DE1038596B - Strip outlet for telegraph equipment - Google Patents

Description

The invention relates to strip transport devices for telegraph equipment, which the message carrier, z. B. a strip of paper, run out at the end of the recording process.

The invention can be applied to various types of recording apparatus, in particular at printing receiving holes.

Writing receiving holes are motor-driven devices that: For receiving paper graphics messages serve via a subscriber line .. The messages are punched in the paper strip and sometimes written down at the same time. Such devices are mostly used in remote distribution offices, since the strip, when punched, can be used to convey the message content by means of Passing on punched tape to one or more remote offices. The punched tape transmitter feel the holes in the strip and convert them into corresponding telegraphic code characters in order to gradually transfer over a telegraph line to a distant subscriber sent, received there and usually recorded with a printing telegraphic receiver will.

To use the punched tape sender to read the entire content of the last message sent to the printed Receiving hole was punched to be transmitted, a sufficient length of strip must have run out of the receiving hole. Would be the space in between too little between two messages, the The message last saved in the punched tape may be caused by the sensing mechanism of the punched tape transmitter cannot be scanned.

In the case of the known strip receiving punch, the strip outlet is opened by unlatching the control cam socket causes which then circulates freely. This process is carried out manually by pressing briefly triggered by a push button on the receiving punch. This push button closes the circuit for one Electromagnet, which then unlatches the control cam socket and the response of a time delay appealing. Initiates contact mechanism, which then automatically cuts the strip down to a specific one Lets run out length. The time required for this is achieved by a worm drive, at which a rotating screw is under the action of an electromagnet. One carried by her After a certain distance, the thread closes a pair of contacts and thereby sets the rotation the control cam bushing still and herewith the further strip run-out.

It is also known to use one and the same combination for triggering different processes use, depending on whether the combination is one or strip outlet for telegraph equipment

Applicant:
International

Standard Electric Corporation,
New York, NY (V. St. A.)

Representative: Dipl.-Ing. H. Ciaessen, patent attorney,
Stuttgart-Zuffenhausen, Hellmuth-Hirth-Str. 42

Claimed priority:
V. St. v. America March 13, 1956

Howard W. Hoffmann, West Engelwood, N. J.

(V. St. A.),
has been named as the inventor

is received several times in a row. It is also known to take precautions that a simple repetition of the same sign does not trigger any other process, but only a second one or further repetition. These constructive solutions are complex and require! many transmission components.

In order to avoid the disadvantages of the known arrangements, the invention proposes that in known Way, when the character »change of line« is received repeatedly, e.g. B. after receiving four times of this character, at the end of a message and when the "carriage return" character is subsequently received an automatic strip run-out of a certain length from the printing receiving hole takes place by placing a pull rod in the receiving hole for the character "change of line" upon receipt of this symbol a set of contacts and the pull rod for the symbol "carriage return" upon receipt this sign another, contact set closes and that both contact sets when closing, on one Acting control circuit that contains a clutch release solenoid, which is a control cam bushing for the duration of the strip run-out and a time-delayed working Circuit which determines the duration of the strip run-out and which is activated when a step switch step by step by repeatedly closing the line change contacts in a certain position (e.g. in the fifth position) is switched.

809 637/229

In one embodiment of the invention, a punched tape transmitter is provided with two sets of contacts, which are actuated when the code characters »line change« and »carriage return« are received. Furthermore, an electromagnet is provided which, when a control current flows, the release lever holds the clutch in the position where its stop arm does not mate with the cam on the main clutch drive member cooperates. The control circuit contains a time-delaying circuit, which in Activity occurs when a step switch, which is normally in the rest position, by closing the carriage return contacts is located, switched step by step by the line change contacts in a certain (e.g. fifth) or a subsequent position will.

The invention is described in detail with reference to the drawings:

Fig. 1 shows the coupling mechanism of a known printing receiving perforator, which with the Subject of the present invention is modified;

Figure 2 shows how the "gap" and "carriage return" tension bars a known printing receiving punch actuate the contact sets;

Fig. 3 is a schematic diagram of the electronic time delay circuit; which controls the duration of the strip run-out.

Printing receiving holes are identified by a character code, generally by a five-digit code, actuated. This code consists of 32 arrangements of electricity and non-electricity telegraphing steps the code combination, each consisting of five such steps if a five-digit code is used. In order to print a specific character, the code combination assigned to that character must be used is to be received. Each group of five telegraph steps is preceded by a current step, which is not flow-filled, and further this group is followed by a stop step which is flow-filled. These Code combinations are punched on a strip of paper and the corresponding code combinations Characters printed at the same time. This strip is scanned in a punched tape transmitter and transmit the appropriate telegraphing steps onto the line.

