DE264189C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 42c GROUP

Patented in the German Empire on March 21, 1911.

The invention relates to a device for recording the horizontal projections of Pilot balloon tracks, which consist of a marking area and one that can be rotated in all directions Sighting device exists.

According to the invention, the marking device is guided so that it is perpendicular below an artificial balloon remains, which describes a path similar to the path of the pilot balloon,

ίο by holding one hand on a guide rod is moved upwards at a constant speed, on the other hand with the guide rod is moved on a horizontal rail so that it is always in the direction indicated by the sighting device remains. ;

The subject of the invention uses the well-known law that rubber balloons an even one, to be calculated beforehand from its weight and its free buoyancy Have vertical speed.

The device shown in the drawing in plan view and elevation consists of a fixed or transportable, but in any case to be determined during the period of observation, substructure α and a superstructure b containing the movable and writing parts of the instrument.

A horizontal support c made of paper or another suitable writing surface is stretched out on the substructure. A circular rail d leads around this writing surface c, on which the superstructure rests easily rotatable by means of several wheels or rollers e. In addition to the wheels, it carries an endless screw which can be rotated with rods f and suitable handles g and which can be brought into engagement with a thread h cut into the rail d itself or a similar rail attached to it. By turning the handles, the entire superstructure can be set in an azimuthal rotation. The base of the superstructure, on which the wheels and the azimuth fine movement are attached, carries - movably on a diameter of its circumference - the writing device i, which for example consists of a needle or other pen that is forced by a clockwork, in certain cases To put a mark on the paper in the meantime. If the diameter on which the writing device sits is brought into the azimuth of the pilot balloon and the stylus is adjusted to this diameter ih every moment so that its distance from the center k of the writing surface in the selected scale of the distance of the horizontal projection of the balloon from the same point corresponds, then these marks denote the horizontal projection of the balloon in the selected scale. Depending on the circumstances, this can be taken after about 1: 1000 to ι: 100,000. In order to achieve this, a second movement is connected to the above-mentioned clockwork, which has the task of creating an artificial pilot balloon with an in the same ratio as the

(2nd edition, issued February 7

wanted horizontal projection to increase at reduced speed. The artificial balloon is represented by a short screw nut m , which is made to rise by a vertical screw spindle η rotated by the clockwork I. The speed can be varied within wide limits by various means. You can see the pitch of the screw through

ίο Change change, and intermediate gears in the engine can also be switched on and off. In this way it is achieved that the center of the screw nut is always raised above a certain starting level, namely the horizontal axis of rotation of the sighting devices to be described, than corresponds to the respective height of the pilot balloon at the desired scale. The double clockwork and thus the entire marking device with the artificial balloon represented by the screw nut can, as already mentioned, move back and forth on a horizontal diameter of the superstructure and for this purpose slide on a slide guide 0 by means of an adjacent spindle p, in which a nut-shaped rotated piece of the sliding carriage can engage, back and forth along the diameter. By rotating the spindle p , the screw nut m representing the ascending pilot balloon can be brought into the correct spatial location of the pilot balloon itself according to the actual conditions and the assumed scale. This is achieved on the one hand by the fact that the vertical speed of the screw nut is maintained by the clockwork I according to the desired scale , and on the other hand the horizontal movement of the artificial balloon to be effected by turning the horizontal diameter spindle p in accordance with the movement of the reduced in the assumed ratio What remains in real balloons is that the zenith distance of both objects is constantly kept the same. For the latter purpose is located on the base of the superstructure, rotatable about a horizontal axis 9, which is perpendicular to the horizontal

5P zontal diameter spindle, a lightly built sighting device r, r, with which one follows the pilot balloon. This primitive sighting device is attached to two parallel rails s, between which - guided like a slide - the mentioned nut m representing the pilot balloon can slide by means of pins. By moving the artificial balloon back and forth by rotating the horizontal diameter screw, it is easy to keep it at the zenith distance corresponding to the natural balloon. Since the marking device is always located vertically under the artificial balloon, it is clear that the marked points really form the horizontal projection of the balloon path. Since the pilot balloons become too indistinct at a distance of 500 to 1000 m to be followed with the naked eye, the superstructure of the instrument carries a broken telescope t on each side of the primitive sighting device. The axes of rotation of the three sighting devices lie in a horizontal straight line which is perpendicular to the sliding direction of the marking device. U can by a convenient device one of the two telescopes, or both with the primitive sighting device are coupled so that the pilot balloon can be as soon as he begins to be obscured to the naked eye, weiterbeobachtet with the telescope. If two observers are available, one can follow the azimuth movement and the other can follow the height movement of the balloon, so that in this way the observation becomes more precise and comfortable. Circular readings are not required, starting points for the azimuth counting can be marked on the edge of the paper by aiming at suitable fixed points on the horizon.

Claims (5)

Patent Claims: 1. A device for recording the horizontal projection of pilot balloon paths with a horizontal marking surface and a sighting device rotatable in all directions of space, characterized in that the marking device on the fixed marking surface by a movable body, for. B. a screw nut (m) is feasibly arranged, which describes a path similar to the path of the pilot balloon in space. 2. Apparatus according to claim 1, characterized in that the movable body on the one hand on a vertical guide rod (s) can be moved upward at a constant speed, on the other hand is arranged together with the guide rod (s) on a horizontal rail so that it is always in the sighting direction of the sighting device (r, r) can remain, the pivot point of which is arranged at an unchanged distance from the marking surface. 3. Device according to claims 1 and 2, characterized in that several sighting devices (r, t) are provided for the purpose of the simultaneous use of several observers. 4 · Device according to claim ι, characterized characterized in that the needle directed perpendicular to the writing surface effected marking automatically, z. B. by a clockwork. 5. Apparatus according to claim 1, characterized in that the vertical guide rod (s) is designed as a screw spindle which is automatically rotated by a clockwork. 1 sheet of drawings.