US1851545A

US1851545A - Arrangement for the telegraphic transmission of pictures and the like

Info

Publication number: US1851545A
Application number: US450172A
Authority: US
Inventors: Doring Fritz; Schmook Rudolf
Original assignee: Siemens Corp
Current assignee: Siemens and Halske AG; Siemens Corp
Priority date: 1929-05-11
Filing date: 1930-05-06
Publication date: 1932-03-29
Anticipated expiration: 1949-03-29

Description

March 29, 1932. DU ET AL v 1,851,545

ARRANGEMENT FOR THE TELEGRAPHIC TRANSMISSION OF PIC'iURES AND THE LIKE Filed May 6. 1930 INVENTOR FRITZ D'RIIIG RUDOLF scnmoow ATEI'OR'N Y Patented 29, 1932 I UNITED STATES PATENT OFFICE FRITZ BORING, OF IBEBLIN-FROHNAU, AND RUDOLF SCHMOOK, OF BERLIN-CHARLOT- TENBUBG, GERMANY, ASSIGNORS TO SIEMENS & HALS KE, AKTIENGESELLSCHAFT, OF SIEMENSSTADT, 'NEAR BERLIN, GERMANY, A CORPORATION OF GERMANY,

Application filed Kay 6, 1930, Serial No,

In the telegraphic transmission of pictures and the like it is often necessary to use a coarse or a fine analysis, according to the type and manner of application of the picture. The changes in the connections, resulting therefrom, at the transmitter and receiver are particularly complicated and tlme-consum; ing in those apparatus in which a revolvmg perforated disk, disposed in the path of the rays, is positively connected with the picture cylinder. This difficulty arises because of the fact that in such an arrangement the driving gears must be exchanged and the perforated disk must be replaced by one with a different number of perforations in order to establish again, because of the change in the record carrier or cylinder, the most favorable transmitting frequency. The exchange of the gears could be avoided in evident manner by means of a feed mechanism but there would result, due to the varying engagement of the toothed wheels, troublesome sources of errors in the transmission.

According to the present invention, a switching arrangement is provided whereby,

for the purpose of changing the "size of the record carrier, the number of revolutions of the motor driving the picture cylinder may be varied while maintaining, at least in approximate manner, the optimum frequency of perforation. All time-consuming exchange is thereby avoided and the step from one record carrier size to the other is effected by means of asingle manipulation.

For the purposes of the invention, the perforated disk is provided with two or several concentric rows of holes and is arranged in pivoting manner so that, according to choice, one of the various circles of holes may be brought in the path of the rays. The frequency of transmission thereby changed, the dependency of the product of the number of perforations by the rotational speed, mustnow again be adapted, to say the least, for the purpose of maintainlng the optimum freuency given by the transmission channel, to

' t isfrequency and at the same time the number of revolutions'of the picture cylinder must also: be changed for the purpose of changing'the size of the analyzer. Hence,

450,172, and in Germany May '11, 1929.

ABEANGEMEN'I FOR THE TELEGRAPHIC TRANSMISSION 01 PICTURES AND THE LIKE I apason devices which influence the tone wheel of the driving motor. I Another alternativeconsists, when one tuning fork is used, hence one frequency, and with the use of a tonewheel, whose poles may be switched, or of two or several time wheels of different pole number, in switching the tone wheel, whose poles may be switched, or in switching in the corresponding tone wheel. At the receiving end the switching may be accom lished mechanically by hand due to the a sence of the perforated disk. Of'

course, there is nothing to prevent to accomplish the switching likewise electromagnetically by means of a key actuated by hand.

These features have been illustrated by the accompanying drawings, wherein:

Fi 1 to 3 show, by way of example, embodiments of the invention in schematic man- Referring now to the drawings, the perforated disk 3. arranged in the path of the rays of a projection lamp 5 is disposed in the pivot bearing 4 so thatit may pivot around axle 16 and is driven through-the intermediary of

toothedwheels

17, 18, 19, 20 by the driving motor 1?) with tone wheel 1a. The picture cylinder 2 is likewise disposed on the shaft 21 of the motor; The perforated disk is pro ided for instance with two rows of holes a and d, each having difierent numbers of perforations. Due to the pivoting. arrangement of the perforated disk 3, either of the sets of holes 0 or d may be brought, according to need, in the path of the rays from lamp 5. The limiting positions of the pivot bearing are indicated by stops? and 8. I

At the pivot bearing 4 is provided an arm 9 which actuates a contact 10. The contact 1 means of transformer 23an 10 is connected in the circuit of relay 12 and battery 11. With the energizing of the relay 12, the diapason-synchronizing

device

13, 14,

15 is switched in such manner that either the tuning fork 13 or the tuning fork 14 influences in frequency-determining manner the oscillating tube 22. The

tuning forks

13 and 14 respectively, are connected as coupling elements between the grid coils e, ,e respectively, and the plate current coil f, f", respectively. The synchronizing frequency is takenofi' from the joint part of the (plate circuit by conveyed over line 24 to the tone wheel 1a for the regulation.

