DE3400083A1 - Aerodynamic brake for rotating bodies, especially projectiles - Google Patents

Abstract

Aerodynamic brake for a rotating body, especially a projectile, characterised by a ring (5), which is slotted at two diametrically opposite points to form two walls (7, 8) in the form of arcs and is mounted on the rotating body (1), and two sheet-metal strips (9, 10) which are placed in such a manner about the inner and outer surfaces of these walls (7, 8), are mounted in such a manner on the inner surface in each case, and are extended in such a manner at one end of the walls (7, 8) in each case by elements (11, 12) which are essentially of the same length as the strip sections resting on the outer surfaces of the walls (7, 8), that these two strip sections, together with the extension pieces (11, 12), open under the influence of the centrifugal force and of the aerodynamic drag to form braking wings for the rotating body (1). <IMAGE>

Description

Aerodynamic brake for rotating bodies, in particular

Projectiles The invention relates to an aerodynamic brake to the Rotation of rotating bodies, especially projectiles or their components, to break.

The need to brake rotating movements is known to those some rotating bodies are subject, especially projectiles or their components. The speeds of such movements can reach very high values, for example 15,000 revolutions / minute.

To solve this problem, devices are known that consist of metallic, consist of appropriately shaped elements.

These are made by mechanical processing, by die casting or made of thin metallic sheets that are folded on top of each other or in different ways be welded. The connection with the rotating body is made by welding or by a hinge system attached to it.

In all cases, the devices mentioned have the disadvantage that they have flexibility zones, namely where the parts are subjected to particularly high loads are (joints or welds). In addition, when using articulated wings their operational readiness predetermined by the fact that they are against at the moment of opening pushing a runner in order to then return to the equilibrium position, which has a negative effect on the immediate effect of the braking action.

An aerodynamic brake has already been used to mitigate this disadvantage proposed for rotating bodies, the at least one pair of wings made of sheet metal strips ent holds that are attached to the rotating body that she at two diametrically opposed branches in the manner of wings tangential to this body stand, with these points at the same time generating the rotating Body are.

The invention is based on the object of an aerodynamic brake to create their performance and mechanical resistance greater than those of the known brakes and which nevertheless have relatively low production costs caused.

To solve this problem are the characterizing features of the claim intended.

For a better understanding of the invention, the aerodynamic according to the invention Brake explained below with reference to the accompanying drawing. They show: FIG. 1 a cross section of the aerodynamic brake at rest; Fig. 2 is a longitudinal section the brake at rest; 3 shows a cross section of the brake in the operating state; and FIG. 4 is a perspective front view of the brake in the operating state on a reduced scale Scale compared to the other figures.

According to FIGS. 1 and 2, a rotating body 1 carries a fixed on it Hub 2 with an annular, the rotating body 1 surrounding and a thread 4 having collar 3. A ring 5 has a rim 6 with a thread that is intended to be screwed onto the thread 4 of the collar 3, and is excluded split at the edge 6 at two diametrically opposite points to two curved Walls 7 and 8 to form. A sheet metal strip 9 or 10 is placed around each curved wall wrapped on the inner surface of the wall in any suitable Attached in a way, e.g. by gluing or welding. The rest of the sheet metal strip is free. At one end of each curved wall 7 or 8, the sheet metal strip 9 or 10 is extended by a piece 11 or 12, which is essentially the same length as the strip piece has around the outer surface of the correspondingly curved wall is wrapped.

after the sheet metal strips 9 and 10 around the correspondingly curved walls 7 and 8 are wound (in Fig. 2 a view of the sheet metal strip 10 is shown, to show more clearly how this wraps around the curved wall 8) the ring becomes 5 screwed onto the collar 3 until the free ends of the curved walls 7 and 8 are tight are fixed in seats 12 and 13, which are provided in the hub 2. The whole Device is contained in an outer wrapping (not shown), which will remove at the predetermined moment.

The aerodynamic brake described works as follows: If the rotating body is shot down, it rotates.

Therefore, the extension pieces 11 and 12 of the sheet metal strips 9,10 as well as those parts of it that wrapped around the outer surface of the curved walls are, after separation of the outer covering due to the centrifugal force and the aerodynamic drag from its essentially tangential rest position deflected until they end up in a stretched, essentially radial position, which is shown in Fig. 3 and 4 In this operating position they practice in form wings or ribs have a braking effect on the rotating body. Otherwise, the device in FIG. 4 is shown reversed compared to FIG.

The aerodynamic brake described is extremely simple in its Texture and can be easily and quickly mounted on the rotating body. Nevertheless, their function has proven to be very effective in practice.

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Claims (1)

Claim aerodynamic brake for a rotating body, in particular a storey characterized by one with the formation of two arched walls (7,8) slotted at two diametrically opposite points and at the rotating one Body (1) attached ring (5) and two sheet metal strips (9,10), which are so around the inner and outer surfaces of these walls (7,8) placed in such a way on the respectively inner surface attached and so at one end of the walls (7,53) each are extended by pieces (11,12) which are essentially of the same length as those at deri outer surfaces of the walls (7,8) adjoining Strelfenabsohnitte are that these two strip sections together with the extension pieces (11, 12) below the influence of centrifugal force and aerodynamic drag on brake pads open for the rotating body (1).