DE471808C - Telegraph system with circulating distributor - Google Patents

Description

Telegraph system with revolving distributor The invention relates generally refer to automatic telegraph systems, particularly automatic ones Switching devices for reversing the direction of traffic over a telegraph line or a telegraph cable. It includes means by means of which the operating direction an automatic telegraph circuit with a minimum of loss of time as well as can be automatically reversed in a way that makes the correct. connection of the telegram, regardless of when the circuit is made.

Automatically operating overland telegraph lines are becoming common operated using multiple systems with one to four special Simultaneous transmissions in one or both directions over a single wireline possible are. This system requires the line to be doubled by an artificial one Line at both end stations, which leads to difficulties with cable operation. It it has therefore been proposed to operate a cable as a simplex line by one only sends in one direction for a period of time and then in another Period of time to reverse the transmission direction, giving each end station the same opportunity get their deals done with the least delay.

A device for automatically reversing the transmission direction via a line or cable is described in British Patent Specification 228 828 of August 2, 1923 . There the reversal is effected by means of several relays in connection with rotating cam disks to determine the duration of each reversal. The use of relays to operate the reversing switches is not recommended because of the time required to operate them and because of the additional circuits required. In addition, the relays easily fail, requiring constant monitoring and repairs.

The present invention avoids these inherent in the known systems abuses and makes the use of relays and their associated control circuits obsolete by using cams for the direct drive of the switch power. The neck disks that control the circuit reversing switches are finalized each transmission period rotated by r8o °, while the moments when these reversals should take place, with absolute accuracy, through a series of neck discs be determined with the continuously working, those provided on both end stations rotating interrupter driving motor are engaged by gears. These are the N: okk disks that cause the timing of the reversal period provided with teeth for different speeds; but they close periodically their switches at the same time and thus create a circuit, the the triggering of the lim reversing switch cam disks is monitored. The time intervals between these corresponding positions of the cam disks are determined beforehand by the relative sizes of the various drive wheels as well as by the shape of the cam disks. The time intervals between the coincident Positions of the cam disks can be changed by using other cam disks uses or replaces the drive gears. The duration of the periods for the Transmission can be adjusted in either direction so that a stronger Traffic is provided in one direction than the other. .

In the further description of the invention reference is made to the enclosed Reference is made to the drawing, which is an automatic according to the invention Telegraph system illustrated schematically. In this system, the switches automatically actuated in alternating periods to the transmitter on one end station and to put the receiver on the other end station on the line to get in one Direction to telegraph, and the recipient on the one station and the Sendex on the other station to lay on the line to go in the opposite direction to telegraph. Furthermore, in the telegraph system shown, they are synchronous working timing cam disks provided, one on each station, which control the switches and thereby the duration of the transmission and reception periods. determine.

Each of the end stations of the cable C is equipped with a rotating distributor RD of the known Baudottype, which has fixed contact rings arranged in pairs, i, il, 2, 21 USW, on which the brushes b, b1, b2 etc.W. ribbons. The brushes are driven by a motor running at constant speed. In the drawing, the rings are shown unwound in the usual way.

The brushes of the two distributors are kept in synchronism with the aid of a known correction method, for example that in the amerika.n, i.-patent specification i 253 899 by R @other -mel. The device in question contains a correction relay CR which cooperates with the brush b3 sliding on the distributor rings 4, 41 in order to actuate the magnet M and to cause the brush displacement device indicated at S to move the brushes O slightly forwards or backwards for the Case that they shouldn't be exactly in phase. Since the circuit and mode of operation of the correction device for the brushes in the cited patent by Rotherme 1 and every specialist are familiar, they are not shown in the drawings. It is common practice to set the motor on one end station so that it rotates at slightly greater speed than the motor on the other station so that the correction device shifts the distributor brushes driven by the faster running motor in reverse so that they align with the brushes of the advance another distributor a little. In this way, if the motor io on station A is set at a slightly greater speed than the motor io on station B, the correction device on station B, if this is the receiving station, will act on an advance of the brushes as soon as it is they should have fallen slightly behind the corresponding phase position of the brushes on station A. On the other hand, if B is the transmitting station and A is the receiving station, the correction device S on station A will push the brushes back, since they constantly strive to run faster than the brushes on station B. In this way, the brushes on the end stations are kept exactly in synchronism and in the correct phase relationship with the incoming bursts of characters and thus also in phase with the brushes of the distributor on the sending station.

The transmitters T, the key character bursts in correspondence with the perforations of the transmitter tape on the segments, the distributor ring 31, are of the well-known Western Union type, as described in the American patent i 298 440 by B enjamin of March 25, 1 9 1 9 is described.

