DE967227C - Memory for teleprinters and other writing and punching apparatus - Google Patents

Description

(WiGBL p. 17S)

ISSUED OCTOBER 24, 1957

. p γio Villa / 2Ia ¹ B

has been named as the inventor

Teleprinters are known in which the transmitter is controlled by means of a keyboard. With these teleprinters, the writing speed depends on that of the transmitter. Typically, the teleprinters, which work according to the well-known five-digit alphabet, write at 428 characters per minute. That makes about seven keystrokes within a second. The time interval between two keystrokes must therefore not be less than ¹ N second. If you write faster, the keyboard locks because the key levers are locked ^{by the transmitter for 1} H second with each cycle. A closer examination shows that trained personnel only hit about seven keystrokes per second on average, but that individual keystrokes, especially with a frequently recurring sequence of letters, even follow one another within 12 seconds. Based on this knowledge, teleprinters are often equipped with a memory that allows up to twelve keystrokes per second to be written temporarily. In these devices, a memory is arranged between the keyboard and the transmitter, which accepts and stores the characters written on the keyboard up to a speed of twelve keystrokes per second and sends these stored characters to the transmitter in a rhythm of one second. Due to the irregular actuation of the buttons and the

7 »732/40

The memory is emptied sufficiently quickly during pauses in writing, so that this means that one that is not tied to a clock cycle Notation is achieved.

The known memory consist of a disc in which axially displaceable pins are mounted are. The pins are arranged in twenty-four radial rows and are dated by one Drive of the apparatus actuated engagement lever in the storage disk with the mediation of intermediate levers keyed in, which are determined by the operation of the keyboard. Through this and the type of scanning, which only records one group of characters at a time, results in a loss of time, which requires the transmitter to be temporarily blocked if the keying speed is too high. The known Stores are driven by pawls, which on appropriately shaped drive means, for example gears act. In such drive devices, acceleration forces arise alternating direction, whereby on the one hand the individual parts are exposed to high mechanical loads and on the other hand, malfunctions cannot be avoided. Besides, these are well known Memory very susceptible to adjustment inaccuracies.

In order to avoid these disadvantages, the memory, in which a pulse combination in the Memory body is keyed in with in groups according to the telegraph alphabet to be stored summarized, slidably arranged adjusting members is provided according to the invention designed in such a way that the ring-shaped storage body is radially displaceable on the circumference Has adjusting members, which are directly through the selection rails of a keyboard Intermediate levers are set that the storage body immediately after each setting of the setting members belonging to a group by one caused by the key lever in the same Work process influenced Maltese cross or a similarly acting gear up to the following free one Group of adjusting members is rotated further and that the scanning element in each case to a complete Circulation is caused by the storage. The adjusting members, which are made from pins or similarly shaped parts are scanned by means of a roller of the scanning element. The drive of the scanning element happens via gears that are on the axis of rotation of the storage body are arranged. One of these gears is always standing still, while a second is with the drive member of the memory is coupled. Another gear works on a differential gear, which in turn acts on a gear which is attached to the scanning element and is coupled to a stationary gear wheel seated on the axis of rotation of the storage body. The coupling that brings the scanning element into effect depends on the position of the Scanning element and is only engaged when the scanning element has left its home position. The scanning element can only assume its zero position when no characters are stored. That The telegraphing pulses are sent out via a lever arrangement, which corresponds to the Position of the adjusting members is controlled via the scanning element. By controlling the clutch takes place in a known manner, the control of the contacts for passing on the telegraph impulses.

With reference to Figs. 1 and 2, an example embodiment of the inventive concept represent, the mode of operation of the memory is described in more detail.

Fig. Ι shows the memory according to the invention, while in

Fig. 2 for the purpose of better illustration of the support body for the scanning element is shown the same is.

