DE475527C - Device for determining the position of a ship - Google Patents

Description

Device for determining the position of a ship. Measurement method of distances by applying the various speeds of propagation Hertzian (F. T .-) waves and acoustic (U. T .-) waves in water are known. Sound waves have also been used for this purpose. Furthermore are facilities become known in which the emission of such supersonic and high frequency waves takes place at the same time.

The present invention relates to a device at the same time Sending the two types of waves through a common generator that works simultaneously the transmission circuits of the F. T. and U. T. transmitters are excited. The U. T. waves will as known, by converting high-frequency currents into elastic waves by means of generated by a piezoelectric capacitor. Such a capacitor exists as known, made of quartz. The technical advantage of using U. T. waves arises, lies in the fact that the transmission circles of the U. T. and the F. T. waves at the same time can be excited by a common generator with high frequency current. Here it is possible that the high frequency currents of the generator in the two transmission circuits with the same frequency can be used. In the drawing is the invention for example shown. It therefore contains both the sending station and the receiving station a F. T. transmitter and receiver and also a U. T. transmitter and receiver. The capacitors for generating the U. T. waves can be adjusted in one direction are made using the fact that the rays are as opposed to U. T. waves directed towards those of ordinary sound waves that propagate in all directions and are sent out in an approximately conical shape. One can therefore feel the U. T. recipient to determine the direction from which the signals are coming.

Next one can use radio-goniometric methods to determine the Use direction using the F. T. waves to make this determination. The receivers can use an antenna or other Hertzian receiving apparatus be equipped to absorb the electromagnetic vibrations from all directions to be able to record, so with a directional Hertzian receiving system, for example a radio-goniometric framework that is beneficial with an underwater receiver for U. T. waves.

Two stations A and B are shown in the figure. With the sender A is a F. T: a transmitter connected to the d transmits through the antenna. The electrical circuit b acts on the transmitter c for the UT waves. This transmitter c is set up in such a way that it can be set according to the various directions. According to the invention, a common generator of electrical oscillations e is provided in order to excite the FT circuit a and the U. T. circuit b.

At the receiving station B, the F. T. waves from the antenna d 'is received and passed into circuit a1 while the U. T. waves pass through the receiving apparatus cl recorded and through the circuit b1 in electrical oscillations being transformed. The two electrical signals of the F. T. and U. T. broadcast run through the relay g, and you can listen to both of these with the handset f or by a registration device h for determining the between the two signals Make elapsed time visible.

The way it works is very simple. By closing a switch in the electrical circuit of generator e, station A sends FT signals from d and UT signals from c at the same time. At receiver B you first hear the FT signal. The directions from which this signal comes can then be determined with the aid of radio-goniometric methods, and the receiving apparatus cl of receiver B will then be set so that it picks up the UT signals as soon as the distance between the two star ions exceeds the range of the Reached UT waves. If you do not use a radio aoniometric frame at the receiving station B, you can also use the UT receiver c1 on this station to determine the direction of origin of the signals.

The time span between the UT and FT signals, measured on the apparatus h, gives the distance between the two stations by the equation d - v # t, where v is the speed of propagation of elastic waves in water, t is the observed time and d is the distance sought.

Claims (2)

PATENT CLAIMS: r. Device for determining the position of a ship to another point by means of simultaneous transmission of sound and electrical Waves through two independent transmitters below and above water to determine the Time difference between the arrival of the waves at the receiving location, characterized in that that by a common generator with high-frequency currents at the same time F. T.- and a -U. T. transmitter for supersonic waves are excited. 2. Establishment according to claim z, characterized in that the two transmitters simultaneously with the same frequency are excited.