DE1506779C3 - Sealed, heat-insulated containers, in particular for the transport of liquid gas on ships - Google Patents

Description

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can agree. This is easy to manufacture. a number of angles 3, which are preferably under-Between the sealing barriers outside of the one another are identical and aligned, and in the edge area a largely rigid support plate spaced from each other along the edge of the angle 2 'made of plywood or the like inserted, the mechanical loading are arranged. This subdivision of the fixed win demands in a normal to the wall plane S kels 2 'can accommodate in several, spaced-apart EIe directions. The due to the small amount is necessary to the heat deformation of the distance between the two sealing barriers of the primary and the secondary sealing barrier, which is to be attached to the small space formed between these at these angles, and in the case of leakage of the inner one The first sealing, special thermal expansion and shrinkage, is a considerable advantage because the io allows parallel to the apex of the angle.
Volume into which the contents of the container can emerge, although each angle 3 possibly consists of one

remains extremely small. At the same time, this can consist of a single piece, it increases the transport volume for simplification. The decision of the manufacture and the assembly is expedient, however, that by this construction it is possible to use each angle 3 from two angle pieces, one movement parallel to the edges, which each 15 first or inner angle piece 3 α and a two- Stressing of the sealing barriers by elastic or external angle piece 3 b, to establish that this prevents tension. The danger of tearing is to be connected in such a way that they sit inside each other. Each with it diminished. Moreover, there are also Wechselbean- inner angle piece 3 α is avoided on the associated external stresses, so that the service life of the ren angle piece 3 b is increased, for example by means of screw sealing locks. The construction is fastened to ben4, the head of which is preferably sunk into a stationary mounted or in any desired recess of the angle piece 3 α , so that, for example, rolling or floating transports. ' it does not protrude on the inside of the elbow; . vehicles built containers, vessels, tanks, Wan · ¹ 'projects. "Each screw 4 is od in a nen with a thread. the like. for the storage and preservation, ^, provided a blind hole in the outer angle piece 3 b, as well as for security or protective chambers screwed in for just 25 minutes, so that in the event of cracks or failure, clear systems and nuclear reactor jackets etc.
There are significant temperature differences on the outside: Each angle 3 is excellently suited by one or more ths. -> - Support blocks 5 carried, which are made of heat-insulating

In the drawing, the invention is exemplified by material such as plywood, pressed wood or namely shows,.,; layered wood. Each support block is used to F i g. Figure 1 shows a detail of an embodiment of the connection of the bracket carried by it to FIG Edges of the container in perspective and partially fixed, outer support structure 1 and is preferred exploded view, broken open so that the heat transfer F i g. 2 partially torn away a side view in the 35 bridges can be reduced to a minimum. Everyone Section II-II of FIG. 3, support block 5 is on the edges of the inner wall of the F i g. 3 shows a plan view in several sections of the support structure 1 fastened by means of bolts 6, the III-III according to FIG. 2, for example welded to the support structure F i g. Figures 4 are a detail of the fastening of the first. Each support block is thus upright on the Seal lock in one fig. 2 similar illustrations - 40 both sides of the edge of the support structure 1 succeed, sets and is located between pairs of each other. 5 is a side view of a corner formation in the oppositely arranged bolts, each on the left and Section at line V-V of FIG. 6, to the right of the support block and the -F i g. 6 partially torn open a section at line sen hold by means of clamping plates 7, which is an Aus-VI-VI from F i g. 5, 45 traverse saving of the block.

F i g. 7 is a plan view of the corner formation after all the recesses in the support blocks and the

F i g. 5, voids that they leave free are subsequently

F i g. 8 a detail of another embodiment filled with an insulating compound, not shown, form of attachment of the first seal barrier, which then takes up the entire space between the

F i g. 9 partially torn away a section of a 5 ° secondary sealing barrier and the outer supporting corner formation, construction should fill out.

