DE529891C - Method for wireless determination of direction - Google Patents

Description

Method for wireless determination of direction It is a method known for direction finding of electromagnetic waves in the directional transmitter and Omnidirectional receivers are used, with an omnidirectional first at the transmitting station - Time signal indicating the start of the transmitter's rotation, and then a directional one Signal is emitted, the plane of which from an agreed initial direction in: in an agreed direction at an agreed speed rotates so that at the observation point from the time difference between time signal and the largest or smallest volume of the directional signal the direction of the incoming wave and thus the position of the observation center in relation to the transmission point can be determined.

This procedure implies the use of a; Stopwatch ahead that when the uri = directed signal is received and when the Directed signal is stopped, and the measurement result is in a certain degree depends on the attentiveness and personal skill of the observer. In addition, the speed of rotation of the clockwise is only moderate, so that when it is repeated of the measurement tests for the purpose of checking and determining a more precise mean value a relatively long time is required.

According to the invention, this method is improved in that it is switched automatically, in that the stopwatch by a-synchronous optical display device rotating with the transmitter beam is replaced, whose - lighting up or going out is controlled by the receiver and thereby every time the receiver is excited by the rotating beam of the transmitter, causes a direct display of the beam direction.

The invention is illustrated purely schematically in the drawing.

S means the sender, E the receiver. The order. des - sender corresponds roughly to an arrangement known as the Telefunkenkömpass. R denotes the directional beam emitted by the transmitter and its plane, such as through the Arrow is indicated, the whole compass rose continuously runs through. The recipient: "e -Iia @, _ t an omnidirectional receiving antenna A üiid` the receiving and amplifying means V and also the optical indicator. This consists z. B. from the fluorescent tube L, fed by the output of the last amplifier and fixed on a disk M. is, by means of which it is kept constantly rotating with respect to a scale K. will. This rotary movement should be synchronous with the rotation of the directional beam R at the transmitter take place. Every time the directional beam R passes through the receiver, it becomes the fluorescent tube at a certain point opposite the scale through that of the Receiving antenna lighted up or extinguished, and This is always the position L1 "from which, therefore, immediately the direction to the Transmitter can be recognized. If the device is taken so that the speed of rotation of the transmitter beam and receiver indicator is fast enough, about ten up to twenty times a second, a continuous effect is created in the eye Light impression. - -If an initial position, such as the north-south direction, is on the scale is determined, so the bearing angle can be read directly from the arrangement. In order to make this reading even more convenient, it is useful from the transmitter, except the rotating, riclite beam, once at a certain point with each revolution given non-directional broadcast, for example by automatically switching on a omnidirectional transmitting antenna. This omnidirectional momentary broadcast then brings the fluorescent tube L of the receiver each time - at a certain point on its rotation to light up and thus determines the starting direction. The fluorescent tube then lights up so each time always in two places of its circulation, namely in the one through the Originally directed transmitter radiation determined the zero position and the directional beam certain bearing position, so that the bearing angle is immediately visible. Appropriate becomes the rotatable optical display device of the receiver with a device to adjust the phase of the luminous pointer. so that by the primordial Transmitter transmission-related zero position of the indicator - in a certain 'position the compass rose, most conveniently in the north-south direction, can be adjusted. The lighting of the tube every time in this through the primordial transmitter broadcast conditional zero position is also a convenient means, the rotating reception indicator in synchronism with the transmitter rotation. All you need is the speed of rotation of the indicator until the luminous pointer indicating the zero position has taken a fixed position on the scale and is no longer moving.

Claims (3)

PATENT CLAIMS: x. Method for wireless determination of direction, characterized in that with one of a transmitter in a manner known per se output rotating directional beam at the receiver an optical display device is kept in synchronous rotation. so that when the transmitter beam passes through pulses transmitted by the receiver from this to the display device direct indication of the direction. 2: Method according to claim z, characterized in that that the receiving device with each rotation once through a in a certain position of the directional beam emitted undirected 'radiation is influenced so that the optical display device also indicates a zero position during rotation. 3. Receiving device for carrying out the method according to claim x and 2, characterized characterized in that - an optical display device, e.g. B. a fluorescent tube, is kept in constant rotation relative to a bearing scale and thereby through the correspondingly amplified reception pulses from a properly directed receiver to the Call is brought.