In a known embodiment of a receiving hole punch, a continuously rotating motor is connected to a control cam bushing over a clutch when receiving a start step, with the aid of a lever which cooperates with a projection on the control cam bushing when the stop condition exists. A friction clutch bushing completes one revolution. At the end of a revolution, if there is a current-filled or stop condition on the line, the lug on the control cam bushing returns to the rest position and the cam bushing stops. During adjustment of the fifth selector rail, a sixth cam on the cam sleeve separates a clutch stop lever arm from the driven clutch member and allows the clutch to engage the clutch members. This causes the main cam and the punch lever arm to rotate. The punch lever arm transports the strips. The component that supports the clutch stop arm is known as a clutch apply lever. This lever is designated in Figure 1 with 46; Figure 1 shows the clutch and cam control sleeve assembly of a known receiver punch. The lever 1 is rotatably supported at points 2 and 2 'and is normally pressed against the cam surface 3 with a spring 4. The lever 1 is designed with two arms. The longer arm 4a has at its end a curved part which rests against the nose 3 of the driven part 3 '. The other arm 46 works together with the sixth cam 5 a , which is located on the cam control bushing 5. Now, when a start step has been received, performs the camming sleeve 5 a full revolution, at the end of this revolution of the sixth cam 5 rotates a the portion 4 under tensioning of the spring 4, so that the lever arm 4 is moved a out of the way of the cam 3 . L ^T nter the action of the spring 7a, the teeth of the driven part 7 with those of the part T driven by the motor shaft 6 come into engagement. The main cam 8 and the eccentric 9 of the punch lever arm now start. At the end of each revolution, the nose 3 runs against the stop lever arm 4a and disengages the teeth 7 and 7 '. In order to let the strips run out, as previously indicated, the part 1 must not interrupt the rotation of the driven part 7. In the subject matter of the invention, an additional component 10 is arranged on the clutch apply lever 1 with the aid of screws or other suitable fastening means. The component 10 can work as an armature with an additional electromagnet 11 which is fixed in such a position that it rotates the lever 1 in the clockwise direction when it attracts. The armature 10 holds the lever arm 4a in its attracted position out of the way of the nose 3, so that the driven tooth part 7 and the punching arm 9 continue to rotate and let the strip run out as long as the magnet 11 receives current.

In Fig. 2, a type lever 12 is shown which can rotate about the point 12 '. At the lower part of the lever 12 there is a gear sector 13. The lever 12 works together with a pull rod 14 which has a rack-like part 14 a which is in engagement with the gear sector 13 on the lever 12. A spring 15 pulls the pull rod 14 down into its rest position. The upper part of the tension rod 14 is C-shaped and denoted by 14 b. If the selector rails 16 are now set so that their slots are opposite one another, then the pull rod 14 can fall clockwise into the slots, as shown in the drawing. A pressure bracket 17 lies against the tooth 14 c of the pull rod 14 and pulls it upwards.

On a mounting plate 18, a contact set 19 is attached, and the free end of one contact spring is provided with an insulating part 20. As FIG. 2 shows, the pull rod 14 lies normally on the insulating part 20 on, and the contacts 19 are separate from each other. On the other hand, when the pull rod 14 moves upwards the contacts 19 are closed. Two such contact sets are provided, one on the "line change" character, and another that responds to the "carriage return" character.

In an ordinary printing telegraph receiver, e.g. B. a sheet writer, the character should "Carriage return" initiates the carriage return in the same way as with an ordinary one Typewriter the platen must be advanced by one line, so that a new one Line can be written. This onward transport is made possible by the »line change process controlled by the sign »line break«

5 6

is triggered. At the end of a message, contact 19 is closed. Here, a current is used to send at least four consecutive circles for the step electromagnet 6 * of the step-line change characters in such a way that the message written on a switch S1 is produced in the following way: earth, sheet in a printing electromagnet S, contact 19, resistor R 4 , Secure telegraph receiver out of the machine - 5 F, positive battery pole. Then the transported and the machine operating switch S1 goes into its second position, and the normal indicates that the received message closes from the open contact ON and prepares a roll of paper to be cut off, and the machine's circuit for the response of the Ruckstellelekt. can be removed. However, if there is only one magnet R in front. The fifth contact position of the line change characters is sent and then the io switching level Ll is with the other contact positions character "carriage return", so this is a character connected and also with the contact 26 of the relay Kl and the relay that a message is not yet complete Contact 36 of relay K 2, and further message text follows. while the first four contact positions, the switching

3 shows a circuit diagram of an embodiment level L2 connected to one another and, furthermore, an example of the strip discharge control device according to FIG. 15 connected to the contact 35 of the relay K2 , of the invention, in which parts of a known standard are followed by a sign »carriage return " on

th printing receiving punch are included. any newline character during a message. Contact 19 is the contact which, therefore, each character "carriage return" closes the hang with FIG. Reset electromagnet R, from. the positive battery terminal via the fuse F, resistor is controlled when receiving a newline character. Contact 19 'is similar to contact 19? 4, contact 19', resistor R 5, contact 0.7V. and and is similarly used by the. Pull rod leads the reset electromagnet R to earth. "Carriage Return" actuated when the character Carriage-Four or more consecutive line returns is received. The clutch release 25 change signals are given at the end of each message via magnet 11, as given in connection with FIG.

