DE953963C - Disc gas container - Google Patents

Description

Disk gas cylinders Disk gas cylinders have been in existence for a long time Time the task of avoiding the formation of a more or less large dead space, which fails as storage space. In addition, in the presence of such Dead space at the bottom of the container insofar operational difficulties because at the start-up there is air in the dead space, which is with the inflowing Gas can form a crushable gas-air mixture. It is therefore useful if the formation of such a mixture is avoided from the outset in that Ways are sought to prevent dead space. Same trouble also arise when a disk gas container is taken out of service.

It has already been proposed to use the closing body for this purpose, namely, to immerse the disc in a liquid and in this way to fill the dead space. This arrangement has the disadvantage that the entire base area the bottom of the container must be covered with a liquid to the required height got to. Because the liquid is distributed over the entire base area, it is all exposed to impurities precipitating from the storage gas. Is disadvantageous with this arrangement also means that a large part of the amount of liquid when it is started up again must be released so that the gas pressure can reach below the piston surface.

There have also been proposed disc gas containers in which the underside of the piston is provided with a central shoulder, which is the deepest Piston position in a recess in the foundation soil that serves to hold liquid immersed. Here is the underside of the piston, which is open at the top, and the corresponding foundation base conical. The gap remaining between the base and the piston is opened the liquid that escapes from the bottom recess through the piston neck when the piston is lowered is suppressed, filled out. According to the static height of the liquid column the piston top is also subjected to pressure; that leads to additional Reinforcements and considerable additional weight. Although this solution is suitable for a To prevent dead space formation. On the other hand, it has been found that there is a disadvantage arises from the fact that the ballast container designed as a displacement body is in the center of the disc is arranged. The disadvantage is that -the themselves in addition to the fluid pressure mentioned above, also the weight of the central loading body take up measured, so that even more stiffeners, which are in weight and cost unfavorable effects must be provided.

Finally, disk gas containers are known in which an additional weight is attached below the bottom of the disc. This additional weight is ring-shaped arranged and serves as an immersion body for a liquid seal. Through this Training is first achieved a deep center of gravity of the disc. By the use of the immersion body is also achieved that via a viewing room the seal of the disc becomes more accessible. This viewing room remains as a result the arrangement of the liquid seal practically gas-free.

In contrast, the invention relates to disk gas containers in which the underside of the disc with an approach that also serves as a ballast container is provided, which is at the lowest disc position in a for receiving liquid serving recess of the foundation soil is immersed and the liquid in presses the remaining gap between the piston and the base and fills it. The invention consists in that the approach is annular on the circumference of the Disc arranged and at the same time designed as a displacement body, the an annular recess provided in the foundation floor except for a gap fills out. This training makes it possible to use the annular displacement body as to form part of the rigid support structure of the disc. The displacement body and the supporting structure can thus be used together to accommodate the immersion the displacement body generated static pressure are used. The supporting structure forms a rigid ring with the displacement body, between which it acts as a membrane formed disc is arranged. According to the invention, the disc and the Foundation soil has a conical gap, which, however, compared to the known Constructions a slope from the center of the disc to the edges of the disc to have.

The training according to the invention results in extremely favorable conditions in terms of avoiding dead space and at the same time static training the disc with the supporting structure. The disc itself can be extremely light be designed, while the support structure of the disc as a result of the constructive Connection with the ballast container is very rigid. Such a training enables also the additional intake of larger amounts of ballast. It is also advantageous that the condensation can drain to the recess provided on the edge, where it is without further can be extracted.

An exemplary embodiment of the invention is shown in the drawing FIG. 1 shows a disk gas container with a raised disk and FIG. 2 shows a disk gas container with the disc completely lowered.

The disk gas container i shown in FIG. I shows the arrangement the disc 2 with the lateral support structure 8, which is located on the edge of the gas container with rollers 3 supports. According to the invention is a serving as a displacement body Ballast ring 5 is arranged on the outer edge of the disk 2. This displacement body 5 dips when the disc goes down in the annular recess 6, which is on The edge of the gas container is arranged and filled with a liquid 7. These Recess 6 - is on the outside of the ring foundation q. limited.

In the middle of the foundation soil, i.e. where the gap is reaches the highest point, the gas outlet or filler neck g is arranged.

The process of eliminating dead space is shown in the illustration in Fig. 2. The annular ballast body 5 is in the likewise annular recess 6 immersed and has displaced the liquid 7 from this recess so far that that this completely removes the remaining space between the disc 2 and the foundation soil has filled out. This representation in Fig. 2 clearly shows that when immersed of the ballast body 5 exerted by the liquid static pressures directly can be received by the support structure 8 of the disc 2. It surrenders from the fact that the disk z itself are extremely thin, namely designed as a membrane can.

Claims (4)

PATENT CLAIMS: i. Disk gas container, in which the! Underside of the disk with a. at the same time serving as a ballast approach is provided, which in the deepest position of the disk dips into a recess of the foundation base serving to hold liquid and thereby presses the liquid into the remaining gap between the piston and the bottom and fills it, characterized in that the approach is annular , is arranged on the circumference of the disc (2) and at the same time is designed as a displacement body which fills an annular recess (6) provided in the foundation floor up to the gap. 2. Disk gas container according to claim i, characterized in that the displacement body (5) is a part the rigid supporting structure (8) of the disc (2) and the displacement body together with the supporting structure for recording des when immersed of the displacement body resulting static pressure is formed. 3. Disk gas container according to claims and 2, characterized in that the disc (2) is designed as a membrane and between the support structure (8) which forms a rigid ring: 4. Disk gas container according to claim r to 3, characterized in that the disk (2) and the foundation base form a conical gap which has a gradient from the center of the disk (2) to the recess (7). Documents considered: German Patent No. 620 504; Austrian patent specification No. = 35 5 ° I-