DE490107C - Procedure for the remote transfer of images using the intermediate cliché method - Google Patents

Description

The invention relates to a new one Method and devices for remote transmission of images o. The like. Using existing telegraphic or telephone lines or wireless transmitters and Recipient. The known, wire-working methods for image transmission are based that electrical impulses of varying strengths, which correspond to the light intensities of a correspond to a large number of individual surface particles of the image, sent by the transmitter and at the same time used at the receiver for the immediate reproduction of the image. This requires very precise synchronization of the transmitter and receiver. There are also known methods in which the image points not in electrical impulses of various strengths, but in impulses of different durations.

With the method of the so-called intermediate clichés one has here z. B. perforated paper strips used, on which then the extension of the punched holes the pulse duration certainly. The present invention means an improvement of this method, which consists in not making holes of different sizes on the paper strip, but that of the same size Holes are applied, in which case the pulse duration is determined by the fact that for a group of holes is formed for each current value, in which a start and a the End of the impulse determining hole have a certain distance.

The invention is illustrated in an example on the accompanying drawing.

Fig. Ι shows schematically the elements that form the transmission system, Fig. 2 the elements the receiving system; Fig. 3 shows a circuit diagram for the transmission circuits and Fig. 4 an example of a playback device.

The transmitting device according to Fig. 1 includes a transparent drum 1, on the The image to be transferred is attached to the outer surface and a Light source 3 is located. At a suitable distance from the drum is a device 5 provided, for example, a light-sensitive cell with associated circuits contains and a control device, for the subsequent registration device forms. Between this control device 5 and the drum 1 is a lens 4 to to concentrate the light on the sensitive cell. The drum 1 is matched with Speed, ζ. Β. by a motor 2, set in uniform reversing reluing. Means for axially displacing the drum 1 or the control device 5 are also provided provided with lens 4 so that through both

Movements successively light from all points of the image to the photosensitive Cell falls. The gear for both movements consists of a worm 2 'on the Motor shaft with the associated worm wheel 3 'on the drum and the one coupled to it Gear 4 'which, through a screw-threaded axle 5', controls the side shift the control device 5 causes. From the control device 5 lead suitable electrical connections to the registration device 6, by means of which a paper strip is punched. This then serves to control a mechanical pulse generator 7. A number of images can be registered on a strip of paper and stored in such a way that until their transfer is desired.

Fig. 2 shows schematically 'the elements' of a receiver. 8 is any electrical Line or wireless receiving device operated by a registration device 9 is used to produce a perforated paper strip from the received pulses, e.g. B. a Creed's perforator as is well known in the art. The perforated strip is then fed to a playback device 10, which is in a still to be described Way converts the registered impulses into the picture.

Fig. 3 shows the circuits of the control device 5 and the registration device 6 of the transmitter. The light coming from the light source 3 and penetrating the BjId mounted on the drum is concentrated on the photocell 11 by the lens 4. This is with the leash pole on the battery 13, which has an EMF of about 400 volts. The positive pole of the battery is connected to resistor 12 of about 20 megohms. The other end of the resistor is at the other pole of the photocell. The voltage drop across this resistor 12 can be used to control the apparatus. This is done via a three-electrode tube amplifier 16, the grid of which connects to the negative end of the resistor. 12 is connected, while the anode is connected to the positive pole of a voltage source via a series of windings O of the relays 21, 22, 23, 24 and 25. This consists z. B. from a triple conductor direct current system of 11 o volts, the neutral point of which is connected to the heating wire of the tube 16. One terminal of the potentiometer 14 is also at this neutral point; the other is connected via resistor 15 to the negative 11 o volt pole. The sliding contact of the potentiometer is at the positive end of resistor 12. The potentiometer has about 400 ohms and resistor 15 about 200 ohms resistance. A 6 volt source supplies the heating current for the glow wire of the tube via the regulating resistor 18.

Simultaneously with the rotation of the drum ι is a commutator 19 with two segments moved whose contact arm with the negative no-volt side of the three-wire system connected is. A segment of the commutator is through the punch coil 20 of the perforating device connected to the neutral point. Likewise 'are the anchors of the relays 21 to 25 connected to the neutral point, but every fixed mating contact of the relay via one of the punch coils 31 to 35 of the perforating device with the negative 110 volt terminal.

