DE1046700B - Modulated reflector for echo methods for radio or sound location - Google Patents

Description

Modulated reflector for echo methods for radio or sound location It is known in radar technology to identify modulated reflectors to use. In known reflectors of this type, the modulation is carried out by that a triple mirror periodically through a circumferential aperture in the form of a flat Reflector is partially covered. This does not interrupt the reflection, but only weakened, and there is an undesirable influence on the reflection characteristics instead of. Other known arrangements effect the modulation or characterization by mere movement of reflectors or

Reflector antennas or by changing the tuning of the same. The vote change requires resonance structures and controlled tuning means. According to the invention can For radio location or sound location, a practically 1000 / above modulation without Influence the reflection characteristics achieve that the wave energy well reflective and a predominantly absorbing surface so movable to each other are arranged that incoming wave energy from distant radiators at mutual Movement of the surfaces is alternately reflected and absorbed.

The invention is illustrated using two exemplary embodiments, which are shown schematically in Figs.

Fig. 1 shows a spherical cube-corner arrangement as they are for Seamark or land beacon is in use, Fig. 2 shows a cylindrical cube-corner arrangement.

The mirror assembly 1 of Fig. 1 is with the floating body 2 of The beacon is firmly connected by a neck 3. To get an intermittent reflection achieve, a rotating diaphragm 4 is provided, which is supported by a vertical shaft 5 is carried, which its drive by a arranged in the floating body 2, not received with the mechanism shown.

This drive can in a manner known per se for beacons from a Take place compressed air supply, or the sea itself can be used for the drive will. The aperture 4 is formed by a hollow spherical body that the spherical mirror arrangement 1 encloses up to the support neck 3 and the part, z. B. on its one half, impermeable to electrical waves and as an absorber is designed, while the other, in the drawing, the right half for electrical Waves is permeable. When the diaphragm 4 is rotated, half is therefore in each case the mirror arrangement is shielded by the absorber and the other half for reflection Approved. As a result, there is an intermittent one in time with the cycle period Reflection for wave energy arriving from any direction.

Fig. 2 shows an embodiment in which the intermittent reflection not by a rotating screen, but by one that moves axially up and down Absorber 6 is brought about, which is carried by a push rod 7, their Receives drive from a mechanism arranged in the float 2 of the beacon. Cube-corner arrangement 8 and absorber 6 are cylindrical in this embodiment. In the drawing shows the absorber in a half-open position.

The invention is not limited to the examples shown, on the contrary, there are still a number of amendments and other remarks in the frame the invention possible. In particular, the shape and mode of movement for the absorber could be be different. A particularly quick cover and release of the reflector allows can be achieved in that the absorber is like a blind with jointly hinged Rods or strips are to be brought into the shielding or releasing position. Furthermore, the movement of the absorber can also be done arbitrarily via a control line or be carried out directly by hand in such a way that with the reflected wave energy Morse code can be given. The invention is primarily with reflectors for electrical Waves can be used, but can also be applied analogously to reflectors for sound waves in air or water can be used.

Claims (7)

PATENT CLAIMS: 1. Modulated reflector for echo methods Radio location or sound location, characterized in that one is the wave energy well reflective and one that mainly absorbs it area are arranged so that they can be moved relative to one another, that emitters arriving from distant Wave energy is alternately reflected and reflected upon mutual movement of the surfaces is absorbed. 2. Reflector according to claim 1 for reflection in different directions, characterized in that all directions of reflection are simultaneously due to the absorbing surface shielded or released. 3. Reflector according to claim 1 for reflection in different directions, characterized in that its reflective surface for part of the reflection directions shielded and released for another part. 4. Reflector according to claim 2, characterized in that the absorbing Surface is designed as a jacket surrounding the reflector. 5. reflector according to claim 4, characterized shows that the jacket-shaped, absorbing surface surrounding the reflector by axial displacement into the shielding or releasing position is to be brought. 6. Reflector according to claim 3, characterized in that the absorbing Surface is designed as a rotating aperture around the reflector. 7. Reflector according to claim 2 or 3, characterized in that the absorbing surface in the manner of a blind with rods that can be folded together or strip is to be brought into the shielding or releasing position. Considered publications: German Patent Specifications No. 680 896, 701 060, 723 207; U.S. Patent No. 2,472,782.