NO124744B - - Google Patents

Description

Two-level corner piece of flat material

intended for use in a membrane tank.

The invention relates to two-level corner pieces for use

in containers for the storage and transport of cold liquids such as liquefied gases at approximately atmospheric pressure, e.g. liquefied natural gas. Such containers are used e.g. in tankers for the transport of liquefied gases.

In more detail, the invention relates to corner pieces

use in a fluid-tight, thin and flexible membrane tank made of plate material which forms the inner lining in a container for the storage and transport of very cold liquids, such as liquid

made gases, at approximately atmospheric pressure, e.g.

liquefied natural gas, which membrane tank in each wall is made with two sets of intersecting corrugations, the corrugations in the two sets having different dimensions, and which corner

piece is made with two corrugations, one in each leg of the corner piece, which corrugations collide at the angle of the corner piece in a part that contains an excess area of the material, which allows contraction and expansion of the corner piece in the longitudinal direction of the corner.

The invention applies exclusively to corner pieces for tanks with flat walls or tanks where at least parts of the walls are flat. Incidentally, such tanks can have any geometric shape. They will generally have the shape of a prism or a parallelepiped, but can have a more complex shape with walls that include planar parts that are slanted in relation to each other. A tank can e.g. be given such a shape that it fits into the front part of a tanker. When it comes to a tank with flat side walls, the angle between the walls can be approximately right, but it can also have a different value, e.g. be an obtuse or acute angle depending on the geometric shape of the tank. Some of the corners in a tank may have the form of internal corners or fixed internal angles. However, the tank can also, especially when it is a tank with an upward extension or trunk, have two-plane angles which are inwardly directed or projecting.

Since the walls of the membrane tank are each made with longitudinal and transverse corrugations with two different cross-sectional profiles, when the tank is rectangular or parallelepiped, there will be three different forms of two-plane corner connections. In a form (a), the connection is formed between two corrugations which have identical corrugations with a small cross-sectional profile in the two walls. In another ibrm (b) the connection is formed between two corrugations which are likewise identical, me. c has a larger cross-sectional profile. In a third form (c), the connection is formed between a corrugation with a large cross-sectional profile in one wall and a corrugation with a small cross-sectional profile in the adjacent wall.

Conventional corner pieces are each made with corrugations and a connecting part of the same size or sizes as the corrugations in the walls to be connected to each other. According to a conventional embodiment, the corner piece is formed by bending a flat plate, and the two legs thus formed are each made with a corrugation with a suitable profile in the direction across the corner., and the corner piece is at the corner between the two corrugations made with one hole which is closed by means of an originally separate angle plate, which is welded to the edges of the hole and forms a connection between the two corrugations. The corrugation in each leg thus has a constant profile corresponding to the corrugation in the adjacent side wall. The corner piece can have two large corrugations or two small corrugations or one small corrugation with a constant profile and one large corrugation with a constant profile. In each case, the corrugations in the corner piece are connected to the connecting piece formed by the aforementioned angle plate. This form of conventional corner pieces suffers from certain disadvantages. A disadvantage concerns the production of two parts. Another disadvantage is that the corner piece, and especially the angle plate, is too rigid. There are small variations in the mutual angle between two adjacent walls in a membrane tank and in the two legs in each corner piece that will connect the two walls, and high tensions will therefore occur, and the corner piece may burst or the angle plate may tear loose from the corner piece.

In French patent no. 1,447,913, a corner piece is described which is formed by bending a flat plate, so that two corrugations are formed in the legs of the corner piece, which extend in the direction across the corner and are connected by a complex bent part near the intersection of the two planes. Furthermore, in the French supplementary patent to 1,447,913, namely 88,311, various improvements or modifications of the design according to French patent 1,447,913 are shown and described. The embodiments according to these patents suffer from various disadvantages compared to conventional embodiments. As a result of a corner piece according to these constructions being bent by a flat plate without inadmissible tensile stresses, it is less likely to be exposed to stresses during use despite minor variations in the angle between the two legs forming the corner piece. Nevertheless, stresses will still occur in the complex part that connects the corrugations in the corner piece. This will especially be the case with a corner piece that has two corrugations with a small cross-sectional profile, as the complex connecting part has so far had a small cross-sectional profile which entails greater stresses. That is to say, when using this embodiment of the connection part, it has been practice to dimension this corresponding to the size of the corrugations.