Each of the relays 21 to 25 contains two windings, a working winding A ₁ which pulls the armature against the fixed contact and thus closes the circuit through one of the punch coils, and the Gegenwickhmg O ₃ which opens the circuit again. The working windings A are connected on one side to the neutral point of the supply source, and on the other side to the sliding contacts of the potentiometers 26 to 30, which are parallel between the positive pole and the neutral point of the supply source and whose purpose will be explained later.

For punching the strip 36 is suitable, for. B. the well-known Kleinschmidt PerforatoT which the punch bobbins 31 to 35 themselves do not directly effect the punching of the strip, but only control the stamps that correspond to them, while the punching is done by the stamp coil 20.

As the drawing shows, when there is no lighting, all of the punch coil circles are open of the image takes place, and no punch is brought into working position. The same is the case when the light hits a dark part of the image. When a If a bright spot is hit and full light falls on the lens, all relays are 21 to 25 closed, and all punch punches are brought into working position. It is by the way It is not important whether the device is set so that the punch in the dark or bright areas of the picture work, because the arrangement of the transmitter or receiver reversals can easily be effected.

The mode of operation is as follows: If the picture is attached to the drum, the Device placed so that at the beginning of the rotation the light beam from a corner of the image is projected through the lens onto the photocell 11. The gear ratio between motor 2, drum 1 and commutator 19 is controlled so that a Excitation of the stamp coil 20 for 0.8 mm of rotation of the drum takes place. Who-

If you want even finer details, this distance is made even smaller. if the light from the picture falls on the photocell, the current through it is known in the known Way changed, d. H. if no light falls on it, the resistance has a certain one Value; the stronger the light, the smaller this resistance and the greater the current that flows through the cell and

ίο the resistor 12 flows. As the value of this Resistor 12 is very high, the voltage drop across the ends of this resistor will be fluctuate with the current and thus with the light intensity of the image. It can be seen that the grid of the tube 16 is a gets negative charge, which is greater when the current through the cell 11 is large. I. E. the brighter the image at a given point, the greater the negative charge of the grid of the tube 16 and the smaller the anode current. The potentiometer 14 is regulated so that this negative charge has a sufficient effect in reducing it of the plate current has to re-Iais2i to 25 in the manner described below.

The potentiometers 26 to 30 and the potentiometer 14 are set so that the punch coils 31 to 35 are closed when the plate current is a minimum at a point of high light value, ie the counter coils O are weaker in their attraction. The strength of the working coils A is progressively changed so that the relays successively, starting from 21, open as the plate current of the tube 16 increases according to the darker parts of the picture. The light value determines the number of perforations on the strip. With the highest light value, all punches are brought into working position, with lower light values correspondingly fewer punches; each time the stamps set according to a specific surface element of the image are carried out

the next excitation of the stamp coil 20 caused by the commutator 19 brought to work.

Immediately after each work of the stamp, the strip 36 is advanced into a new position. Holes B 'B' in the bottom row and BB in the top row on strip 36 separate the pulse groups which represent the light intensities from various surface particles of the image. When the strip runs through the transmitter, the hole B comes into effect earlier than the hole B ', since the contact tongues that are assigned to them take effect one after the other. The holes/?' of the strip close a circle, which sets the momentum. The pulse then lasts until it reaches another hole in the top row. In the sequence of holes drawn, the hole E ₁ that follows B in the top row determines the end of this pulse. So this is an impulse that corresponds to the strongest light value in the image. The holes following E have no effect, since no pulses are sent again until the next hole B ' comes into the transmitter. For a light value that is a little less intense, the anode current of the relay will grow so far that, for example, the relay 21 opens; the coil 31 is then not energized, so that a hole E does not come about. In this case hole / ^{7 is} the next one following B '; therefore the transmitted pulse is twice as long as before. Similarly, if the light intensities continue to decrease, the holes G, H ₁ I will be those which determine the end of the pulse, so that the different light intensities of the different image parts correspond to pulses of different durations.