If there is no further transmission, it stays the same

cam socket in connection with the drive motor relay Kl attracted depending on one of the receiving punch, whereby the strip run-out constant current-filled characters on the line is effected. The selector magnet 21 in the printing 30 and the contact 25 separates a short circuit receiving hole is part of this known. Device, via the capacitor Cl and earth to the control and this magnet controls the selection mechanism, electrode of the tube FTl. The capacitor Cl, which steps the telegraph on the line in mecha, - which had been discharged. loads itself over the counter niche movement for the hole punch and printing process stood on Rl, which is so 'dimensioned that the tube converts in a known manner. The control circuit 35 VTl in 5 seconds or any other desired consists of a group of five relays Kl ... KS. Delay time ignites. At the same time, the relay if 1 is in series with the incoming relay Kl via contact 26, positive battery voltage line L, so that it is normally actuated in override to the anode of the tube VTl via the switching coordination with the selector magnet 21 . Sl is a plane L1 of the switch Sl, resistor R6 and the step switch with ten positions of any 40 winding of the relay K3. The resistor R2 expedient construction, the step-by-step limit the control grid current, while the counter magnet J? and a reset magnet R. stood R3 the discharge current of the capacitor Cl The magnet S is used to switch the switch is limited when it is short-circuited via the contact 25 of the relay Kl Sl by one position with each current surge.

receives, and the reset magnet R brings the switch 45 At the same time, when the relay ter S1 is pulled into its starting position, in a known manner, Kl also returns positive potential to the anodes of the. Furthermore, a group of three Ent tubes VT2 and VTZ via the resistor 7 and charge tubes VT1, VT2 and VT 3 are provided. This the winding of the relay K 4 as well as the cons devices are z. B. Gas discharge tubes with stand R8 and winding of the relay K5 placed. But cold cathode and have a control electrode that does not ignite any of these tubes. They only ignite until the discharge is initiated. In their place, of course, the potentials of their control grids can also have other types of electrons than ignition potential.

Charging devices are used. Each of these ignites after a period of 5 seconds

Tubes VTl, VT2, VT3 are with resistance tube VTl, and the relay K3 picks up over a capacitance-time delaying acting circuits 55 circuit, which is provided from earth via the discharge section 22, 23 and 24. The time delay current from VTl, via the winding of the relay K3, via the circuit 22 to VTl consists of a charging capacitor resistor R6, switching level Ll of the switch Sl Cl and a resistor Rl. The resistor R2 and via the contact 26 of the relay Kl to the positive is a resistor limiting the grid current. Battery voltage is running out. The relay K3 defines with the lower pipe end of the capacitor C1 is 60 to its contact 27 a bridge (through the contact 28 via a resistor R3 to ground, so that normal of the relay Kl and the contact 29 of the relay if 4) on the capacitor Cl Earth is and no charge on the selector magnet 21, whose armature does not have one. The time-delaying, acting circuits cause a current-filled step. In this case, artificial and 24 are similar in structure to the time lent a start step is generated. At the same time, the reluctant circuit 22 disconnects, 65 only differentiate the relay K3 by opening its contact 30, which changes its time constants from the time constant of the bridging of the capacitor C 2 and lets it charge circuit 22 via the resistor i? L.

The function of the device is now in the following If after a certain short interval the

described: When receiving a line change tube VT2 ignites, the relay if 4 picks up via a sign through the printing receiving hole is 70 circuit, from earth, VT2, winding of the relay

K 4, switching level Ll of switch 5Ί, contact 26 of relay K 1 goes to the positive battery pole.

Relay Ä "4 opens the bridging via contact 29 of the selector magnet 21 which generates the artificial starting step. It is necessary to take this starting step to the receiving punch to couple the control cam bushing with the drive shaft and thereby to move the clutch release lever into its engaged position.

Relay K4 separates with its contact 31 a short-circuit circuit via the capacitor C 3 and can be charged via the resistor R 10, and with the contact 31 a circuit for the decoupling magnet 11 is closed, which is connected to the positive battery pole via the resistor i? 4, electromagnet 11, contact 32 of relay K1, resistor i? Ll, contact 33 of relay KS, contact 31 of relay Ki leads to earth.

