DE625127C - Dry gas container with a metal jacket similar to a harmonica - Google Patents

Description

Dry gas container with a sheet metal jacket similar to a harmonica. The invention relates to a dry gas container that does not require any sliding seal is. Such containers, which consist of a lid, a base and a connecting these two härmonika-like coat exist, have already been proposed earlier. It has also been nicely recommended; this harmonica-like construction made of sheet metal made of metallic ones with a hole in the middle Discs, the outer and inner edges of which are alternately gas-tight with one another, for example are connected by welding. In these older arrangements, the pull-out, Harmonica-like part made of flat sheet metal. This has the consequence that very considerable Forces are necessary to the change in shape when pulling apart the accordion-like Coat. In addition, these shape changes in the holes provided Disc loads; which stress the metal in an inadmissible manner and with everyone. Filling or emptying the container to permanent shape changes in the individual sheet metal disks would have to lead.

These disadvantages are eliminated in the present invention in that that corrugated sheets are used to build the harmonica-like shell, which the changes in shape required when filling and emptying the container are only minor Oppose resistance.

To illustrate these processes, Fig. Ro serves. This shows schematically in cross section a part of a container of the scanned type.

a represents the bottom of the container; bi, b .. etc. are those with a sheet metal disks with a central hole, which form the harmonica-like casing. The cover that adjoins the uppermost shell rings is not shown. When filling the container here, for example, the jacket ring b3 would be in the inclined position b "', which is drawn in dotted lines the diameter of the outer ring fiber of this ring will decrease from dl to d2. That is, as stated above, a technical impossibility.

The shortcomings of the previous proposals are reflected in the present Invention eliminates that bent to the structure of the accordion-like shell or corrugated sheet metal rings are used, - which are so flexible; that they elongate under the influence of the stresses occurring during filling and emptying and can shorten.

The new container accordingly consists of a base, a lid and a harmonica-like one Sheath design made of corrugated sheet metal. The coat is made up of individual rings that consist of corrugated metal sheets. The outer and inner edges are alternating the superimposed rings articulated to one another; so that a pulling apart the rings can be done. When the container is empty, the rings are approximately positioned horizontally on top of each other; when filling, they are inclined with a changing inclination against each other, so that each individual ring assumes a conical shape. This change in shape is made possible by the corrugated sheet metal without significant resistance: the waves can either be radial, i.e. concentric to one another, or in the original direction get lost. The wavelength can be selected to be of different sizes, if necessary also sä large, that each two rings placed against each other form a single wave, and thus the entire jacket takes the form of a large corrugated iron pipe. The articulated one Connection of the inner and outer edges of the rings can be either. with the help of Hinge pin or the like - or by inserting resilient connectors be effected. '' The new container can be equipped with a known type of guide frame be provided; -he is- however. stiff. Enough, that - if necessary - you too can perform without a guide frame. In the latter case, it is advisable to use the edge to attach downward guide pillars of the lid, which reach down so deep, that when they are empty they reach the bottom with their lower end.

The container can have both a -round and a polygonal plan are executed.

In the accompanying figures, the invention is in a number of Aüsführwigsformen illustrated.

Fig. Z gives a vertical section through a container in which the corrugations of the sheet in the horizontal direction: circular-centric. to each other. Fig: z shows a section through an arrangement with extending in the circumferential direction Waves.

In Fig. I i. Is the bottom, 2 is the Deellel. Of the container. The coat, which connects the two, -consists of four rings 3, 4, 5 and 6; each of the rings has waves running horizontally; which are concentric, to each other and run to the middle of the container. The connection of the individual rings on their inside :respectively. outer edges zwird = caused by resilient metal sheets. These connecting plates can consist of one piece with the rings themselves, so that the rings are immediate merge. Closely. i shows the rings in the extended state. When emptying of the container fold the rings together and lie almost horizontally on top of each other. In this case, for example, the ring 5 comes into the dotted position 5 '. Both the inner and the outer circumference of the ring remains, as can be seen, "unaffected, while the shape of the waves changes. They get shorter and taller; simultaneously .longs or shortens the radial dimension of the ring. The outer ends will be guided vertically. The outer ends of the superimposed rings are '' through collapsible or resilient means? linked to one undressing the rings beyond the intended measure; beyond prevent. These security organs.? also serve as a stroke limiter for the ceiling12.