As already mentioned, the received pulses are used at the receiver to produce a strip that is identical to the strip of holes for transmission, and the image can then be reproduced from this strip. Such a playback device shows e.g. B. Fig. 4, wherein an automatic Wheatstone transmitter of the known type is shown in connection with the actual playback device. The transmitter is driven by a motor, not shown, which causes the strip 37 to be progressively drawn through its housing. The transmitter closes and opens a circuit containing the magnet 46 and the battery 47 at intervals that coincide with the perforations of the strip. The magnet 46 controls a light pen, for example. This consists of a light-tight chamber 44 in which there is a film strip on a drum 43 on which the image is to be reproduced. The chamber has a slot 45 in front of which a housing can be reciprocated 1% in the longitudinal direction. The rotation of the drum 43 is provided by the motor, which also drives the strip no 37 through the drum 43 by means of the middle row of holes and at the same time moves the housing 38 by means of a screw spindle. This contains a light source 39 and a lens 40 in order to cast a cone of light through the slot 45 onto the film strip in the chamber 44 ■. The magnet 46 opens and closes a shutter 41 between the light source and lens and thereby regulates the exposure time of the film. When a point on the strip 37 passes the apparatus, it corresponds to a very bright one

Light spot of the picture is perforated (short pulse and long pause), the shutter is closed momentarily and again immediately opened so that the film is exposed for a relatively long time. The shutter stays longer for a less bright spot closed, the exposure time becomes shorter. So points are created on the film, whose intensity corresponds to that

ίο Length of the transmitted pulses.

It is clear that in the method described, the speed of the drum 3 of the transmitter and the drum 43 of the receiver are independent of each other. the The only condition that must be met is that a certain number of hole groups is produced for each full revolution of the drum 3, and that the ratios of Reproducing device must be chosen so that the same number of hole groups one full revolution of the film drum 43 corresponds.

Claims (9)

Patent claims: i. Process for the remote transmission of images and the like using the method of intermediate clichés, in which the markings on the cliché determine the duration of the electrical transmission pulses, characterized in that a perforated paper strip is used and ■ the recording device used for perforation by the differently strong current values in which the picture elements are known Way, is controlled in such a way that for each current value one of the pulse of the telegraphic Sender or the image reproducing apparatus generating hole group is formed in which a hole determining the beginning and the end of the pulse have a certain distance. 2. Facility for carrying out the procedure according to claim 1, characterized in that a device for perforating 'a strip of paper from one Series of relays (21 to 25) are controlled successively on different respond to strong current impulses that follow one another according to the light intensities Image particles are generated by a photosensitive device such as a photocell (11). 3. Device according to claim 2, characterized in that each relay (21 to 25) has a punch (31 to 35) which, arranged in a row, generate a group of holes for each step of the strip (36), such that from a special hole (B) which determines the beginning of each section and thus the beginning of a transmission pulse in the transmitter to the next hole (E, F, G, H, I) which determines the end of the transmission pulse, depending on the excitation of the relay! is generated at a different distance so that the transmission pulses have different durations corresponding to the light values of the image particles. That the relays are each fitted (21 to 25) with a particularly powered work coil (A), the closed contacts of the relay, and thus the circuits of the punch coils (31 to 35) hold 4. The device according to claim 2 and 3, characterized in that , and with counter windings (O), which are excited by the current pulses generated by the photocell, so that they open the circuits of individual punch coils depending on the strength of the excitation dependent on the light intensities of the image. 5. Device according to claim 2 to 4, characterized in that the counter windings (O) the relays (21 to 25) are all connected in series and the Working windings (.A) successively different "are strongly excited, so that so the countercurrent with increasing current impulses the relays gradually open one after the other. 6. Device according to claim 2 to 5, characterized in that the counter windings (O) the relay is fed from the anode circuit of a tube amplifier (16) whose grid is dependent on one of the photocell (11) changing Voltage is controlled so that the anode current with the changing light values, which from the picture on the photocell fall, sways. 7. Device for carrying out the method according to claim 1, characterized by a receiver (8) for receiving the through the punched tape (36) of the transmitter sent pulses, a per se known hole writer (9) for producing an identical hole tape (37), and a device for restoring the image from this punched tape. 8. Device according to claim 7, characterized in that for restoration of the image through the perforated strip (37) on the one hand an electrical pulse transmitter is controlled, the pulses different durations according to the light values of the surface parts of the transmitted one Image generated for the purpose of controlling a writing device for generation the pictorial impressions on the Area particles of the picture base of the reproduction, and on the other hand the movement of this picture base is controlled correspondingly with the writing device.
9. Device according to claim 7 and 8, characterized in that a photographic Writer is used, its light shutter (41) between the light source (39) and the film (43) is controlled by the pulses. 1 sheet of drawings