The purpose of the present invention is to provide an improved construction of a corner piece which is less likely to be exposed to high stresses during use. A further for-

aim is to provide a design of a corner piece which can be easily adapted for use with the different forms of wall connections, (a), (b) and (c), as indicated above.

The invention is based on the idea that by manufacturing the corner pieces with corrugations, at least one of which has a gradually increasing cross-sectional profile in the direction of the connecting part, it can have a sufficiently large cross-sectional profile so that the tension is reduced to a minimum, and the corner pieces are less inclined to burst. The said connecting part can thus be of the desired, constant large dimension regardless of the size of the corrugations in the legs of the corner piece and of the size of the corrugations in the walls which the corner piece connects.

The characteristic of the corner piece according to the invention thus consists in that at least one of the two corrugations has a gradually increasing cross-sectional area in the direction of the aforementioned part, while the other corrugation has a maximum cross-sectional profile that is larger than the minimum cross-sectional profile for the first corrugation.

A corner piece according to the invention intended to be used in a connection of type (c) as indicated above, is made with one of its corrugations of uniform size larger than the smallest dimension of the other corrugation, which has a small cross-sectional area at the edge of the leg which must be connected to the small corrugation in the wall in question, and increases in cross-sectional area in the direction of the two-plane angle to merge into the first corrugation at the central connecting part.

If the corner piece is to be used for a connection of type (a) as indicated above, both corrugations increase in cross-sectional dimensions in the direction towards the connection part, which can therefore have a large cross-sectional area even if the corrugations in the two legs of the corner piece have a small cross-sectional area. As a result, both corrugations in the legs of the corner piece will have varying cross-sectional area with increasing cross-section from a small cross-section near the edges of the legs corresponding to the cross-sectional area of the corrugations in the walls to be connected by means of the corner piece,

and with increasing cross-sectional area in the direction towards the center of the corner

the piece at the two-plane angle, where they will have the same large cross-sectional area that corresponds to the cross-sectional area of the middle connecting part. The corner pieces according to the invention can be

turned in connection with corner pieces for use with connections of type (b) as stated above, where the corrugations in the corner

the piece's two legs will have the necessary large cross-sectional area corresponding to the large cross-sectional area of the corrugations to be connected to each other.

Accordingly, corner pieces will be used

for connections of types (a), (b) and (c) all have the same central connection portion with constant cross-sectional area. That is to say, the corner pieces to be used for connections of types (a) and (c) can have middle connection parts with the same large cross-section

area as the middle part connecting corrugations with large cross-sectional area in a corner piece, for connections of type (b). When it is stated that the connecting part must have a cross-sectional area corresponding to the cross-sectional area of the largest corrugations, it is hereby understood that the connecting part smoothly merges into the corrugations, but may still have a complex cross-section.

The corner pieces can be of any kind

appropriate form. In particular, the center connecting portion may be of any suitable shape provided it connects and transitions into the corrugations in the legs of the corner piece, providing sufficient excess metal along the length of the biplane corner to accommodate contractions. The corner piece is preferably

shown, but not necessarily, formed by bending a single, flat piece of plate. In this respect, the corner piece may be of the same general shape as indicated in French patent No. 1,447,913 or the associated supplementary patent No. 88,311.

Some concrete designs for corner pieces

according to the invention shall be described in the following with reference to the drawings where:

Fig. 1 is a purely schematic, external isometric view

of a cube-shaped membrane tank whose walls are made with para-

small corrugations with a small cross-section and transverse, para-

small corrugations with a large cross-section and serve to

illustrate the different types of corner connections.

Fig. 2 is a schematic perspective view of a corner

piece for use with connections of type (b).

Fig. 3 is a corresponding drawing of a corner piece

intended to be used at a connection of type (a).

Fig. 4 is a corresponding view of a corner piece for use with the connection of type (c), and

Fig. 5 is a cross-section along the line V-V in fig. 2.

