DE2547945B2 - WINGS FOR A ACCUMULATOR VEHICLE - Google Patents

Description

The invention relates to a hydrofoil for a barrage wing vehicle which is connected to the surface of the earth or water forms a storage space that is open in the direction of travel and has a thin, curved profile.

In such vehicles, a strong increase in lift close to the ground is achieved by that the dynamic pressure when moving forward is absorbed by a relatively large inlet cross-section, while the specially designed rear edge and the side borders provide the actual storage space complete and prevent or complicate the drainage of the back pressure. This creates an overpressure under the vehicle, which acts as a dynamic air cushion under the wing that forms the storage space trains and generates the desired increase in lift.

Such vehicles are mainly equipped for driving over the water, since Water surfaces are well suited for this. In this operating range, however, the defect occurs that the wing underside the device is exposed to high local loads due to waves. It is therefore required to use a stiff and thus relatively complex construction for the wing. As a result, the wing, as the predominant component, becomes the weight and price-determining assembly. Furthermore, the transport of the rigid wing to a deployment site is made difficult by its bulk.

From the DT-OS 23 03 972 a wing of the type mentioned for a tandem dam vehicle is already known, which has a relatively thin curved profile. This wing must be in the Above-mentioned relatively complex construction are carried out and is because of its bulkiness can only be transported to its place of use with great effort.

The object of the invention is to provide a wing of the type mentioned with a relatively low To create structural weight that also makes it easy to transport the device to the place of use guaranteed to the place of use.

To solve this problem it is proposed according to the invention that the wing from a There is a holding frame as a storage space limitation and a flexible skin stretched over it.

This arrangement has the advantage that the wing weight makes up a large proportion of the total weight is significantly reduced, thereby creating favorable payload ratios. Furthermore, the The advantage is that the skin is only subjected to tensile stress and certain small forces arise, which are derived via the holding frame. At the same time act in water operation during start and landing due to the waves occurring no bending forces on the underside of the wing. It just kick partial compressive forces, which are absorbed by the flexible skin as tensile stress, so that heavy, complex support structures are unnecessary.

In order to create a system that can be easily dismantled, it is advantageous for the holding frame to be inherently rigid Collapsible rod system is formed.

To achieve a large storage space with a favorable inlet opening, it is provided that the Holding frame is held by a fuselage arranged in the middle of the storage space.

So that the main part of the forces is not directed over the holding frame, it is advisable it is provided that the flexible skin is additionally attached to the fuselage as part of the holding frame.

An advantageous development of the wing is that its holding frame by the side arranged delimitation hulls and these connecting cross members is formed.

In the drawing, the invention is based on exemplary embodiments for storage wing vehicles for Water operation shown schematically. It shows

F i g. 1 a damming-wing vehicle with a triangular wing and a fuselage assigned in the middle,

F i g. 2 shows a bird cage vehicle according to FIG. 1 with dismantled holding frame and

F i g. 3 a ram-wing vehicle in the manner of a catamaran with a rectangular hydrofoil.

The stowage wing vehicle according to FIGS. 1 and 2 consists of a fuselage 1, which is connected to a tail unit 2 is equipped and also has a drive unit 3. The fuselage 1 is here as a hydrostatic one Buoyancy bodies designed as in flying boats. The fuselage 1 carries one to form a triangular wing Holding frame, consisting of rods 5,6, 7,8,9 and 10, which at the same time form a delimitation of the storage space 11. In this case, the body 1 is used as an element of the holding frame included. On the fuselage 1, the rods 5 to 10 are each arranged in an articulated manner and in such a way designed that they can be folded up and fastened to the fuselage 1 in the transport position. The so The Haiterrahmen formed results in an inherently rigid system and is provided with a flexible skin 12. In In this case, the skin 12 is formed from two parts. Furthermore, in the outer areas of the Wing 4 at the junction of the rods 5,6,7 or 8,9,

hi 10 stabilizing fins 13 and float 14 arranged.

According to FIG. 3, the stowage wing vehicle has corresponding laterally arranged delimitation hulls 15 and

not shown in more detail on the cross member, which receive a flexible skin 12 as a holding frame to the To form hydrofoils.

In the standing phase, the skin 12 hangs in each case holding frame formed by slack, while with a forward movement through the in the storage space 11 developing overpressure the skin 12 is stretched. The flight phase then takes place in the same way Way, as it is known in traffic jam vehicles. But there is the difference that the cladding 12 is only subjected to tensile stress and small, determinable forces arise.

1 sheet of drawings

Claims (5)

Patent claims: 1. Hydrofoil for a stowage vehicle, which is in the direction of travel with the surface of the earth or water forms open storage space and has a thin, curved profile, characterized in that that the wing (4) consists of a holding frame (5, 6, 7, 8, 9, 10) as a storage space limitation and a flexible skin (12) stretched over it. 2. hydrofoil design according to claim 1, characterized in that the holding frame (5, 6, 7, 8, 9, 10) is designed as an inherently rigid, dismountable rod system. 3. hydrofoil design according to claim 1 or 2, characterized in that the holding frame (5,6, 7, 8, 9, 10) is held by a fuselage (1) arranged centrally in the storage space (11). 4. hydrofoil design according to claim 3, characterized in that the flexible skin (12) is also attached to the fuselage (1) as part of the holding frame. 5. hydrofoil training according to one of claims 1 to 3, characterized in that the Holding frame through laterally arranged delimitation hulls (15) and these connecting cross members is formed.