The key character bursts are transmitted via the cable from the printer relay PR received and from the relay reed through the distribution rings 5, 51 and the brush b4 transferred to the magnets of the printer indicated by PM.

According to the present invention, the switching apparatus is on the one Cable end that the transmitter and the transmitter rings 3, 31 of the distributor for the purpose of sending which controls the character impulses in the cable, as well as the switching device on the other Cable end that allows the printer "to print the key characters in accordance controls with the bursts of characters received via the cable by the printer relay PR, operated by cams seated on the shaft i2a of the motor 12. The cam disks on the end station A are shown in the position in which they connect the cable to the transmitter connect. The disk cl connects the cable with your massive Ring 3 of the urilaufenden distributor RD., And as soon as the brush b2 over the segments of the ring 31 goes away, the positive and negative polarities that go through the position of the contacts of the transmitter T set by the perforated tape is determined - are sent in the cable as the positive and negative current surges of the selected Key symbol, which is represented by the perforations in the tape.

The contacts controlled by the cam disk c3 close the circuit through the actuating magnet in the transmitter. The contacts controlled by the cam disk c- open the circuits of the printer PM and the printer relay PR as well as the correction relay CR.

At the end station B, the neck discs have the opposite position. The contacts controlled by the disks cl connect the cable to the windings of the printer relay R and the correction relay CR. The contacts controlled by the cam disk c3 open the circuit of the transmitter magnet , so that the transmitter T cannot work. The contacts controlled by the neck disc c2 are closed and thereby connect the tongue of the printer relay PR with the solid ring 5 of the circulating distributor, so that the bursts of characters received by the relay PR are transmitted to the magnets of the printer PM when the brush bi runs over rings 5 and 51. Furthermore, they connect the tongue of the correction relay CR to the solid ring 4, so that correction current surges are sent through the divided ring 41 into the magnet M, with the result that the blister displacement device S shifts the position of the brushes on the shaft of the drive motor io, if they are not in the right phase with the incoming bursts of characters.

The transmission from station A to station B takes a certain amount of time For a while, until the motors 12 on each station to reverse the position of the neck disc be operated. Once this reversal occurs, the neck discs are in place on station A in the position they occupy in the drawing on station B, and the N-okk disks on station B are in their positions are shown in the drawing for station B. Accordingly now takes place the transmission of the characters in the direction from station B to station A takes place.

One of the most important features of the invention lies in the method of precisely timing the periods during which the characters are transmitted in one direction and the precise point in time at which the inverters at each end station come into operation. The time measurement device comprises several circuit switches 1 5, 1 6 and 17 which are periodically closed by a series of continuously operating cam disks 18, 19, 20 rotating at different speeds. The cam disks are driven by the motors io by means of a suitable gear that reduces the rotational speed. In practice it has been found that when the motor io drives the brushes of the rotating distributor at 300 revolutions per minute, the cam disk 18 at four revolutions, the disk i9 at one revolution and the disk 2o at 1/12 revolutions per minute the minute 'can be driven. The switches 15, 16 and 17 monitor the circuits of the drive motors 12 which actuate the reversing switch cam disks cl, c2, c3.

It can be seen that the neck washers have their switches at once close each revolution, but only once at different revolutions the Neck disks close the switches at the same time and that this is done at the same time Closing occurs periodically with interruptions of the same length. These intervals can be precisely determined in advance by changing the cam disks or the gears and be changed. So instead of the neck disc 2o you can use a disc zoa, the Has two or more cams, for the actuation of the switch 17 use.

With the arrangement and design of the cam disks in the manner shown, the effectiveness of the timing device is as follows: After a certain period of time, the two slower-running neck disks i9 and 2o simultaneously close the double switches 16 and 17 positive battery terminal 23 runs through the external contacts of switch 16, the external contacts of switch 17 and motor 12 to negative terminal 24. The motor 12 starts moving as a result and continues to rotate for a certain time, about 20 seconds, while the slowly rotating neck disks i9 and ao are in contact with the switches i6 and 17. The shaft i 2a does not rotate with the motor 12 because it is connected to it by a friction clutch 26 and the shaft is prevented from rotating by a pawl 27 which engages a tooth of the climbing gear 28.

