DE1244212B - Heat-insulated container for storing low-boiling liquefied gases - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

PATENT LETTERING

Int. Cl .:

Number:

File number:

Registration date:

F 17 c

German class: 17g-4

I 244212
C 181471 a / 17 g December 30, 1958 July 13, 1967
October 24, 1968

Display day:

Issue date:

The patent specification differs from the patent specification

The invention relates to a thermally insulated container for storing low-boiling liquefied Gases, especially natural gas or methane, at around atmospheric pressure with an outer support wall and a plurality of plates of heat insulating material, which are arranged on the inside of the support wall and completely cover them, the panels being fastened to the supporting wall by means of screw bolts and sealed at their joints by means of seals provided on the peripheral surfaces of the plates are and a closed liquid- and gas-impermeable lining made of metal on the Front surface of the plates and over their joints is attached, according to patent 1 205 995.

The invention is based on the object of a thermally insulated container according to the main patent to the effect that cheaper insulating material can be used, and that the Sealing achieved a quality that allows it, even without special metal ao used in the container get along container.

This object is achieved according to the invention in that the lining is made with its edge sections consists of metal foils protruding on all sides over the respective plate surface, the edges of which as sections bent at the joints to form angle sections and end flange sections and with the corresponding end flange portions of adjacent plates are tightly connected, and that the metal foils have expansion sections running parallel to and at a distance from the edge sections.

There are known under an internal pressure container, the inner lining for Length compensation is provided with folds. however, there these folds do not run parallel to others Joints that serve to compensate for thermal expansion anyway. An additional balancing effect, as with the invention, can not arise here. One solution to the named problem is with these known arrangements are therefore not possible. Another known arrangement is overlaps of the lining in the area of joints. However, here the overlap becomes not attached to the part to be overlapped, so that these expansion points constructed in this way remain leaky. This arrangement is therefore also unsuitable for solving the stated problem.

The arrangement according to the invention has the advantage that despite a container assembly from individual Plates very large thermal expansions and shrinkages can be coped with, with the plates nonetheless Thermally insulated container for storing low-boiling liquefied gases

Addendum to the patent: 1 205 995

The main patent started on March 13, 1958

Patented for:

Conch International Methane Limited, Nassau (Bahama Islands)

Representative:

Dr.-Ing. H. Ruschke and Dipl.-Ing. H. Agular, Patent Attorneys, Munich 27, Pienzenauer Str. 2

Named as inventor:
Cornelius DeRonde Dosker,
Louisville, Ky. (V. St. A.)

Claimed priority:

V. St. v. America July 2, 1958 (746 148)

remain gas- and liquid-tight. .

Appropriately, grooves are provided in the plates which accommodate the expansion sections be able.

To increase the sealing reliability of the panels, each panel can contain at least a metal barrier layer running parallel to the inner and outer surfaces may be arranged.

The edge sections can be bent away from the plates, but it is also possible to be coaxial to provide depressions running at the joints, the edge sections being bent towards the plates and engaging in these depressions. in the This arrangement relates to the grooves for accommodating the expansion sections an inner surface of the container without protruding parts.

The invention is explained in more detail below with reference to exemplary embodiments in the drawing explained.

F i g. 1 shows a schematic representation of a partial section through the container according to the invention;

F i g. Fig. 2 is a section, on an enlarged scale, through one of the insulating plates used;

809 631, 1898

F i g. 3 shows in section the puncture point between two plates;

F i g. Fig. 4 shows another embodiment of an insulating plate in section;

Fig. 5 shows in section the joint between two ■ F i g. 4 formed plates;

6 shows in a perspective representation the composition of converging at one point four metal foils covering the insulating plates. . . ίο

According to FIG. 1, are on a metal outer wall 14 of the container attached to each other adjoining insulating plates, each with a cell core 10 made of paper or honeycomb or wavy veneer.

As can be seen from F i g * 2, the cell core is 10 provided on its side facing the container outer wall 14 with a hardwood layer 12, which on is glued to the cell core. This hardwood layer can be used to fasten the cell cores or panels are used on the outer wall 14 by bolts 46 welded to the outer wall Reach through the hardwood layer and use a nut 48 for fastening. .

The adjoining peripheral surfaces of the insulating panels can be made of wooden panels 16 existing frame made of sturdy wood with good thermal insulation properties. Grooves 18, which are aligned with one another, are provided in this frame for receiving a sealing strip 20 (FIG. 3), which is made of elastic material, such as foam-shaped Polyurethane resin. In addition to its barrier effect against the butt joint between two plates, it also prevents heat convection between the individual plates.