F i g. 10 shows a section on line X-X of FIG. 9, The inner narrow side of each support block 5 is in

and cut out the shape of the angle 3 that it carries,

F i g. 11 shows a section at line XI-XI of FIG. 9. ie in the form of a F i g that opens towards the interior of the container. 1 shows a self-supporting outer protective conduit. In the cutout is the outer Winstruktion 1, which is inserted, for example, by the double kelstück 3 b with its outside, so that the wall of a ship's hull is formed. When the block clings to this. Each angle shown area of the support structure is piece 3 b is attached by means of one or more eyebolts 8 attached to an inwardly opening angle 2, on each inner side of the corresponding angle 2 'of a 60-minute support block 5. Each eye bolt 8 is attached to the edge of the built-in container. by means of a pin 9 on a fork-shaped connection

The angles 2 and 2 'shown are reinforcing ribs 10 which are hinged to the angle piece by flat or straight right angles. The win is fixed b 3 (F i g. 3). However, each eyebolt 8 can also be blunt or pointed and crosses the narrow side of a support block 5 and ends at substantially flat surfaces curved 65 with its threaded end, on or mixed flat and curved surfaces possesses a fastening nut that is screwed on , in zen. a recess provided in the support block,

The rigid construction of the angle 2 'is made so that the nuts are easily accessible. The courage

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ter is about a bracket-like bracket 11, which their beads, which all protrude on one and the same side of the shape of the recess edge on this sheet, are turned to the outside. Each point adapts, drawn against this recess edge, space between two successive genes. The reinforcing ribs 10 consist of an angle piece 3 b is covered on the outside with a pair of angled cover 20 on the outside of the angle piece 3 b , which is welded in the , parallel reinforcements, is adapted between the shape of the angle piece 3 b and is used in front of the respective support block. The comparison preferably from a sheet metal section of the second modeling of the angle piece 3 when welding b sealing barrier consists. The cover 20 is to prevent Zuder reinforcing ribs 10, these least one bead which is provided in parallel to the intermediate longitudinal its successive to the elbow 3 b accompanying io space between two angular edges with incisions 12th pieces 3 extends b and this gap is relatively long than when each angular 3, engages. Each cover 20 covered with the ends, it is supported by several at a distance from one another on their legs the edge of the second support blocks arranged on the cords. If, on the other hand, it is not a relatively short seal attached to the angle piece 2> b , it can only be locked by one and is supported by a weld 21 on the umpteenth support block, which is attached in an overlapping manner in the second seal lock. Most of the overlap in the middle transverse plane of the angle is determined by jogging. Since each support block 5 generally has a flat shape in each covering angled part, a pivoting is provided here and which corresponds to the thickness of the covered ken of the angle 3 in the transverse direction on the left and on the right 20 second sealing barrier,
to prevent the support block, at least one pair Each cover 20 of the leg extends over the entire (preferably two pairs) reinforcing ribs 13 width of each angle piece 3b and is provided at which preferably ctigsem of the same material elbow outside of the overlap as the support block 5 consist and substantially the second sealing barrier 16 attached in a weld seam perpendicularly to each side of the support block as - welded along its edge.
are. Each reinforcing rib 13 is also with Each inner angle piece 3 α is preferably thin one end on the wall of the support structure 1 ner than the associated outer angle piece 3 b and and with the opposite end on the outer ^ larger, so that it is the outer angle piece example side of the Elbow 3 b . Each reinforcement>w'eise on its entire circumference as a self-supporting rib 13 can easily protrude on the support block 3 <i "part. The first sealing barrier 17, which are attached, for example by means of at least one and the same side protruding beads a pair of mounting brackets 14, which are attached to the support ■, riach inward, ie in the opposite direction as block 5 and on the reinforcing rib 13 with bolts, the beads of the second sealing barrier 16, directed 15. lies with its edge on the edge of the legs of the approximate example, each elbow 3 b by means of three 35 inner elbow 3 α and is attached to this BEFE eyebolts 8, one of which is in the stigt.