The storage disk consists of a rotatably mounted ring 1, radially displaceable on its circumference a number of pins 2, 3 and 4 are stored. A toothing is firmly connected to the ring 1 5, in which a gear 6 engages. The gear 6 is firmly connected to a Maltese cross 7, the drive disk 8 of which is firmly connected to the cam disk 10 on a sleeve 9. the Sleeve 9 including drive pulley 8 and cam 10 sits loosely on shaft 19 and leaves with the aid of the coupling 11 with the shaft in each case engage for one revolution. The mode of operation of the arrangement described so far, which represents the actual memory including the adjustment and drive elements, is in Connection with the mode of operation of the scanning element explained in more detail. The scanning organ consists from a bearing piece 20, which is shown individually in FIG. Firmly connected to the Bearing piece 20 is a shaft 23. In addition, a shaft 26 is rotatably mounted in the bearing piece. A gear 24 is rotatably mounted on the shaft 23, but is firmly connected to the ring 1. A gear 25 which is firmly seated on the shaft 26 engages in the gear 24. On this Shaft 26 are also two gear wheels 27 and 28 rotatably mounted. Each of these gears 27 and 28 carries two gears, a face gear and a bevel gear. In the bevel teeth Both wheels are engaged by a bevel gear 29, which is rotatably mounted on one arm of the shaft 26 is stored. The spur teeth of the wheel 27 meshes with a gear 33, which is fixed to the gear 35 is connected and is arranged rotatably together with this on the shaft 34. In the gear 35 a gear 36 meshes. The gear 36 is firmly connected to the coupling 37. The gear meshes with a gear 31, which in turn meshes with a gear 32. The gear 32 is neither a driven nor a driving gear, but has a fixed position with respect to the surrounding gears. In the bearing piece 20, a lever 38 is mounted movably in the axial direction, which carries a follower roller 39 at its end. The lever 38 touches at the point where it the center line of the shaft 34 crosses a lever 40. The lever 40 is under the spring force 41 and

engages with its upper end in the coupling part 42. The coupling part 42 is the coupling part 43 opposite, which controls the contacts by means of the cam 44.

The mode of operation of the arrangements described so far is as follows:

By pressing a button, a button lever 12 is moved down and gets into the Range of action of the toothed selector rails 16.

Shortly before the end of the key lever stroke, a release bar 45 is actuated, which with the help of the Coupling 11, the sleeve 9 including the drive pulley 8 and cam 10 for one revolution with the drive shaft 19 couples. if now the sleeve begins to rotate in the direction of the arrow, the roller 14 of the lever 13 rolls under the Action of the spring 15 from the raised point down, whereby the lever 13 counterclockwise is rotated. The lower end of the lever 13 pushes against one of the selector rails 16 engaging pivotable bar which deflects the selection rails against the action of the springs 17. All selector rails 16 that do not have a tooth at the point of the pressed key lever are moves under the action of the springs 17 in the direction of the arrow. Those selector rails that are locked by a tooth are prevented from moving by the pressed key lever 12. The movement of the selector rails 16 is controlled by means of the levers 18 on the pins 2, 3 and 4 transfer. As a result, these pins are displaced in the radial direction on the circumference of the ring 1. Pins 3 and 4 are used to store special functions and are therefore not further described. A character has been saved by moving the setting pins. After the sleeve 9 has made about half a turn, the roller 14 of the lever 13 runs again on the elevated part of the curve 10 and brings the lever 13, the selector rails 16 and the Lever 18 back to its original position. During the remaining half turn of the Sleeve 9 engages the transport pin of the disc 8 in the Maltese cross 7 and thus rotates the gear 6 by a certain amount. As a result, the with its teeth 5 with the gear 6 engaged ring further rotated by a corresponding amount. The set Pins 2, 3 and 4 are thus moved out of the range of action of the lever 18 and at the same time other pins ready for adjustment brought into the range of action of the lever 18. This The process is repeated each time a key is pressed, so that for each key lever typical setting of the selector rails one after the other on the circumference of the ring 1 by the Pins 2, 3 and 4 will be registered.

As already mentioned, the storage ring has been rotated through a certain angular amount.

With the storage ring, the scanning element has also been rotated from its original position. As a result of this rotation, the cam 21 leaves the cam 22. As a result, the clutch 37 is engaged under the action of the spring 46. The gear 36 begins to rotate and drives the gear 27 via the gear wheels 35, 33. Since the gear 32 is not rotatably arranged, the gear 31 finds a resistance, as does the gear 28 on the gear 31. Thus, the gear 27 is driven and the gear 28 is held, whereby the bevel gear 29 rotates and the shaft 30 rotates 26 twisted at half angular velocity. The gear 25, which is fixed on the shaft 26, thereby rolls on the gear 24, as a result of which the entire bearing piece or scanning element 20, including the lever 38, is rotated within the ring 1. The lever 38 with its roller 39 is thereby guided along the inside of the storage ring 1. Whenever the roller 39 encounters an inwardly depressed pin, it is lifted with its lever 38. This movement is transmitted via the lever 40 to the coupling 42, which controls the contacts SKi and SK2 accordingly. If the ring itself continues to rotate during this scanning process by pressing the keyboard, this has no effect on the scanning process.

