DE1003976B - Axle-less globe - Google Patents

Description

Axle-less globe The invention relates to one in two diametrically opposite points can be rotated in all directions thanks to spherical bowls supported globe. In the case of the known devices of this type, which are attached to star globes are common, the dome-shaped shells are fixed, which means that they are always the same Position of the center of the globe should be guaranteed. The application of this facility on earth globes that z. B. in a table frame or in a fixed thereon At rest, the meridian bar has the disadvantage that the globe is not readily on all sides adjusted and, above all, cannot be removed.

In a globe of the type mentioned above, according to the invention the disadvantage avoided in that one or both dome-shaped shells are yielding are stored. As a result, the dome-shaped shells are only loosely on the globe so that you can easily look at it without scratching its surface Can rearrange and move pages, e.g. B. to such parts of the earth's surface to set the eyes of the spectator, which is difficult to see in the normal position are e.g. B. the area around the North or South Pole. You can also see the globe to the side, roughly perpendicular to that through the two centers of the colottes moving axle line, because this will cause the resiliently mounted shell or both shells dodge back. In addition, the resiliently mounted shell, the z. B. according to an expedient development of the invention in its center of a compression spring is supported to rotate about its central axis, so that the terrestrial globe thereby can easily perform its rotation around the earth's axis.

It is already known per se to flexibly store earth globes in the meridian bracket. For this purpose, however, it is not the bearings that are made flexible, but the globes by making them as inflatable rubber balls. To remove such a globe from the bracket, the air is blown off until the globe ball is compressed a little, d. H. can in turn give way to the rigid bracket bearing. however, these globes can only be rotated around their stirrup pins as an axis, but cannot be set arbitrarily on all sides. A ball which is under spring pressure and resiliently mounted in the meridian bracket is used as an abutment; however, its only purpose is to penetrate the rubber cover of the globe and thereby form a pivot for its rotation about the axis.

So that the resilient dome-shaped shell especially during the sliding out of the globe is secured against lateral displacement, can they according to an expedient development of the invention in a breakout of a be guided on the rigid housing attached to the meridian bracket. It can be useful the wall of the rigid housing facing the globe is also dome-shaped Form shell, from the breakout of the flexible, expediently from a spherical cage existing shell protrudes so that it is the globe at a distance from the dome-shaped Housing shell with game leads. In that the bearing housing with a clamping sleeve is provided, it can be placed anywhere on the meridian tire for any Inclined position of the globe are clamped. The bearing housing expediently contains the bottom a sleeve in which a compression spring the bearing shell at least around the piece of the Bearing shell lifts up around which the bearing shell protrudes outwards from the shell, so that it can also serve as the axis of rotation of the globe.

The drawing shows an embodiment of the globe, namely FIG. 1 the globe ball lying between two flexible dome-shaped holders in a front view and FIG. On the globe base 1 rests in a known manner of the meridian tire 2, which carries the axle bearings 3 , the z. B. can be clamped by means of a clamping screw 4 on the tire.

In the case of the arrangement according to the invention, the pipe socket 5 is seated on the axle bearing 3 and is expanded above to form a rigid housing 6 with the dome-shaped upper base 7 . The bottom 7 contains a circular opening in the middle, in which the shell 8 with the ball bearing cage 9 is guided and is pressed against the bottom 7 by the spring 10. The height of the ball bearing is dimensioned so that between its lower outer wall 8 and the bottom shell 6 remains a certain f Reies game. As a result, the globe ball 11 can be pushed in from the side between the two dome shells 7 until it rests on the balls 9 ; then one can move and adjust the globe ball in any direction and also rotate it around the two diametrically opposite shells 7 as an axis on the balls 9.

Claims (2)

PATENT CLAIM: 1. A globe rotatably supported on all sides by dome-shaped shells at two diametrically opposite points, characterized in that one or both dome-shaped shells (8) are resiliently mounted. 2. Globe according to claim 1, characterized in that the resilient shell (8) is guided secured against lateral displacement in a breakout of a rigid housing (6). 3. Globe according to claim 2, characterized in that the wall of the rigid housing (6) facing the globe forms a dome-shaped shell (7) from which the flexible, expediently made of a ball bearing cage (9) existing shell (8) in such a manner protrudes that it leads the globe at a distance from the dome-shaped housing shell (7) with play. 4. Globe according to claim 2 or 3, characterized in that the bearing housing (6) with a clamping sleeve (3, 5) is provided in such a way that the dome-shaped bearing shell (7, 8) can be attached at any point on the meridian tire (2) . 5. Globe according to claim 3 or 4, characterized in that the bearing housing (6) below contains a sleeve (5) in which a compression spring (10) lifts the bearing shell (8) from the rigid housing shell (6) at least by the piece , around which the support shell (8) still protrudes outwardly in front of the shell (7) , and in this way the sleeve (5) can serve as the axis of rotation of the globe. Documents considered: German Patent No. 624 129; Swiss Patent No. 169 374; French patent specification No. 761037.