DE1219504B - Heat-insulated container for storing low-boiling liquefied gases - Google Patents

Description

GERMAN

PATENT OFFICE

EDITORIAL

German class: 17 g-4

Number: 1219 304

File number: C 295371 a / 17 g

Annihilation day: March 8, 1963

Victory day: June 23, 1966

The invention relates to a thermally insulating container for. Storage of low-boiling liquefied gases at around atmospheric pressure with a rigid outer Coat, the inside of which is covered with heat-insulating panels joined together, the one Surrounding the inner container receiving the liquid gas and of which each panel is attached by means of threaded bolts Bern outer jacket is attached, with the facing sides of adjacent panels between limit a gap which contains a sealing material and which faces the inner container End is covered by a Abdichtstreifeti.

In a known container of this type, the heat-insulating panels lie directly on the defiilnetiseite " of the rigid jacket ", and the gap extending between adjacent panels, the voil is delimited from the inner surfaces of these panels, which extend parallel to one another, is on his your rigid coat-facing end is closed off by the same. Thereby are in the facing Side surfaces of the adjacent panels are congruent opposite slots Provided for the inclusion of connecting strips made of resilient material. These connecting strips extend when inserted into the slots, from the side surface of the one panel through the gap to the opposite side surface of the respective beüächbartefi Board and thus also act as a seal for the gap.

The known gap seal works only unsatisfactorily, as a result of the fact that the surfaces of the panels that are in contact with the inner container approximately correspond to the temperature of the stored ones Accept cryogenic liquid and thus the thermal contraction of the tablets in the deri the inner container facing edge zones larger than in the edge zones facing the rigid jacket is, which originally widened the gap of the same width in the direction of the container at every point becomes, which has the consequence that the connecting strips, which connect neighboring panels with each other, no longer completely fill the space, which is delimited by the opposing slots in the side walls of the panels. However, this creates the risk that in the event of a leak in the wall of the inner container Cryogenic liquid collects between the panels, this liquid easily spreads over the connecting strips receiving slots can flow towards the outer rigid jacket, which the column ah closes one end. But there this coat

IO

.Thermally insulated container for storage
low-boiling liquefied gases

Applicant:

Conch International Methane Limitedj

Nassau (Bahama Islands)

Representative:

Dr.-Ing. F. Wuesthöff, Dipl.-Ing. G. Pulse
and Dr. E. Frhr. v. Pechmann, patent attorneys,
Munich 9, Schweigerstr. 2

Named as inventor:

Delmar Kennetz Tucker, London

Claimed priority:

V. St. v. America March 12, 1962 (178 824)

from questions of economic viability as a rule

a material that maintains its strength and suppleness loses when it is cooled to a very low temperature, can when touched of the cryogenic liquid in this jacket openings are created by stress cracks, which a

Outflow of all stored in the container Result in liquid.

The invention is based on the object, the Abdichtuiig the gap located between adjacent panels of the known container so too improve that even in the event of a leak in the irine tank the leaked liquid cannot reach the rigid jacket.

This object is thereby achieved according to the invention solved that the gap in the direction of the inner container is steadily expanded and completely filled with the sealing material, the narrower one The end of the gap is closed by a spacer strip connecting the panels to one another, which, as known per se, is attached to the inside of the rigid jacket and the panels are spaced from the coats hold.

The features of the invention have the advantage that at the point where the contraction the panels are largest, d. H. on the side facing the container, the one provided in the gap Sealing material is thickest, so that at this particularly endangered point the danger

609 580/76

3 4

cracking of the sealing material eliminates the material layers 11 and 12 of sheets together. Since according to the invention the narrower end of the gaps are set off by spacer strips as described below, they are attached to the jacket 13,
there is the further advantage that even if some liquid has penetrated into the space enclosed by the thermally insulated rigid jacket through the sealing material S 13, this is not arranged with the jacket 10, which is made of aluminum or not in contact comes, like it at. the well-known split rusting steel.

sealing is the case. In addition, the rigid jacket 13 has on its inside in Using the spacer strips Attaching spacer strips evenly spaced 1 the heat-insulating panels on the rigid wooden jacket io. These spacer strips must make it easier since here irregularities are built in the wall, that their inner surfaces on every wall surfaces of the jacket have no influence on the opposing sides. The strips 1 are with the lateral alignment of the panels joined together and firmly connected to the inner surface of the shell 13. that of a leveling layer 17 made of putty or

The use of strips worn between the 15 mastic.

Outer jacket of a container and the heat-insulating The arranged along the wall of the jacket 13-

the interior trim is already known per se. Neten panels 4 comprise a honeycomb core

In contrast to the invention, in the known 20 and top surfaces 21 and 22, the honeycomb of the

th container the strips but exclusively to the core 20 with foamed in place

Holder of the one-piece heat-filled 30 polyurethane or similar plastic

insulating cladding. are. By filling the honeycomb of the cores 20 is

If the panels are made of a honeycomb core, the resistance to the migration of gases is material or balsa wood, which is raised on both sides, and you also get a better warmth Layer of plywood is covered, which will have the insulating effect. The top surfaces 21 and 22 can Sealing 35 covering the gap at its wide end is made of plywood and is through to the core strips made of plywood or maple wood. Da- glue connected.

it is possible to use the sealing strip in a simple manner. Furthermore, in the corner areas of the rigid man-

Way provided with a commercially available adhesive on the means 13 with 3 designated panels, the one

To attach panels. Have core 23 made of balsa wood and with top surfaces

In order to provide a simple liquid-tight seal 30, 24 and 25 made of plywood, which are the same

of the gap at its facing the rigid jacket - if connected to the core by adhesive,

As the panels forming the corners of the container, the relevant spacing will be obtained

strips glued to the panels. also have the bottom 12 of the container -

If one corner of the heat-insulating Verden panels has a core made of balsa wood.
clothing-forming, mutually angularly arranged 35 The edges of the adjacent panels 3 panels also limit a gap between them and 4 are beveled so that after the installation of the zen, the completely filled with sealing material and panels between these panels is a gap ahead at both ends of a respective sealing hand, which is closed off in the direction of the container 10, the advantage results of being broadened and its narrower end by the one even larger. Thermal mobility of the panels 40 spacer strips 1 is completed, each one with each other, without the risk of an uncoat 13-facing side connecting to each other at the corner areas of the other adjacent panels 3 and 4 .. ,, Each strip 1 is here with the joined together

The panels are glued to increase the thermal insulation effect.