The inside of the container is made of a closed liquid and gas impermeable lining Metal provided, which from over the respective plate surface metal foils 26 protruding on all sides. The metal foil 26 also covers, as shown in FIG. 2 It can be seen, the opening 44 for access to the bolt 46, so that in this type of fastening is retrofitted. If the panels are already provided with the metal foil by the manufacturer, another type of fastening must be selected.

The cell core 10 itself can, as shown in FIG. 2, consist of several sections glued onto one another 22 exist, between which at least one parallel to the inner and outer surfaces of the Cell core extending metal barrier layer 24 is arranged. These barrier layers are expediently extended into the frame 16, to ensure a damping and liquid barrier even in the event of thermal expansion. It is also possible, make the barrier layers from resin-impregnated paper.

F i g. 3 shows the connection of two adjacent insulating plates in the area of the joints, which latter is provided with the sealing strip 20 already mentioned. The to each other Adjacent metal foils 26 of these plates are at their edge sections 34 with angular sections 36 which open into end flange sections 38. The flanges 38 run parallel to each other and are connected to one another by soldering, welding or the like. That so; formed cross-sectional triangle in The area of the edge sections 34 enables expansion to be compensated for without the connection to leak or destroy between the foils themselves. In addition, there is the connection point in this way at a distance from the plate that would damage the plate as a result of heating when establishing the connection.

An additional expansion compensation is created by expansion sections 32, which are in corresponding Engage grooves 30 of the plates. The grooves 30 are expediently in the vicinity of the Joint.

The flanges 38 can also be overlapped by a U-shaped web for the purpose of connection be that of a thermosetting resin, such as an epoxy resin, or a metal low Melting point is filled.

F i g. 4 shows an embodiment in which the edges of the frame facing the metal foils with recesses 40 on the joint side are provided, which serve to receive the edge portions 34 and the flanges 38.

As shown in FIG. 5, the edge sections are used for this purpose 34 bent towards the plates so that they are there in corresponding coaxial to the joints extending recesses 42 formed from two adjacent recesses 40 engage. The flange 38 is in relation to the plates as in the embodiment according to Fig. 3 so that it faces outward and is accessible for making the connection. The deepening 42 is so spacious that the metal foil is not attached to the frame 16 of the plates in the connection area is applied. However, the connection is expediently in a position of the edge sections according to FIG F i g. 3 produced and then in the position according to F i g. 5 pressed into the recess.

F i g. 6 shows the connection of the metal foils at the intersection of four plates. For this purpose a cylindrical Metal insert 50 is provided, on which the ends of the respective edge portions and the Connect the flanges 38 by welding, soldering or the like. The metal insert 50 can also be conical or be pyramidal.

The metal foils themselves are preferably made of aluminum or its alloys, but they can also made of copper as well as stainless or other austenitic steels, the deeper Temperatures have sufficient ductility.

Claims (5)

Patent claims: 1. Heat-insulated container for storing low-boiling liquefied gases, in particular Natural gas or methane, at around atmospheric pressure with an outer supporting wall and a A plurality of plates made of heat-insulating material, which are arranged on the inside of the supporting wall and cover them completely, attaching the panels to the supporting wall by means of screw bolts fastened and at their joints by means of seals provided on the peripheral surfaces of the plates are sealed and a closed liquid and gas impermeable lining made of metal on the front surface of the plates and over their joints, according to the patent 1205 995, characterized in that that the lining is made with its edge sections (34) over the respective plate surface consists of metal foils (26) protruding on all sides, the edge sections (34) of which at the joints bent into angle sections (36) and end flange sections (38) and with the corresponding End flange portions (38) of adjacent plates are tightly connected, and that the Metal foils (26) extending parallel to and at a distance from the edge sections (34) (32) have. 2. Container according to claim 1, characterized in that that the expansion sections (32) engage in corresponding grooves (30) in the plates. 3. Container according to claim 1, characterized in that in the cell core (10) of each plate at least one metal barrier layer (24) running parallel to the inner and outer surfaces is arranged. 4. Container according to claim 1, characterized in that the edge portions (34) of the Panels are bent away. 5. A container according to claim 1, characterized in that the edge portions (34) to the Plates are bent and there in corresponding . Engage corresponding recesses (42) running coaxially to the joints. Considered publications: German patent specifications No. 187 924, 613 508,
039; German explanatory documents No. 1018 575,
1021743; German Auslegeschriften C 9935 Ia / 24k (published on December 29, 1955), D19718Ia / 24k (announced on February 2, 1956); British Patent No. 744,896; U.S. Patent Nos. 1,799,234, 1,911,608. 1 sheet of drawings 709 610/175 7. 67 © Bulldesdruckerei Berlin