As shown in fig. 1, the tank, which is generally designated 1, has a double system of corrugations. That is, each wall of the membrane tank is made with a series of corrugations 2 which extend convexly towards the interior of the tank and parallel to each other in one direction and with identically the same relatively large cross-sectional profile, and another series of corrugations 3 which likewise extend convexly towards the tank's inside and parallel to each other and with a constant cross-sectional area, and which intersect the corrugations in the first system at right angles and have a smaller cross-sectional profile than the cross-sectional profile of the corrugations in the first series. At the corner designated (a) in the tank, a connection is formed between two corrugations in the two adjacent walls, i.e. the side wall 4 and the top wall 6, with an identical cross-sectional area of small dimensions. At (b) there is a connection between two corrugations between two walls, i.e. two adjacent side walls 4 and 5 with a larger cross-sectional area.' At (c) there is a connection between two walls, i.e. a side wall 5 and a top wall 6, between a corrugation with a large cross-sectional area in the top wall and a corrugation with a small cross-sectional area in the side wall.

The corner piece, as in fig. 2 is generally denoted 7,

is formed by a single, rectangular flat plate which is bent about the line 8 to the desired two-plane angle, e.g. 90°, and each leg 7a, 7b is made with a simple corrugation 9, 10 which extends from the free edge of the leg 7a, 7b in the direction towards the middle of the corner piece at the two-plane angle 8. At this central area, the corner piece made with a part which is generally designated 11, and which passes into and connects the corrugations 9, 10 in the two legs of the corner piece and provides excess metal for absorbing contraction in the longitudinal direction of the corner connection. This part 11 comprises a bridging convex corrugation 12,

with a smaller cross-sectional profile than the cross-sectional profile of the corrugations 9, 10 in the legs of the corner piece and limited by the U-shaped channels 13, son passes into the respective corrugations 9, d": two legs of the corner piece.

mitering is preferably carried out with a concave recess in order to

form a small folded trough in the area that would otherwise form the highest point of the bridging corrugation.

The corner piece 7, which is shown in fig. 3, is identical

with that shown in fig. 2 with the exception of the shape of the corrugations 9, 10 in the two legs of the corner piece. In particular, the lot 11 is of the same cross-sectional area. However, each of the corrugations 9^, 10 in the corner piece's two legs, which are identical, has gradually changed cross-sectional area. Each corrugation 9, 10 thus comprises a part, respectively 9a, 10a, near the free edge of the leg in question on the corner piece, which part has a small constant cross-section and a part, respectively 9b, 10b, with a gradually increasing cross-sectional area that extends in direction towards and passes into the central part 11.

The corner piece shown in fig. 4 is identical to

that shown in fig. 2 and 3, with the exception that the corrugation 9 in a leg is of the same large cross-sectional area as the corrugation 9

in one of the legs of the corner piece in fig. 2, while the corrugation 10^ in the other leg of the corner piece is identical to the corrugation 10'^" in one leg of the corner piece shown in Fig. 3.

Claims (3)

1. Two-level corner piece of plate material intended for use in a fluid-tight, thin and flexible membrane tank of plate material which forms the inner lining in a container for the storage and transport of very cold liquids, such as liquefied gases, at approximately atmospheric pressure, e.g. e.g. liquefied natural gas, which membrane tank in each wall is made with two sets of intersecting corrugations, the corrugations in the two sets having different dimensions, and which corner piece is made with two corrugations, one in each leg of the corner piece, which corrugations collide at the angle of the corner piece in a part that contains an excess area of the material that allows contraction and expansion of the corner piece in the longitudinal direction of the corner, characterized in that at least one of the two corrugations (9, 10) has a gradually increasing cross-sectional area in the direction towards the said part (11), while the second corrugation has a maximum cross-sectional profile that is greater than the minimum cross-sectional profile of the first corrugation. 2. Corner piece as specified in claim 1, produced by bending a single, flat, plate-shaped blank and made with corrugations with a curved profile, characterized in that the said part comprises a convex, bridging corrugation between two U-shaped channels in a transverse direction of parts of the aforementioned corrugations which both have the largest cross-sectional dimensions. 3. Corner piece as stated in claim 2, characterized in that the bridging corrugation is designed with a concave corrugation with a small cross-section running parallel to the corner.