Space between the outer jacket and 45 to hold the panels in place

The panels are provided with a heat insulating material threaded bolts 2, which with the help of a

filled out. , automatic stud welding device to the indoor

In the following, the invention will be welded on using the schematic area of the jacket 13. the

Table drawings of an exemplary embodiment of outer cover surfaces 21 and 24 of panels 4 and 3

explained in more detail. -It shows 50 are provided with small openings 5. aside from that

F i g. 1 schematically in a vertical section, the panels have larger openings 6, which are the same Part of a ship which is arranged axially with the openings 5 with a container. Of the according to the invention, equipped, threaded bolt extends through each

Fig. 2 in a partial section along the line II-II smaller opening5 into the larger opening6,

In Fig. 1 a corner of a loading 55 The threaded portion of each bolt 2 carries a

holder, - washer 7 and a nut 8. By tightening the

Fig. 3 two fastened to the rigid jacket, one nuts 8, the panels are set and against the

other adjacent heat-insulating panels and spacer strips 1 pressed so that they are in a loading

F i g. 4 the distribution of the panels and the fastening at the correct distance from the rigid jacket 13

supply strips on the surface of the rigid jacket. 60 will last. The openings 6 are preferably

In Fig. 1 one sees in a vertical position filled with a foamed plastic, e.g.

Cut a part of a ship for transportation with polyvinyl chloride foam. This filler material is

liquefied gases at approximately atmospheric in the drawings at 18 indicated. Preferably

Pressure, the hull being denoted by 14. a plug 19 made of wood is in each bolt opening 6

The ship is provided with an inner hull which is driven up to the outer surface of the plug with 65

forms the rigid jacket 13 of the container. The rigid plywood top surface is aligned. Above everyone

Jacket 13 is on the inside with heat insulating- bolt opening 6 is on the inner top surface with

the material 11, 12 and 15 clad, of which the help of a cold-setting resin is a three-layer

Fiberglass cloth piece 26 attached to seal the hole.

The threaded bolts 2 together with the spacer strips 1 are shown in FIG. 4 clearly distributed over the surface of the panels. Around the boards in addition to assisting, further spacer strips 27 can be provided along the central axis of the panels will.

As can be seen in particular from FIG. 3, the between adjacent panels, gradually widening gap in the gap indicated at 28 Way fully filled with polyvinyl chloride foam or a similar sealing material that has at least 90% of its volume is compressed in the free state. The gap between neighboring Panels are closed by a sealing strip 16 made of plywood. The sealing strip 16 must the panels overlap on both sides of the gap. An adhesive or glue is used to secure the strip 16 to connect with the inner surfaces of the panels. ao

According to Fig. 2, the panels 3 with a Core made of balsa wood additionally supported by further spacer strips 29 and are arranged in such a way that that they delimit a further gap 33 between them, which is made with the same foamed plastic 30 is filled as a sealing material, which is also used to fill the gap between the other panels will. A sealing strip 31, which consists of solid plywood, closes the gap 33 between the adjacent panels 3 at the corner of the container. A sealing strip 32, which is also made of plywood, is also provided on the outside of the gap 33 consists.

The upper layer 15 of insulating material consists of glass wool. This material is quite elastic, so that the container 10 can expand and contract freely in the vertical direction.

The heat-insulating panels 12 used for the container bottom with a core made of balsa wood form a stable base for the inner container 10.

Claims (5)

Patent claims: 1.Thermally insulated container for storing low-boiling liquefied gases at around atmospheric spherical print with a rigid outer jacket, the inside of which is joined together with heat-insulating Panels is covered, which surround an inner container receiving the liquefied gas and each panel is fastened to the outer shell by threaded bolts, the facing sides of adjacent panels limit a gap between them, which is a Contains sealing material and at its end facing the inner container of a sealing strip is covered, characterized in that the gap extends in the direction of the inner container (10) is constantly expanded and completely filled with the sealing material (28) is, the narrower end of the gap by a connecting the panels (3, 4) to one another Spacer strip (1) is completed, which, as known per se, on the inside of the rigid Jacket (13) is attached and the panels (3, 4) at a distance from the jacket (13). 2. Container according to claim 1, characterized in that the gap on the wider one End-covering sealing strips (16) made of plywood or maple wood. 3. Container according to claim 1 or 2, characterized in that the spacer strip (1) with the panels (3, 4) is glued. 4. Container according to claim 1 to 3, characterized in that one corner of the heat-insulating Panel-forming panels (3) arranged at an angle to one another between them limit a gap (33), which is completely filled with sealing material (30) and at both of its Ends of a respective sealing strip (31, 32) is closed. 5. Container according to claim 1 to 4, characterized in that the space between the outer jacket (13) and the panels (3, 4) filled with a heat insulating material is. Considered publications:
British Patent Nos. 888 247, 897 049;
U.S. Patent No. 2,983,401. 1 sheet of drawings 609 580/76 6.66 © Bundesdruckerei Berlin