The mode of operation of the arrangement is as follows: In the position of the'perforated disk as shown. the circle of perforations c is made use of, i. e., the smallest analyzer is employed. If there is now to be used'a larger or coarser analyzer, the pivot bearing is shifted by means of lever 25 whereby, without any change in the engagement of the driving gears, the circle of perforations dis switched in the path of the rays. perforation frequency, caused thereby, is now equalized again in the manner that by means of the switchingover of the relay 12 through switch 10 the tuning fork 13 with a corresponding higher frequency is switched in.-

Consequently, the tone wheel is imparted a higher synchronizing frequency with the result that the motor 1?; runs faster. Thereby the perforated disk as well as the picturecylinderis given a faster rotation. The increase in the number of revolutions of the perforated disk equalizes theperforation frequency, decreased due to the switching in of the perforation circle (2, and the increase in themumber of revolutions of the picture cylinder results in a coarser analyzer.

.Figs. 2 and' 3 explain in evident manner the arrangement when use is made of a tone wheel whose poles "may be switched. According to Fig. 2, the switching action may be accomplished by the relay 12 in such manner that with a smaller number'of switched in poles, with the same frequency, a higher number of revolutions will occur, and with a larger number of switched in poles a smaller.

number of revolutions will occur. Instead of a multiple tone wheel, there may also be provided several tone wheels of different pole number, according to Fig. 3, on a common shaft, ofwhich only one is inoperation at a change in the number of revolutions of the picture cylinder, respectively the synchro-' nizing arrangement. Hence, the switch 10 The decrease in the may be developed at the receiving end as key to be manipulated by hand.

Having now described our invention, what we claim and desire to secure by Letters Patcut is the following:

1. An arrangement for telegraphic transmission of pictures which includes a rotary picture carrying drum and means for driving the same, a rotary perforated disk for producing a chopper frequency in the light used for exploring the picture carried by the said drum, means for driving said disk from the drive motor for said picture carrying drum,

and a. switching device operable with changes in the size .of the picture carrying drum for producing a change in the speed of the motor drive for maintaining optimum chopper frequency from said chopper disk for all sizes of picture carrying: drums.

2. An arrangement for telegraphic transmission of pictures which includes a rotary picture carrying cylinder and a motor for driving the said cylinder, a rotary perforated disk for producinga chopper frequency in the light used for exploring the picturecarried by the said cylinder, means for driving said disk from the drive motor for said picture carrying cylinder, and a speed controlling device operable with changes in the size ofthe picture carrying drum for prodriven by said drive source for saiddrum,

means for changing the eflective row of perforations on said disk upon changesin the size of the picture carrying drum, and a switch operable with changes in the position of the effective row of perforations on said.

disk for controlling the speed of said source of power so as to maintain optimum chopper frequency for all sizes of picture carryingdrums. w

4.. In combination with an arrangement for the telegraphic transmission of pictures having a picture carrying drum driven from a variable speed source, a rotary light chopping disk having a plurality of concentric rows of perforations and adapted to be' driven by said drive source for said drum, means for changing the chopping action from one row of perforations'on said disk to another upon changes in the" size of the picture carrying drum, and a switch'operable with changes in the position of the effective row of perforations on said disk for controlhng the speed of said source of power so as to maintain optimum chopper frequency for all sizes of picture carrynig drums.

5. In combination with a picture transmission system having a rotary picture carrying drum and-a motor for driving the same, a light chopping disk having a plurality of concentric rows of perforations about the periphery thereof for producing a chopper frequency in the light supplied for analyzing pictures carried upon said drum, shifting said perforated disk so as to expose the different rows of perforations to light chopping action upon changes in the size of the picture carrying drum, a synchronizer for providing different frequency supply energies to said drive motor, and a switch operable upon changes in the effective rows of perforations on said disk for changing the frequency of the drive energy supplied to said motor for producing different speed rotations therefrom for different size picture carrying drums so as to maintain optimum perforation frequencies at all times from said chopping disk.

6. In combination with a picture transmission system having a rotary picture carrying drum and-a motor for driving the same, a light chopping disk havin a plurality of concentric rows of per orations about the periphery thereof for producing a chopper frequency in v he light supplied for analyzing pictures carried upon said drum,

' means for shifting said perforated disk so as to expose the different rows of perforations to light from the source upon changes in the size of the picture carrying drum, a

source of synchronous energy for providing different frequency supply energies to said drive motor, and means operable upon shifts in-the effective rows of perforations on said disk for changing the frequency of the drive energy supplied to said motor for produclng a constant but different rotational speed therefrom for dilferent size picture carrying drums so as to maintain optimum perforation freqiuency at all times from said chopping dis I 1 In testimony whereof we afiix our signatures.

' RUDOLF SCHMOOK.

FRITZ DORING.

means for