Plane of the bisector, while the ·. F i g. 2 and 3 show an embodiment at

the other two each perpendicular to the two which the first sealing barrier 17 to the respective

Legs of the elbow 3 b are arranged. In thighs of the inner elbows 3 α by means of

Due to their articulated connection, the 40 screws 22 are fastened, which are inserted in plates 23.

two last-mentioned eyebolts are screwed into the respective ones, which serve as counter plates, which are attached to

Pivot recesses of the support block 5 and the protruding part of each leg of the winch

thus follow the thermal deformation of the angle piece 3 a, namely behind it, ie at the

Piece (see Fig. 2 and 3). Outside, for example by welding,

The sheets of the first (primary) seal barrier 45 are solidified. The screw heads of all screws 22

17 and the second, (secondary) seal lock 16 are on the inside of the inner elbow 3 a

(Fig. 1) are sunk with a right-angled mesh of sik-.

ken provided, the distances between the beads of the F i g. 4 shows an embodiment variant in which the fastening of the first is essentially identical at both sealing barriers 16 and 17 by means of screws 22. Outside the angular arrangement there are 50 sealing barriers 17 on the inner brackets, the sealing barriers 16 and 17 with a slight separation 3 a by, for example, arc-welded stands close to each other, only weld points 24 are made, which are separated by the first seal by carrier plates 52, e.g. made of plywood. tung barrier pass therethrough, so that holes in the-The second sealing barrier 16 is connected to the respective ser sealing barrier as well as the attachment of plates gen legs of the outer angle pieces 55 3 b densely 23 are avoided.

appropriate. For this purpose, each angled interior has angled covers 25, which the

piece 3 b on the circumference of each leg on the inner outer angled covers 20 the same,

side a thinner, stepped edge strip 18, each overlap the spaces between

through the one behind the inside of the leg two consecutive inner angle pieces

receding shoulder arises. On this shoulder 60 3 a. These covers 25, which are preferably made of

of the angle piece 3 b , the edge of the second lies on a sheet metal section of the first sealing barrier 17

Sealing barrier 16 along the entire leg of the exist and one the space between two

Contra-angle 3 &. On each leg of the angle consecutive inner angle pieces 3 a

Piece 3 b , the seal lock 16 will have, for example, overlapping bead, nestle against the

by arc welding with an overlapped or internal shape of these elbows and connect

covered weld seam 19 along the edge, each on the legs of each inner angle

stigt. Piece of fastened sections of the first sealing

The second seal lock is arranged so that lock 17 with each other. The middle bead is used for this

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each cover 25 are preferably fastened astride by welding 37, which are arranged at intervals from the outside on the corresponding bead of the first seal and the outer angular lock, which with this bead essentially carry pieces 28 b to which they are attached,
is aligned, attached. Each cover 25 is each box 35 preferably consists of a row of support blocks 38 which is so long in a direction parallel to the edge of the corner, for example, consisting of alternating wood and perforations in successive covers. They selnd with their adjacent edges over- are attached to the double hull or the support tabs, which are attached by means of an overlapped weld construction 1 sitting astride its corner and also the edges of the stigt. The fastening of these support blocks is carried out in a similar manner to the second sealing barrier 17 at the two ends of the io as shown in FIGS. 2 and 3, ie cover the legs of the inner angle pieces. by means of pairs of on the wall of the support structure each cover 25 with a Joggelung tion 1 welded bolts 39 and reinforcement for adaptation to the strength of the first sealing ribs 40. The support blocks 38 are provided, for example, in lock (see. Fig. 2) . Arranged outside the equal distances from one another. The cuts where each cover 25, the second sealing 15 support blocks of a box 35 are covered on the inside by a device lock, each cover is on the elbow 41 for example made of plywood covered by these interconnected elbows, which to simplify the production of 3 a by means of, for example Arc-welded two plywood sheets can be assembled, weld points 26 attached (see FIG. F i g. 3). So if the in the form of a protruding angle by means of the solution chosen here for fastening 20 at least one inner fastening angle 42 on the first sealing lock 17 are fastened to the inner winch _ each other, the screws 22 or the two plates 3 α serving on the two plates y. by means of these traversing and breaking directly into the fastening welding points 24, the necessary angle of inclination 42 of screwed-in screws 43 is brought about mechanical strength from the welding points 26 ~ ^> . Ensured between successive boxes, through which the cover 25 are attached to the inside 25 along the protruding angle 27 astride neren angle pieces 3 α . The places this are arranged are spaces 46 at which the screws 22 or weld points (Fig. 6) are provided, which are the thermal expansion of the Kä-24, are with the help of the sheet metal of the cover? · Enable * sten.

