accordance with the ambient temperature, the insulation on the spherical tank moves away from the internal insulation of its support, so that a shift occurs between both insulations. This displacement amounts, for example, to a spherical tank diameter of 40 meters and a methane content, liquefied by cooling, to approximately 90 mm. A displacement of this kind compromises the insulation and can cause it to be damaged at this point, which can cause in certain circumstances

catastrophic consequences.

Consequently, the invention has set itself the task of consenting to the passage of the panels. applied externally on the lower half of the spherical tank, of the insulation and of the internal insulation of the tank support movements depending on the temperatures, which do not have any negative influence on the effect of the insulation.

The invention solves this task by means of the conformation characteristics according to claim 1.

The structural elements, provided according to the invention in correspondence with the passage, are made of the same insulating material as the prefabricated panels, which are used for the assembly of the insulation of the spherical tank. line prefabrication of these structural elements is equally achievable in an economical way. Said blocks preferably consist of rigid expanded polystyrene and possibly partially elasticized polystyrene. The slats of the pack are instead made only of an elasticized polystyrene. During assembly, one of the two blocks is glued with the internal insulation of the tank support respectively with the shaped elements, while the other of the two blocks is glued with the front surfaces of the panels on the upper edge of the insulation of the lower half of the spherical tank. In addition, other fastening means can be used, for example a bolt fastening. Thus, the slats are applied one after the other with elastic deformation and their ends are glued on the front surfaces with the blocks, whereby the slats touch in the pack with their surfaces and are displaceable relative to each other. 'other. Preferably, the lamellas have a greater length than the mutual distance of the blocks, to make possible a better expansion movement. In the circumferential direction of the spherical tank, the lamellae are arranged in offset of the union lines, so that a kind of labyrinth seal is formed on the entire peripheral circumference of the sphere.

Advantageous features of conformation also result from claims 6 and 7.

An example of embodiment is schematically illustrated in the drawing, in which:

Figure 1 shows a spherical tank half in view and half in vertical section of a polar plane;

Figure 2 is a vertical section, on a larger scale than Figure 1, through the support of the spherical tank in a support;

Figure 3 shows on a further enlarged scale with respect to Figure 2, the conformation of the passage according to the invention in the hot state;

Figure 4 represents the same view as Figure 3, but in the cold state e

Figure 5 shows a diagram of the arrangement of the blades in a conformation according to the invention.

From the schematic illustration of figure 1 it is possible to see the support of a spherical tank 1 intended for the containment of chilled liquids on a support 2, annularly surrounding the lower half of the sphere in a certain height area, support whose upper edge is connected by means of the welding in the equator with the spherical tank 1. The insulation of the spherical tank 1, accessible through an upper dome 3. is mounted of prefabricated panels 4, which are arranged in rows on top of each other and in rows with the lines of union staggered between them. The structure of these insulating panels 4 made of an appropriate insulating material does not constitute the object of the invention and is described in abundance in other publications. The insulation constituted by the panels 4 of the upper half of the spherical tank 1 continues in the Equator 5 on the external side of the annular cylindrical support 2 in a certain height area, as can be clearly seen in Figure 1 and in particular also in Figure 2. The insulation of the lower half of the spherical tank 1 also consists of panels 4. Furthermore, an insulation of prefabricated shaped elements is applied to the internal side of the apron 2. 6. The passage of the upper position of the insulation panels of the other half of the spherical tank 1 and of the opposite of the shaped elements 6 consists of lamellae 7, which are layered on each other starting from the center of the spherical tank in a free way radially outward and of a first block 8, which is fixed to the shaped element 6, as well as of a second block 9, which is fixed to the front surfaces of the adjacent Damages of the upper Damper layer in the insulation of the the lower half of the spherical tank. The front surfaces of the slats 7 are glued to these blocks 8 and 9. The surfaces in contact with each other of the slats 7 rest freely on each other. During assembly, first the blocks 8 and 9 are glued to the shaped element 6 respectively to the opposite panel 4, so that the slats 7 are introduced one after the other with the elastic deformation between the blocks 8 and 9 and their surfaces side, adjacent to the blocks, are glued to the latter. The slats 7 have a greater width with respect to the mutual distance of the two blocks, however they are glued to the fastening surfaces of both blocks with the lateral surfaces extending perpendicularly to the extended width of the slats. In the peripheral direction the lamellae are arranged among themselves with the junction lines offset, so that in the peripheral direction a kind of labyrinth seal is formed. On the side of the tank and on the external side, a vapor blocking element 10 is fixed, which covers the lamellae 7, for example an aluminum foil. Furthermore, a sheet metal cover 11 is arranged on the external side, which protects protectively the passage between the shaped elements 6 and the panel of the upper layer of the insulation panels on the lower half of the spherical tank and has expansions compensation. Figure 3 illustrates the transition to the hot state in connection with mounting. Figure 4 shows the transition to the operating state, when the container cooled by the load is contracted with the insulation fixed to its lower half towards the center of the sphere.

Claims (4)

CLAIMS 1. Insulation system of a spherical tank intended to contain refrigerated liquids consisting of panels that are fixed on the surface of the spherical tank resting approximately in the equatorial plane on an annular support in which in the passage of the upper edge of the insulation of the lower hemisphere and an insulation are provided with shaped elements inserted on the internal side of the annular support of the tanks and an elastic connection of overlapping lamellae in layers between these shaped elements and the upper edge of the panels of the insulation of the lower hemisphere, characterized in that the lamellae (7) of the elastic connection are fixed with one side of them to a first block (8), which is connected with the shaped elements (6) and with their side parallel to the first to a second block (9), which is connected to the upper edge of the with the lower hemisphere of the spherical tank (1) with the adjacent panels (4), the slats (7) having a greater width than the distance of the two blocks {8, 9) however they adhere with lateral surfaces, extending perpendicularly to the extended width, to the fixing surface of both blocks {8, 9). 2. Insulation system according to claim 1, characterized in that the longitudinal sides of the slats (7) are glued to the blocks (8, 9). 3. Insulation system according to claims 1 and 2, characterized in that the lamellae (7) are arranged with each other with their union lines offset in the circumferential direction of the spherical tank (1). 4. Insulation system according to claims 1 to 3, characterized in that the stack of lamellas (7), freely overlapping each other, is covered on the side of the tank and on the external side by means of a steam blocking element (10 ). 5- Insulation system according to 1; claims 1 to 4, characterized in that the elastic passage between the shaped elements (6) and the panels (4) has on the lower half of the surface of the spherical tank a sheet cover (11) with means for compensating for the expansion.