The attraction of the uncoupling magnet 11 lets the receiver part come into action and change letters punch, since the selector magnet 21 is still attracting and at the end of the artificial starting step stream-filled steps there. The receiving hole punch will continuously punch letter change characters and let the strip run out in the manner described in connection with FIG as long as the magnet 11 remains attracted. This time is determined by the time delay of the circuit 7? 10, C 3, and practice has shown that approximately 20 seconds are sufficient to achieve the required To get strip run-out.

If the tube VTZ ignites after 20 seconds, relay K5 picks up via a circuit immediately recognizable from the drawing, and its contact 33 opens the circuit of the clutch release magnet 11. With its contact 34, a circuit for the reset electromagnet R of the step switch Sl is closed from positive, pole of the battery, fuse F, resistance i? 4, contact 34, resistance R5, contact ON, reversing electromagnet R to earth. The switch S1 then goes back to its normal or starting position.

At the moment when a transmission is resumed and a non-current-filled step is received, relay Kl drops out and opens the circuits of relays KZ, K 4 and K 5, which also drop out. At the same time, the tubes VT1, VT2, VTZ go out, and the capacitors Cl, C2 and CZ are short-circuited to earth.

If a transmission should be recorded during the initial 5-second waiting time before the tube VT1 ignites, the printing receiving punch starts up and works in the normal way.

If a program should be included as the strip flow time of 20 seconds, the relay Kl falls off during the non-power-filled start step and separates the contact 26 to the positive battery terminal of the relay KZ, Ä "4undi ^ 5, after which drop these relays. The short circuit Via the selector magnet 21 of the receiver is canceled, and the circuit of the clutch release magnet 11 is opened. The stop lever arm is actuated in the usual way by the dropping of the electromagnet 11, and the coupling mechanism of the receiving hole punch couples the control cam bushing with the drive shaft when a start step is received The selector lever is adjusted according to the movements of the selector magnet while the last character "letter change" is punched in the strip.This corresponds to the normal overlapping process in the receiving hole, in which the previous character is punched while another character is already being received.

In the event that the required number of consecutive line change characters has not yet been received, but the operator of the device wishes a strip run-out, a device is provided which initiates the start-up of the time-delayed circuit manually by pressing a pushbutton PB. The push button PB closes a circuit for the relay K2 from earth, contact PB, winding of relay K2, contact 34 of relay KS, resistor R 4 to the positive battery pole. The relay K2 closes a self-holding circuit via the contact 35 of the relay Kl, and the contact opens a bypass of the capacitor Cl. which extends over the contact arm and the first four interconnected contacts of the switching level L2 of the switch Sl, over the contact 35 of the relay K2 and over the contact 25 of the relay Kl . This switches on the time-delayed circuit. The relay K2 and also the contact 36 apply positive potential to the relays KZ, K 4 and K 5 regardless of the contact Ll of the switch Sl.

Claims (5)

Patent claims: 1. strip outlet for printing receiving holes, characterized in that in a known manner when repeatedly receiving the character "line change", z. B. after receiving this character four times, at the end of a message and when the "carriage return" character is subsequently received, an automatic strip run-out of a certain length from the receiving hole is made by a pull rod (14) in the receiving hole for the "line change" character at When this symbol is received, a set of contacts (19) and the pull rod for the "carriage return" symbol closes another set of contacts (19 ') when this symbol is received and that both sets of contacts (19, 19') act on a control circuit when they close, which causes a disengaging electromagnet ( 11), which revolves a control cam socket for the duration of the strip run-out and a time-delayed circuit, which determines the duration of the strip run-out and comes into operation when a step switch {SI) gradually moves into a certain position by repeatedly closing the line change contacts (19) (e.g. in the fifth position) we switched d. 2. strip outlet for telegraph equipment according to claim 1, characterized in that the Step switch (51) has two switching levels (Ll and L2) and when the carriage return contacts are closed (19 ') returns to its original position. 3. strip outlet for telegraph equipment according to claim 1 and 2, characterized in that the control circuit further contains a group of five relays {Kl ... KS) , the relay {Kl) in series with the incoming line (L) and with the selector electromagnet (21) responds together and the relay {K2. . . KS) to a time-delayed circuit, consisting of three grid- controlled gas discharge tubes (VTl, VT 2, VTS), on the grid of which there are circuits (22, 23 and 24) with a time constant, and that the time-delayed circuit keeps the clutch release magnet (11) switched on for the duration of the strip run-out . 4. strip outlet for telegraph equipment according to claim 1 to 3, characterized in that when the stripe runs out, the »letter change U-sign continues is punched. 5. strip outlet for telegraph equipment according to claim 1 to 4, characterized in that the start of the time-delaying circuit and a strip outlet can be caused by hand by pressing a push button switch (PB) , in the event that the required number of consecutive line change characters has not yet occurred is. Considered publications:
German patent specification No. 928 294. 1 sheet of drawings © 809 637/229 9.58