25 sealed, the screws or two consecutive boxes are preferred

Weld points covered. ■ · 30 together by means of a system of plates 44

F i g. Figures 5, 6, 7 and 8 show the solution for an err ^: that fastened with bolts 45 on the two mutually protruding edges of the inside of the container in the form of the adjoining angle pieces 41 of two adjacent one angle 27 of the inner wall of the supporting structure. Each outer angular ion 1, which corresponds to an angle 27 'of the inner wall of piece 28 b , for example, on two containers built into a separate container i g. 5 and 6 of each other along the edge of the angle have shown shape and each have a recess at their outer end and each of a pair of nested ßeren ends, which have a shape complementary to the angle pieces, the inner angle piece 28 α and the shape of the angle pieces 41 ragged outer elbow 28 b, exist, the 40 ben so that they öffnu astride this protruding ng the angle points outwards and the edge points towards the corner of the box 35 by means of the same screws 43, inside the container. The design and the angled edge of these webs through which the type of fastening of these pairs of elbows can be fastened. In particular, F i g. 5 similar to that described above. Also the sealing and 8 show the in the circumference of the legs of the locks 16 and 17 are on the elbows 28 a, 45 outer elbows 28 b elaborated recesses 28 b similar to the re-entrant container corner wrestling to accommodate the covers 30, thereby attached , and in all spaces between the contact surface of the elbow 28 b with the successive elbows, inner and elbow 28 α are balanced, and as in the previous outer covers 29 (Fig. 5 and 7) and 30, each cover connects 29 (F i g. 6) and in a similar way fix 5 ° or 30 with their middle bead the corresponding stigt. The corner pieces 28 a sitting on top of one another, beads of the first or second sealing barrier.
28 b are fastened with screws 31. On F i g. Each assembly 34 can expediently be prefabricated in the primary sealing barrier by means of an arc-shaped workshop, so that it is ready for assembly at the welded spot welds at every inner corner construction site. To do this, each piece 28 α is attached. F i g. 8 shows a variant, at 55 box 35 together as follows: the first sealing lock 17 is provisionally attached to each inner one by a number of support blocks 38 - at angle piece 28 α is fastened by means of screws 32, for example six - by means of wooden plates 47 to one another in one on the inner one Elbow fastened the, which are screwed to the individual support blocks with screws plate 33, which are attached as a counter plate 48 and by means of metal angles 49, which is used. 60 attached to the wooden panels 47 with bolts 50

The angles 28 are carried by assemblies 34 are assembled to form angle pieces,
genes that are arranged along the projecting edge are then identified on this assembly from and each have a box 35, for example from see, support blocks arranged in a row at-HoIz, which is attached to the support structure 1, for example by gluing or by means of screws. The box 35 has two angle pieces 41 attached to the inside 65 and connected by means of the leg to a pre-fastening angle 42 similar to the protruding edge. On the thus hergespringenden angle converging side parts box will now be presented previously, a number of Ste- angle pieces 28 b to the outer 36, to whose common edge welded webs 37 assembled

animals. After each box is prefabricated separately in this way, all the cavities are inside of the box with a heat insulating material, for example a synthetic material such as synthetic Foam - expanded polyurethane or the like. - Filled, before the installation or the assembly of each assembly 34 at the construction site is sprayed or injected with a gun.