As can be seen from the description above, this is used for driving the internal storage body Rotation of the wheel 33 relative to the wheel 32 is decisive. So only in such cases arises a movement of the inner body of the accumulator, based on the ring 1. If, on the other hand, the ring 1 is rotated, in this way, the internal storage body maintains its position relative to the ring 1. To this process to explain in more detail, it is assumed that the gear 32 is not stationary and the storage body rotates, but that the storage body stands still and the gear 32 rotates together with the gear 33 moved by the same angular amount. In such a case, gear 33 would become gear 27 drive and the gear 32 via the gear 31 the gear 28. The gears 27 and 28 would then rotated on the shaft 26 by the same angular amount, but in the opposite direction will. As a result, the bevel gear 29 would rotate about its shaft 30, but on it have no effect whatsoever, so that the bearing piece 20 cannot twist. This same process takes place when the memory body 1 is rotated and the scanning element is likewise is in rotation, d. that is, in this case too, the relative rotational movements of the Gears 27 and 28 cancel each other, since the gear 32 against the movements of the Storage body and the driving gear 33 maintains a fixed position.

If no more characters are keyed in using the keyboard, then only the scanning process takes place until the scanning element has reached its starting position again, whereby the clutch 37 is disengaged and thus the scanning element is stopped.

By this arrangement according to the invention it is achieved that all with the storage body with-

rotating parts are inevitably moved because the gears are constantly in mesh with one another are. The disadvantages mentioned in the case of the known devices are thus safely avoided, because there are no pawls on which acceleration forces act at the moment when they are supposed to grip a tooth can act in different directions and thereby cause malfunctions.

Claims (6)

PATENT CLAIMS: i. Memory for teleprinters and other writing and punching apparatus, one of which is Impulse combination is keyed into the memory body, which is with in groups accordingly the telegraph alphabet to be stored combined, displaceably arranged setting members is provided, characterized in that the ring-shaped storage body (I) having radially displaceable adjusting members (2) on the circumference, which directly be set by the selector rails (16) of a keyboard via intermediate levers (18) that the storage body (1) immediately after each setting of the belonging to a group Adjustment members influenced by an operation induced in the same operation by the key lever Maltese cross or a similarly acting gear up to the following free group of Adjusting members is rotated further and that the scanning element each to a complete Circulation is caused by the storage. 2. Memory according to spoke 1, characterized in that that the organ (38) scanning the storage is mounted rotatably about the axis of rotation (34) of the storage body (1) and the adjusting members (2) consisting of pins or similarly shaped parts by a roller (39) scans. 3. Memory according to claim 1, characterized in that that to drive the scanning element (38) the difference in the rotational movement of two on the axis of rotation (34) of the storage body (1) arranged gears (32, 33) is used in such a way that the one gear (32) during the scanning movement of the roller (39) and the simultaneous advancement of the Storage body (1) no relative movement .des scanning element (20) with respect to the storage body brings about, the second (33), which is located with another on the same shaft (35) is firmly connected and is coupled to the drive element (37/36), a Differential gear influences, so that a gear (25) located on the scanning element (20) one arranged on the axis of rotation of the storage body and firmly connected to it Gear (24) rolls off. 4. Memory according to claim 1 to 3, characterized in that one as a function of the position of the scanning element (38) controlled coupling (37) to a driving element of the scanning element Gear works. 5. Memory according to claim 1 to 4, characterized in that the coupling (37) is only engaged is when the scanning element (38) has left its zero position. 6. Memory according to claim 1 to 5, characterized in that the scanning member (38) at the scanning of the storage ring (1) via a lever arrangement (40) influences a clutch (42), which controls the contacts that transmit the telegraph impulses. Considered publications:
German Patent No. 661 262;
Dr.F.Schiweck, "Fernschreibtechnik", 2nd edition, CF Winter'sche Verlagshandlung, Leipzig, 1942, pp. 119 to 124. For this purpose ι sheet of drawings © 709732/40 10.57