Within a few seconds after the engine has started and while the cam disks i9 and 2o keep the contacts of the switches 16 and 17 closed, the cam disk 18 closes the contacts of the switch 15 and thereby creates a circuit from the positive pole of the battery 3o the distributor ring i, the brush b, the lower half of the ring i1, the conductor 32 ,, the conductor 3q., the inner contacts of the switch 16, the inner contacts of the switch 17, the conductors 35, the switch contacts 15, the conductors 36 and the magnet 38 leads to the negative pole 24 of the battery. The magnet consequently attracts its armature and moves the forked pawl 27 across the teeth of the climbing wheel 28. The pawl is provided with two pawls which are offset from one another so that when the lower pawl is withdrawn from one tooth, the upper pawl reaches a position in which it engages the next tooth of the steering wheel. Since the motor 12 is rotating during this time, part of the friction clutch 26 is also rotated. As soon as the lower claw of the pawl is withdrawn from the climbing gear, the shaft-i2a rotates with the coupling 26, but only by a distance which is equal to the distance between two adjacent teeth of the climbing gear, since the other claw of the pawl moves into the next tooth of the climbing wheel engages. This slight movement of the shaft i2a causes the notched disk c5 to push the switch arm qo out of the notch and close the contacts of the switch, thereby forming a different circuit for the helical gear magnet 38 which is shunted to the switch 15. Shortly thereafter, the fast rotating cam disk i 8 opens the switch contacts 15, but a circuit for the magnet 38 is maintained at the switch 40, so that during every half revolution of the brushes, which are driven by the motor io at 300 revolutions per minute, the Magnet is excited by a circuit that leads from the positive pole 3o of the battery via the ring i, the brush b, the lower half of the ring il, the conductor 32, the conductor 341, the switch qo, the magnet 38 to the negative pole 24 . In this way, the pawl 27 with the magnet is attracted and withdrawn in rapid succession by its spring when the brush b rapidly circles around the rings i, il, and each time the pawl is operated, the pitch wheel 28 is released, thereby enabling the shaft to rotate around a tooth pitch. If the notched disk 5 has rotated through 180 °, the contact 40 enters the opposite notch; he thereby opens the contacts at 40 and interrupts the circuit of the magnet -, 8. During this step-by-step rotation of the shaft i2a by 180 °, the position of the cam disks cl, c ", c3, which actuate the changeover switches, is reversed, thereby changing the direction of the character transmission through the cable. This rotation of the camshaft i2a by i8o ° and the corresponding Adjustment of the switches @ cam disks takes only about 6 seconds, while the cams i9 and 2o hold the switches 16 and 17 closed for about 25 seconds, so that the motor 12 is operated during a period which begins slightly before the point in time at which the Steigradmagnet 38 comes into action. The rotary movement continues for a few minutes after the circuit for the said magnet is interrupted.

It was mentioned above that the tongue of the correction relay CR on the Receiving station current surges on the magnet M through the correlation rings q., 4l and the brush bs transfers in the manner described in the R o t h e r m e 1 patent, to operate the device S for moving the brushes when the brushes something should be out of phase. The correction relay C12 is activated by the key character bursts actuated. To the brushes during the short period in which the reversing switch the circuit connections in preparation for a change in the transmission direction reverse and, accordingly, no characters are transmitted, in the correct phase to keep a cam disc as well as a switch is provided to various To supply surges of current to the brush displacement magnet M during the switching period. For this purpose, the magnet M is connected to an auxiliary circuit 42 which a switch 43 contains. A cam disk c4 on the camshaft i 2a is with different notches that cause the deal switches to alternate open and close and thereby actuate the phase correction magnet M.

Claims (5)

PAT EN 'rANs11i <äc: l1L: i. Telegraph system with circulating distributor, in which transmitters and receivers provided at the end stations are alternately placed on the line by switches that are connected to electric motor-driven cam disks, characterized in that the switches are controlled alternately directly by the cam disks the transmitter of one station and the receiver of the other station for the purpose of transmission in one direction and the receiver of the former and the transmitter of the other station for the purpose of transmission in the other direction to the line, in such a way that synchronously working timing devices on Each station monitor the start-up of the cam disks that directly control the switches and thereby determine the duration of the transmission periods. 2. Telegraph system according to claim i, characterized characterized in that the cam discs are on one with the engine through a friction clutch connected shaft sit, the rotation of which is monitored by a steering wheel mechanism controlled by an electromagnet, the circuit of which is below the Control of one of the rotating brushes of the distributor is in such a way that the climbing wheel allows a gradual rotation of the camshaft. ;. Telegraph system according to claim i and 2, characterized in that the camshaft with a locking cam disk is provided that opens the circuit for the climbing gear magnet when the shaft has rotated a certain amount, thereby increasing the total rotational movement of the Camshaft is monitored during any switching process. q .. Telegraph system according to claim i to 3, characterized in that. the engine runs periodically set and, after the cam disks (cl to c5) have rotated i8o ", is stopped. 5. Telegraph system according to claim q., Characterized in that that the individual elements of each group of timing cams with different Revolve speeds and interact to create the reversing motor and reversing cam discs to set in motion. as soon as all timing cams have a predetermined one take a relative position.