In a later operation of the container construction, the entire space 51 between the inner wall the support structure 1 formed for example by the ship's hull and the second sealing barrier 16 filled with an insulating material, for example with expanded polyurethane.

9, 10 and 11 show an embodiment of a corner 53 of the support structure 1 formed, for example, by the double hull of the ship, to which the re-entrant corner formation 53 'of the built-in container corresponds. This corner formation 53 'consists - similar to the previously described formation of the angles - of two angle pieces, an inner 54 α and an outer 54 b, which sit inside one another and are fastened to one another by means of screws 55. This assembly essentially has the geometric shape desired for this corner. Similar to the previous embodiments, the bracket 54 is supported by support blocks 56 which are attached to the inner wall of the hull by means of pairs of bolts 57 with clamps 58. The bracket 54 is supported by at least three support blocks 56 a, 56 b and 56 c , which are each arranged transversely on the three brackets forming the bracket 54 and can interlock by means of inlet slots provided for this purpose in each support block Bracket 54 is attached to each of the three support blocks in the manner described above by eyebolts 59. In the extension of each two-faced bracket of triple-faced bracket 54, there is provided a series of spaced-apart double brackets 3 as shown in FIGS are shown and on which the first and second sealing barrier are mounted in the above manner. the outer angle piece 54 b is provided at the outer edge of its three sides with steps, which are the same as in the outer angle pieces 3 elaborated b and for receiving the sheet of second sealing barrier 16. Likewise, the first sealing barrier 17 is similar to that described above on the edge of the sides s inner elbow 54 α attached and the spaces between two angular surfaces of the three-sided angle 54 and the adjacent double angles 3 are each covered with inner and outer covers 25 and 20, which are applied or mounted as described above. Each of these covers is attached to the inside of the elbow 54 a with welding points 26. A three-surface cover 60 -.35 ^ sits in the elbow 54 a and rests on its inside in such a way that it the adjacent edges of the inner cover 25, which rest on the inner angle piece 54 α, covered.
The principle of this construction can of course be applied to any polyhedron-shaped space win- • ^; use a kel that has, for example, more than three sides converging in. · - · 'a point. In the case of a protruding polyhedron angle, the construction principle shown in FIGS. 5 to 8 can be used.

For this purpose 3 sheets of drawings

Claims (16)

