DE203139C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

■ '-.Jig 203139 CLASS 21 a. GROUP

ALESSANDRO ARTOM in TURIN, Ital.

Patented in the German Empire on June 11, 1907.

The device according to the present invention allows for its use a transmitter station for directed telegraphy electromagnetic waves in a certain direction to send into space and a continuous rotation of the direction of transmission without rotating the antennas, and when using them on a receiving station for directed telegraphy the direction

To determine ίο incoming waves, regardless of whether the corresponding donor station is or is not a directed telegraphy station.

For this purpose, for example, four antennas a, b, c, d are arranged and these are connected to one another by coils m and η , as indicated in FIG. As soon as these are induced by incoming waves, each antenna coupling is traversed by a high-frequency current, the size of which depends on the angle with the direction of the transmitter station. the coupling includes. Any high frequency current creates a magnetic field in the space inside the coils; these fields are composed and generate a resulting magnetic field, the size and direction of which depend on the size and phase of the two high-frequency currents and consequently also on the direction of the transmitter station. In order to determine the direction of the aforementioned resulting magnetic field, a third coil s is installed in this field. This is expediently connected to a wave indicator / and can be rotated freely about an axis which coincides with the line of intersection of the planes of the two fixed coils m and η . If you turn the coil s all the way around, you come to a point where the wave indicator shows the greatest deflection. In this situation, the plane of the coil falls in the direction of the donor station. If you turn the spool further, you will reach a point at which the wave indicator shows zero deflection. At this point the plane of the coil is perpendicular to the previous one.

It follows from this that it is sufficient to determine the direction of a donor station that Turn the moving coil until you get the largest or smallest deflection Has. . ■. ■

If you replace the wave indicator with a spark gap or another oscillating. excitation, the coils are excited by a high frequency current, and each Antenna coupling creates an electromagnetic field in the room. That by one the field generated by the couplings continues with the field generated by the other coupling Fields together, and a resulting electromagnetic field is created, its The size and direction depend on the size and phase of each of the two fields. Since you can turn the coil s size and phase of the individual fields at will can change, one must also size

and change the direction of the resulting field, in other words the direction of the waves to be sent out.

A device according to that shown in FIG. 2 can just as well be used to change the size and phase of the individual fields mentioned. In this figure, α c and df denote the antenna couplings. These are connected to four points equidistant from one another on a coil wound on an iron ring. Two points of this coil, which are diametrically opposite, are connected by sliding contacts with capacitance and spark gap. If one rotates these sliding contacts, one changes the excitation and the phase in both antenna couplings, as a result one also changes the direction of the transmitted waves. The device according to FIG. 2 is also suitable for receiving waves.

In the example described above, two couplings of perpendicular antennas are considered but it can also, without affecting the essence of the invention, the number of antennas, their design and The arrangement in the room can be changed, including the establishment of the air duct, its purpose it is to give and receive waves in a certain sense, can be anything.

Claims (1)

Patent claim; Air duct arrangement for directed wireless telegraphy stations with two or several fixed directional antennas, characterized in that each directional antenna is connected to a fixed coil and these coils in such a way. a movable link (e.g. a rotatable Coil or sliding contacts) are arranged that when used on a transmitting station, in which case the movable Limb is connected to a vibration exciter ■ when the movable one rotates Link a continuous rotation of the transmission direction is achieved, while when used on a receiver. interception station, with the vibration exciter being replaced by a wave indicator Rotation of the movable member by the position of the maximum or minimum Excitation of the wave indicator determines the direction of the incoming waves. 1 sheet of drawings,