DE218701C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 218701 CLASS 77 h. GROUP

To achieve convenient transportability of the skeleton of airships while at the same time Maintaining the advantages of the rigid system is the whole skeleton of the airship's length after can be dismantled into individual frames, which according to the invention can be folded in a special way are.

The device is evident from the figures. The longitudinal belts α α are divided into transportable lengths of about 15 to 20 m at the points χ χ by screw connections. The radial struts bb are articulated to the longitudinal belts α α at the points χ χ , while they are hinged in the middle to common rings cc. In the spread state, the diagonal and circumferential tensioning cables dd and ee made of steel wire cables are under tension in the outer fields formed by the longitudinal belts α α , so that a rigid whole is achieved. The lengths of these tension ropes are adjusted in such a way that the radial compression struts bb can only be erected up to a certain inclined position by an axial pull acting on the central rings cc. This axially directed train on the ring c is achieved by a central tensioning cable f with tensioning device, which is either only attached between the individual frames in the balloon skeleton according to FIGS. 1 and 2 or also runs through the whole balloon or connects all rings c and only between the last Single frame and the balloon hood in the skeleton according to FIG. 4 is tightened by a clamping device. After loosening the tension cables f , the whole skeleton collapses. The shape of the individual framework in the collapsed state in the balloon according to FIGS. 1 and 2 is shown in FIG. 3, while it can be seen in FIG. 5 in the balloon according to FIG. 4. The advantage of the balloon skeleton according to FIGS. 1 and 2 is that the length of the folded single frame is shorter than that of the skeleton according to FIG. 4, where the length of the radial struts is added to that of the longitudinal straps. On the other hand, the skeleton according to FIG. 4 offers the advantage over that according to FIGS. 1 and 2 that only a single clamping device needs to be released in order to collapse the entire balloon at once.

The gas-filled balloon single cells g are pushed into the cage-like single frames and strapped to the longitudinal straps and the radial struts, so that a smooth, unchangeable outer surface is created over the whole balloon, even in the event that a cell should be emptied of gas. The balloon envelopes can only be left loose on one or two longitudinal straps in order to be able to pull the balloon envelope out or push it in with the help of mechanical devices, similar to a bellows, for the purpose of adapting the volume of the balloon to its respective state of equilibrium and without ballast discharge or dynamic Means to be able to rise and fall rapidly. The balloon envelopes are expediently removed from the individual frames during transport

(2nd edition, issued on March 16, 2015

And transported on their own so that they are not damaged. The balloon envelopes can, however, instead of being pushed into the interior of the individual frameworks, via the Longitudinal straps, similar to an umbrella cover, are tensioned. In this case need possibly the covers not to be strapped to the longitudinal belts, but are Seals necessary for the longitudinal belts passing through the circumference.

For the longitudinal belts α α and the radial struts bb can tubes or aluminum lattice girders or bars made of any other light and relatively strong material, such as. B. bamboo can be used.

Claims (3)

Patent Claims: i. Foldable scaffolding for cylindrical or torpedo-like airship carriers, characterized in that the scaffold is erected by shifting the longitudinal straps fa) in the radial direction with the aid of radial struts (b) and axial tensioning cables ff J , and in this position on the one hand by the axial tensioning cables, on the other hand by special Circumferential and diagonal ropes are kept in tension. 2. embodiment of a folding scaffold according to claim 1, characterized in that that an axial tensioning cable is attached in the middle between every two adjacent individual scaffolds, the radial Fold the struts of a single frame both inwards. 3. embodiment of a folding scaffold according to claim 1, characterized in that that only a single continuous central tensioning cable is present, the radial struts of a single frame fold inwards at one end and outwards at the other. For this purpose ι sheet of drawings. Berlin. printed in the