Patent claims: 1. Airtight, heat-insulated container, especially for the transport of liquefied gas on ships, the is supported on an external support structure, e.g. the hold in the ship's hull and from two downstream, from thin, provided with a network of beads Sheet-metal-made sealing barriers are made along the edges of their converging Walls are provided with supporting blocks on the supporting structure, which over the Legs of a rigid angular arrangement, the angular opening of which with that formed by the walls Angle coincides, wear the seal barriers, characterized in that the angular arrangement (3, 28, 54) along the Edges are divided into separate sections, each for itself over one or more Support blocks (5, 381, 56) are supported, which consist of heat insulating material, and that at one support point for both sealing barriers. £ "* (16, 17) only one angle (3, 28, 54) is provided, at which the inside the first (17) and outside ' the second (16) seal locks are attached, close to each other away from the elbow, only separated by carrier plates, ver:;. to run. ^ i -'- 2. Container after. Claim 1, characterized in that that the space between successive sections along the edges the angle arrangement (3, 28, 54) at least on one side of a thin, flexible and angled one Cover (20, 25, 29, 30) is covered, which is wider than the gap, the parts attached to the two legs of the same angle at each support point the sealing barriers (16, 17) tightly connects to one another and has at least one bead which across the space between the successive sections of the angular assembly located. 3. Container after. Claim 2, characterized in that that at least on the inside of the container each cover (25, 29) along the edge, preferably alternating with the neighboring ones Covers overlap at the edges that are tightly fastened to one another. 4. Container according to one of claims 1 to 3, characterized in that each angle (3, 28, 54) consists of a pair of angle pieces, namely an inner angle piece ^ a, 28 a, 54 a) and an outer angle piece (3 b, 28 b, 54 b) , which sit one inside the other and are fastened one above the other, and that the first and the second sealing lock (17, 16) are fastened in a sealing manner to the legs of the inner and outer sealing piece, respectively. 5. Container according to claim 4, characterized in that the inner angle piece (3 a, 28 a, 54 a) is thinner and has longer legs than the outer elbow. 6. Container according to claim 4 or 5, characterized in that each outer elbow {3 b, 2Sb, 54 b) on the edge of each of its legs has a stepped edge strip (18) of reduced thickness on the leg outside, on which the edge of the second sealing barrier (16) and optionally the edge of an outer cover (20, 30) on Thigh rests. 7. Container according to claim 6, characterized in that that the second sealing barrier (16) and the outer cover (20, 30) of the second Sealing barrier attached to the leg by an overlapped weld along the edge are. 8. Container according to one of claims 2 to 7, characterized in that at each point of overlap of the covering part a jogging of a depth corresponding to the thickness of the covered part. 9. Container according to one of claims 4 to 8, characterized in that each inner angle piece (3 a, 28 a, 54 a) on the associated outer angle piece (3 6, 28 0, 54 b) by means of screws (4, 31, 55) is attached, the head of which is countersunk and which are screwed into threaded blind holes in the outer angle piece (3 b, 28 b, 54 b). 10. Container according to one of claims 4 to 9, characterized in that the first sealing barrier (17) is attached to the inner angle piece (3 a, 28 d, 54 a) by means of weld points (24) passing through the sealing barrier. 11. Container according to one of claims 4 to 9, characterized in that the first sealing lock (17) is attached to the inner angle piece (3 a, 28 a, 54 a) by means of screws (22, 32), the head of which is countersunk and the are screwed into plates (23, 33) which are attached to the part of each leg of the inner angle piece (3 a, 28 a, 54 α) protruding beyond the outer angle piece (3 b, 2Sb, 54 b ) and behind this as a counter plate . 12. Container according to one of claims 4 to 11, characterized in that each inner cover (25, 29) for connecting the first sealing barrier (17) to the respective inner angle piece (3 a, 28 a, 54 a) is attached by means of spot welds (26). 13. Container according to one of claims 4 to 12, characterized in that with an angle (2 ') opening towards the inside of the container, each support block (5) consists of at least one block of rigid material, such as wood, preferably having openings, which is attached to the support structure (1 ) is attached and to each of which the outer angle piece (3 b) is attached at least with one eye bolt (8) which is articulated via a pin (9) to a fork-shaped reinforcing rib (10) or the like attached to this angle piece (Fig . 3). 