In Fig. 2, the embodiment of the invention is with in the circumferential direction trending waves shown. This figure also shows the individual Uantelrnge 8, 9, io and ii in the extended state. The waves that run in every Magtelririg flatten outwards, as can be seen from the cuts in planes a-a and b-b permit. In this arrangement, too, stroke limiting means 7 can be arranged for securing purposes be. The: outer ends of the rings are also guided here in the vertical and are reinforced by rigid ring supports 17. At., This arrangement finds a length and shortening the individual: rings in »the circumferential direction at that ring edge instead, which evades horizontally during the movement, with the same in this the latter direction: running waves a change in wavelength and wave height experience at the edge of the ring which lengthens or shortens, while at the other Ring, edge wave height and wave length remain unchanged. -The one between the two Parts of the ring lying on the edge of the ring also experience a change in the wave height and wavelength; and to a decreasing extent. The strongest wave changes: find instead of at the edge, which gives way horizontally, and then they constantly decrease up to the other aunt, who is led vertically. The ones provided here Ring carrier i2 can, of course, in a similar design Find the arrangement according to Fig. I use.

In both FIGS. 1 and 2, a guide frame 13 = is indicated. To the Chains 1q. be provided: which from the edge of the lid -over Hang guide rollers 15 downwards. The load on the lid due to the raised The weight of the jacket becomes greater the higher the Lid stands. The effect of the counterweight chain increases accordingly. It - has its greatest effect, when the lid is in its highest position. With lowering lid takes both the load from the pulled-out jacket part as well as the relief from the Counterweight chain.

In Figs. 3 and 4 the connection between the shroud rings of Fig. z shown on an enlarged scale. Fig. 3 shows the connection of the outer ring sides, Fig. 4 that of the inner again. In Fig. 3, 9 and fo are the outer ends of the jacket rings 9 and i o from Fig.2. On the outer circumference of the jacket rings 9 and io are a number Articulated hinges are provided, which consist of hinge pins 16 and these enclosing Joint halves 17 and 18 are made. The beams z2 are by means of T-iron i9- with the Joints connected. To ensure the sealing of the outer edges of 9 and io, sheets 2o are provided which run around the bolt 16, from there upwards and are bent down and connect to the outer edges of the Mahtelringe 9 and io. A particularly high-quality building material may be required for these connecting pieces Find use. These connecting plates 2o join the waveform outer edge of the rings 9 and io, as shown .in Fig. 5 is shown. Latter Figure gives a view in the direction of arrow A on Figure 3, the carrier 12 and -that T-iron i j is thought away.

4 shows the articulated connection of the shell rings io and i r the inside. There are very similar to Fig. 3 joints 21 with hinge pins 2z provided, and the connection on the inner edges of the. Jacket rings io and i i also takes place here by resilient inserts 23, which are attached to the edges of the Adjust the jacket rings and run undulating in the elevation and plan, similar - as shown in Fig. 5.

The wavelength of the cladding rings can be chosen arbitrarily within wide limits will. In Figure 6, an embodiment is drawn. at which the wavelength is like this is chosen large that two jacket rings, z. B. 24 and 25 or 26 and 27 together only ever form a single wave. For the most resistance-free working of the It is jacket design in the arrangements of FIGS. I and 6, that is to say with concentric Trending waves, it is important that the individual points of each wave when lifting and lowering, if possible, only move in the vertical direction and the lateral shifts be kept within the narrowest possible limits. Because these lateral shifts mean additional forces when lifting and lowering the lid and additional loads of the material, which - with relatively small "lateral shifts become strongly felt.

Fig. 7 shows an arrangement according to Fig. 6 in a partially filled state. The jacket has a total of 24 jacket rings, about half of which are folded and = half of it is pulled out. On the edge of the lid: 2 is a number of struts 28 arranged, which extend so far down that they are completely emptied Sit the container with its lower end on the floor. These struts 28 serve at the same time as guides for the corrugated sheet metal of the upper shell part. You can by diagonals be stiffened.

