DE730129C - Device for the automatic determination of the bearing direction - Google Patents

Description

Device for the automatic determination of the bearing direction Addition to Patent Xlo 662 The main patent includes a device for automatic determination the bearing direction for such direction finders are described in which one has a tracking system controlled directional system a periodic pendulum movement around the bearing direction executes. According to the invention in the main patent, the periodic oscillatory movement acts of the directional antenna system via elastic links to an inertial mass which, due to its inertia, is unable to follow the rapid vibrations and itself adjusts according to the anthmetic mean value of the vibrations. Minor remaining Movements of the inertial mass around the bearing direction can be caused by an additional Steaming, e.g. B. practically disappear with the help of an eddy current brake to be brought.

According to the present invention, the weight of the display device becomes significantly reduced by the fact that the elastic intermediate links with the Directional antenna system coupled inertial mass, which the periodic pendulum motion of the directional antenna should average around the bearing direction. by a well-managed Body (disc of low mechanical inertia is replaced. And that the required Moment of inertia by means of eddy current damping generated by the body is achieved.

In Fig. 1 a .tusführungbeispiel the invention is shown. The axis of the directional antenna system oscillating periodically around the bearing direction is denoted by N. With this axis, the pointer axis A is elastic via a spring coupled. On the pointer axis A sits one out of a good ladder. z. B. aluminum, existing brake disc B, which is through the field of a Dauerma Giteten M moves and thereby an eddy current damping of the whole with the pointer 7 coupled system. The disk B can be made thin and light will.

So the spring when switching to the bearing of another transmitter F is not stretched too much and the pointer Z does not close the new bearing direction large deceleration is except for the elastic coupling between the axles A rigid coupling is provided for N and A, but this only comes into operation, when the axis of the directional antenna system rotates by an angular amount that is coarser is than the normal pendulum amplitude when receiving a weak transmitter. As an an example for the rigid coupling in Fig. 1 there is a fork firmly connected to the axis i's' T, the two prongs of which are rigid as stops for the one with the pointer axis A. coupled driver X are new and have such a large distance from one another that the driver with normal oscillation of the directional antenna system around the bearing direction does not touch the tines.

The amount of pendulum motion of the directional antenna system generally depends on the reception conditions of the tracked transmitter. The weaker this transmitter occurs, the greater the pendulum amplitude, i.e. H. from the pendulum amplitude ' Draw conclusions about the DF reliability For this reason it is desirable. auger to provide a pointer to the pointer for the steady display. the rigid with the The axis of rotation of the directional antenna system is coupled and the oscillations of the same recognize there.

In Fig. 2 such a display device is shown in which in front of a common scale so two pointers play, of which the pointer is above one elastic intermediate link, the pointer Z, rigid with the axis of rotation of the directional antenna system is coupled.

The two pointers can be rotated on the same axis and are designed in this way. that one points from the inside and the other from the outside at the bearing scale.

Claims (4)

PATENT CLAIMS: I. Device for the automatic determination of Bearing direction with the help of a directional antenna system controlled by a tracking system, that performs a periodic pendulum movement around the bearing direction, according to patent 710 662, characterized in that the by elastic intermediate members with the directional antenna system coupled inertial mass, which is the periodic pendulum motion of the directional antenna system to average around the bearing direction, lower by a highly conductive body (disk) Mechanical inertia is replaced and that the. Required moment of inertia by means of an eddy current damping produced by the body is achieved. 2. Apparatus according to claim 1, characterized in that mechanically rigidly connected to the directional antenna system, le drivers (stops) are provided. when the usual pendulum amplitude of the directional antenna system is exceeded Take the pointer coupled with you via the elastic links. 3. Apparatus according to claim I and 2, characterized in that in front of a common scale a rigidly coupled antenna subsystem with the directional antenna and play a pointer coupled via the elastic intermediate links. 4. Apparatus according to claim 3, characterized in that the two about the same axis rotatable pointers are formed such that the one pointer from the inside and the other from the outside points to the circular scale.