DE521782C - Television system - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
MARCH 26, 1931

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21a ¹ GROUP

Electrical Research Products, Inc. of New York, V. St. A.

Television system Patented in the German Reich on March 29, 1928

is used.

The invention relates to opto-electrical transmission systems, and more particularly on television systems, in which at the same time as the transmission of the picture to be reproduced in the remote receiver a corresponding control image is generated on the transmitter side using a synchronized splitting disk and a light source, which is from the outgoing image stream is controlled.

It has been proposed to use a control image in systems of the type described above to be generated by means of a light beam that is modified by the main image stream, which acts on devices which are in series with a selenium cell which the Source for the changes in the image stream and in the transmission line. These Arrangement is inexpedient, because the fact that the main image stream through the the control image generating device is sent, an undesired modulation in the currents that are sent out to create the image in the remote receiver.

According to the present invention, the above-mentioned disadvantage is avoided by that in parallel with the circuit or transmission path over which the Image current is supplied to the remote receiver, a circuit is arranged that the Light source (z. B. a glow lamp, neon lamp o. The like.) Controls the control device.

An embodiment of the invention is shown in the accompanying drawing, in which

Fig. Ι shows the most important parts of a transmitting station according to the invention.

Fig. 2 shows the splitting disk and the angular displacement of the surveillance field of view in relation to the main field of view.

According to FIG. 1, the cutting device of the transmitting station contains a powerful light source 20, the light of which is directed through the lenses 21 against the cutting surface of the cutting disk 22 . The light beam emitted by the light source is thrown through one of the openings 23 in the cutting disk, the opening 31 in the screen 30 and a lens 32 onto the object 10, the image of which is to be generated, the opening 31 being dimensioned such that it closes at any time only allows the light coming through a single opening in the cutting disk to pass through. The cutting disk 22 is driven by the motor 11 at a constant speed. The rotation of the disk 22 causes a small, intense beam of light to pass through one after the other

all openings in the disc is thrown, whereby the object whose Image to be transmitted is illuminated in a series of parallel strips or lines will. The light emanating from each surface element of the illuminated in this way Object is reflected, hits one or more photoelectric cells 40. The photoelectric current generated in the photoelectric cells 40 is in the Amplifier 50 amplified and a suitable transmission system, for example the modulator 60 and the antenna 70, pressed on. In the system shown here, an electrical Wave used for transmission, but a metallic line can also be used will. The circuit 101 is separated from the output circuit in one place branched off, in which the signal is imposed on the route, and a small part of the signal current is fed to the detector 100. The output current of the detector is, after passing the switch 103, amplified in the amplifier 110 and on it a glow discharge receiver lamp 120 pushed on. The one sent out by this lamp Light changes in accordance with changes in the transmission route impressed signal current. Of the

Signal stream used for monitoring purposes can also be sent to any other Place branched off, for example at the output lines of the amplifier 50. The circuit 102 branched off at this point is connected to the amplifier via the switch 103 110 in connection and causes the glow discharge receiver lamp 120 is excited by the signal current taken from the output lines of the amplifier 50 when the switch 103 is flipped to the left. The switch 103 facilitates the monitoring of several places, but can only one place at the same time of the signal circuit with the monitoring circuit.

The lamp 120 is connected to the transmitting device by being arranged behind the pane 22 used when the object is dismantled. The lamp and the devices interacting with it must be attached in such a way that they do not interfere with the transmission activity of the disk 22. For this purpose the inspection body, for example by an angle of 90 ⁰ or 180 degrees to the decomposition point. According to the illustration, the shift is 90 °. A screen 30 with an opening 121 is arranged in front of the decomposition disk 22 and the receiver lamp 120, whereby the field of view is limited in such a way that at any moment only the light falling through a single decomposition opening is thrown onto the observer. The image appearing in the opening 121 is rotated by means of mirrors, prisms or the like by an amount which is proportional to the angular displacement between the transfer position and the image generation position of the splitting disk, so that the observer can see the depicted object in a normal position.

Thus, a single disc 22 may be as used for both the Ableuchtung of the object whose image is to be transferred, for the production of the observation image, which are arranged in spiral shape openings are distributed to more than 23 360 ^0th The whole spiral extends over 360 ° plus the angular distance between the openings 31 and 121. The details of this arrangement are shown in FIG. The radial length of each of the openings 31 and 121 is equal to the radial distance between an initial opening and an end opening which are offset from one another along the spiral by 360 °, and the width of these openings is equal to the pitch distance between two adjacent decomposition openings. It is therefore clear that only one of the openings 23 can be located behind the opening 31 or the opening 121 in the disk 30 at any given moment. Since the decomposition for the transmission takes place by means of openings which are arranged in a spiral of 360 °, the Herste]-Lung the monitoring image must be made by means of openings which are arranged in a spiral 360 ^0th "It must also between the separation openings, which are at a given moment in front of the field of view openings 31 and 121. Finally, it is necessary that the above-mentioned decomposition openings are in phase, ie the openings of the decomposition disks which pass through the field of view openings 31 and 121 at a given moment This effect can be caused by the fact that the spiral used for the transmission is lengthened in accordance with the distance between the openings 31 and 121, that is to say by 90 ° in the arrangement shown in the drawing, so that the total length of the Spiral is 450 °. The opening 121 is arranged somewhat closer to the center of the disk than the opening ung 31, namely by a distance equal to ¹ Z _{1 of} the radial depth of the spiral in a 3Öo ^o -stelkuig. The opening 31 is located by the same amount further from the disk center removed, so that the openings 23 of the separation disc, when a way of back 360 ⁰

Claims (2)

Laying over happen at both openings 31 and 121, even if the total length of the coil 450 ⁰ and the angular distance between the openings is 90 °. P λ τ ι: ν τ λ ν S ρ R ü CHE: ι. TV system in which simultaneously with the transmission of the distant Recipients of the image to be reproduced have a control image that matches this is generated on the transmitter side using a synchronized splitting disk and a light source controlled by the outgoing image stream, characterized in that in parallel with the circuit or transmission path through which the image stream is supplied to the remote receiver a circuit (101 or 102) runs, which the light source (120, e.g. a glow lamp, neon tube) controls the control device. 2. Installation according to claim 1, characterized in that the cutting disk is provided with openings which are arranged in a spiral shape and extend over 360 ^° plus the angular distance between the transmission scanning (31) and the control receiving opening (121). 1 sheet of drawings