The new container is primarily intended as a completely dry container; but it can optionally also be carried out in such a way that the connection the inner and outer jacket ring edges spwie the connection between .den jacket rings on the one hand and. the bottom or the lid on the other hand through liquid cups takes place in a known manner. As can be seen in FIG. 7, the result is -im emptied Condition. A pretty significant dead space. This can be avoided in the known way are made of concrete, masonry, iron construction through appropriate installation or earth backfill. It can also be put to good use by arrangement of tanks for ammonia water. or other by-products or similar Way.

In order to avoid that the difference in gas pressure becomes too great when the container is empty and filled, the arrangement shown in FIGS. 8 and 9 is recommended. The area of the upper lid 2 is kept smaller than that of the bottom i. In this way it is achieved that in proportion to the smaller area of the cover, the gas pressure .generating load on the cover is lower. .In the lower position of the lid is only due to the load on this lid. even the desired gas pressure is generated. If the lid rises when the container is filled, the weight of the raised casing part is added to the load on the lid, thereby increasing the gas pressure. At the same time, however, the plan area of the lid, on which the gas pressure acts, has been enlarged by the plan area of the raised casing part, so that the same specific gas pressure as before is sufficient to carry the lid and the raised casing part attached to it. In this way it is possible to compensate for the influence of the jacket weight on the gas pressure as much as desired by inclining the jacket accordingly. This advantage is. with the arrangement according to Fig. 9 still associated with a - ' ni "gain in container content with approximately the same expenditure of material. Bottom and lid have the same area in Figs. 8 and 9, so require the same expenditure. The length of the surface line . at 9 is the difference of the arc length with respect to the chord length is only to be larger, thus having almost the same length and .damit almost the same material expense.. on the other hand, the Behäl- is terin halt greater, the included angle between the chord and arc surface - multiplied with the way of their center of gravity. With a little extra effort .also a considerable increase in the container content is achieved.

Both embodiments according to FIGS. 8 and 9 still have the advantage da4 the cover area is considerably reduced. Except for the resulting reduction des Baustoffaüfwandes: the advantage is still achieved that the on the lid acting unilateral loads, e.g. B. one-sided snow load, significantly reduced will; there now as a result. the smaller diameter of the lid also the lever arms the. one-sided loads decrease in the same proportion, so will be with arrangement According to Fig .. $ and 9 a special guide frame can be dispensed with, whereby another more economic benefit is achieved. The waveform in this version is selected in such a way that the drainage of precipitation and condensation water is ensured. If this is not feasible in individual cases, it can be caused by overflows known type - the water drainage can be achieved.

Claims (7)

PATENT CLAIM? -I. Dry gas container with a harmonica-like shape _ Sheet metal jacket, characterized in that the individual superimposed Sheet metal rings are so flexible that. they under the influence of when filling and emptying occurring tensions can lengthen and shorten. 2. Drier. gas tank according to claim i, characterized in that the individual rings (3, 4, 5, 6). with shape-changing shafts are provided, which are concentric to each other with the Container axis as a center, so run radially (Fig. I), such that as a result of when filling and. Emptying the container occurring change in curvature of the waves .the sheet metal rings have their inner and outer diameter completely or almost unchanged remain. 3. Dry gas container according to claim i and 2, characterized in that that the distance between the inner and outer shell diameter by 'a single Wave (2q., 25 or 26, 27) is filled, so that the vertical section through the jacket gives a steady wavy line in every filling state. q .. Drier, Gas container according to claim i, characterized in that the corrugations in the circumferential direction run (Fig. 2). 5. Dry gas container according to claim i and q., Characterized in that that either the outer or the inner edges of the individual jacket rings in the Change the filling to keep the same diameter and, if necessary, use rigid rings (12) are stiffened while the other edges change their diameter. 6. Drier Gas container according to claim i to 5, characterized in that; the. outer margins two adjacent sections by flexible spacers that limit the stroke (7) are interconnected. 7. Dry gas container according to claim i to .6, characterized in that counterweight chains (1q.) are arranged on the edge of the roof which hang freely down over pulleys (15). B. Dry gas container according to claims i to 7, characterized by a guide frame extending downwards from the cover (28) of such a height that, when the container is empty, its lower edge touches the ground. Dry gas container according to claims i to 8, characterized in that that the lid has a smaller area than the bottom and that the jacket accordingly narrows from bottom to top.