14. Container according to one of claims 4 to 12, characterized in that in the case of an angle (27 ') opening towards the outside of the container, the support blocks (38) with the outer angle pieces (28 b) are combined to form an assembly (34), wherein the support blocks (38) a box (35), e.g. B. made of wood, which is attached to the support structure (1) and on the container side has two side parts (36) converging in an angle that also opens outwards, on their common edge transversely in a length to this edge. 3 4 orderly row of webs (37) are attached, the forces acting on them on the support con- which structure of the container is arranged at a distance from each other is then no longer possible, are and the outer angle pieces (28 b) wear To eliminate this disadvantage, angles (Fig. 5). and corners of the containers with rigid, practically un- 15. Container according to claim 14, characterized in that it is supported by formable angles. But now it comes indicates that the support blocks (38) of the Ka- to thermal expansion or contraction movements at least (35) provided with openings and with- not only in the wall surfaces, but also lengthways by means of bolts (39) on the support structure (1) at the point formed by the converging walls are consolidated. Edge. The resulting stress 16. Container according to one of claims 4 to io chungen can be caught by the rigid edge support 12, characterized in that for a corner not only by relative movements in stress formation (53 ') with at least three in a chung direction. If the other-point converging sides were to have a certain mobility locally on the angular pieces (54 a, 54 b) of the geometric shape, it would correspond to an excessive stress container corner there and that also the arrangement and thus to the Tearing of the sealing cover (25, 29) in the corner area causes the same geore. Therefore, the known container has a metric shape. the aforementioned type of each game turned off by the fact that you run around the entire container around, rigid frame made of wooden beams and Provides 20 iron angles that oppose any game and thus any deformation, so that the ^ Stress only leads to an elastic un- The invention relates to a tight, thermally insulated te'r voltage setting leads. The stresses Th containers, especially those used for liquid gas transport, are therefore not disposed of, but only transported in this way on ships, which divides at an outer 25 and recorded that a tearing of the you support structure, E.g. the hold in the ship lock is excluded as far as possible. In which hull, supported and from two downstream known containers are the sealing spars, made of thin, hexagonal corrugations with a network of corrugations, with a thicker isolane in between Sheet-metal-made sealing barriers, the -ftion layer at a considerable distance from each other, along the edges of their converging walls 3P. The edges are, as said, on from a corner supported by wooden beams that are supported on the supporting structure. Support blocks are provided, which are carried over the legs' which are themselves supported by iron angles from the ship of its rigid angular arrangement, whose Winkelöff- ---- construction. Thereby the ice separation corresponds to the angle formed by the walls for the wooden beams of the inner seal, wear the seal locks. 35 lock via iron rods that secure the outer sealing Containers of this type are known (enforce French passports, from the iron angle of the utterly written 1 438 330). Thermally insulated containers are worn seal lock. That leads to elevation for the storage or transport of gases, sealing and thermal insulation problems, or liquids used, which on one of the object of the invention is, on the other hand, a Outside temperature strongly deviating temperature 40 to create rigid edge support, which are kept at einfag. An example of this are cryogenic rather construction a mobility in a direction that is parallel to the media, such as liquefied gases, for example, resulting in atmospheric pressure at a very low temperature. This object is achieved according to the invention. Heat-insulated containers are also solved by dividing the angular arrangement along the edges into sections separated from one another for other temperatures and / or other pressures, which are required in each case in which considerable temperature differences occur over one or more support blocks from the ambient temperature . are supported, which are made of heat-insulating material beBehälters of the type mentioned, and that only one angle is provided at a support point for both seals for the transport of liquefied earthing barriers, gas, such as liquid methane, required on cargo ships - 5 ° to the inside the first and outside the second sealing, device locks are attached, the from the Winkelan such containers can have any geometry close to each other, only by tric shape, but are often parallelepiped support plates run separately, mig or cylindrical in shape. Due to the subdivision of the rigid angular arrangement containers, all such areas have edges or corners where two or more walls converge into individual sections. This can be straight or curvilinear container wall in the spaces between these gaps. cuts free expansion or contraction movements when filling a medium into the container, gene can perform. This is made even easier, the temperature of which differs from the outside temperature if there is a significant difference in expansion joints or beads, or when a ^{6o is removed} , which, for example, instead of such a filling from the container, are made from the attachment in the sealing barriers in cover thin Sheet metal existing sealing barriers can be formed that carry out the individual thermal expansion or contraction movements. Sealing barriers via the rigid angular arrangement. Connect away because of these movements. Furthermore, the sealing barrels come to the fact that the converging 65 ren at a small distance next to each other, so that their walls try to open or close expansion and contraction movements of sliding. A sure order of magnitude will be, which is why the sealing support of the container walls and a transmission barriers largely correspond in their structure.