DE1436627B2 - Device for generating code characters for use in typewriters or similar devices for printing characters - Google Patents

Description

In supplementary procedures for processing information, it is desirable to produce a document which can be read by means of a machine, and at the same time this document in a legible font to write. A common example of this is an order business, where the order recipient Simultaneously with the registration of the order, a perforated tape is generated, which is then used as the basis for the inventory accounting, invoicing, business accounting etc. in one completely automatic Operation can be used.

To produce the working document, which is readable by means of a machine device or typewriters were already used in most cases with punching devices were coupled in a similar fashion to those used for telex. The decoding of the coding functions is carried out by means of a system of coding rods, which after pressing the key in different Species are offset to produce a binary code that represents the printed character. However, such machines are very expensive and slow to operate. Another possibility consists in providing a number of contacts for each key, corresponding to the coding of the above Button. Due to the large number of contacts, however, there is such an arrangement very unreliable. This reliability can be improved somewhat by having just one Provides contact for each key. However, in such cases it is necessary to have a very extensive decryption network provide, which is usually composed of semiconductor diodes.

It is also known to generate code characters optically by the type lever with incisions be provided according to a coding on the front edge. At the moment of the attack is the notched part in the beam path between a light source and a number of Photocells. The photocells, which are located opposite the incisions, are activated during the whole Illuminated stroke movement. The photocells that are opposite parts that are without cuts, are shielded immediately before the attack.

In the known device, the incisions are either under the type on the type lever or above the type on a special, relatively long extension of the type lever intended. With this encoder some of the disadvantages of the mechanical Contacts eliminated, but the major disadvantage of this device is that it is not reliable.

The open cuts weaken the type lever too much if they are arranged in the type lever itself are. If a special extension is provided above the type, due the large size increases the moment of inertia significantly. This will increase the writing speed degraded.

Another serious disadvantage is that the open incisions easily make a false one Record can reveal if an accidental object, such as a piece of paper, hits the light beam shields instead of the coding disk, because as soon as one or more photocells are shielded, registration takes place.

All of the arrangements mentioned have an additional disadvantage. Execution a code character is made due to the actuation of the type lever, but there is none Check that the character was actually printed. It can therefore, for example, in the The path of the type lever creates an obstacle. In such a case, becomes a coding character executed, but since the operator cannot detect any written characters, printing is carried out of the character is repeated, and as a result the result is a duplicate of the Character.

These disadvantages can be avoided by means of the device according to the invention. With a such a device will execute the coding characters without any intervening mechanical coding device or any electrical contacts caused. It is also it is possible that some contacts are intended to generate coding characters for such functions that will not be printed, such as word spacing and carriage return. Further the coding character is not registered before until the character is actually printed has been.

The device according to the invention is characterized in that each of the transparent surfaces has a closed outline, so that the light path between the light source and the photocells is temporarily covered by the type or the coding plate before the latter with its transparent Areas past the template of the photocells, and that at least one of the photocells is connected in a control circuit that generates a control pulse that turns on a Group of control circuits controls in which the other photocells and registers for intermediate storage the signals assigned to the posted types are switched.

The invention will be described in more detail below with reference to the drawings, in which

Fig. 1 is a perspective view of the keyboard and represents the type guide of a typewriter, which is equipped with a device according to the invention is provided

Fig. 2 shows a detail of a type lever,
3 and 4 show various changes to the coding print which is arranged on the type lever,

F i g. 5 the relative position of the perforations on the coding plate and the photocell in the reading position shows,

Fig. 6 is a schematic representation of the electronic Is the device that is connected to the reader,

Figures 7a to 7b show the waveforms of the various signals from the electronic devices.
In Fig. 1 is a lever section of a typewriter with the designation 1, in the slots 10 of which the type levers 2 are arranged in such a way that the upper part of the type lever passes through a type guide 7 when actuated, which centers the type 3 when it is against the plate or the roller 11 beats. The upper part of the type lever is bent in such a way that the type produces characters along a vertical line when it hits the roller. The type lever has behind

3 4

the type is a perforated part 5, which is either made of. C ₁ to C ₀ , CP and CS are the photocells here, made in one piece with the type lever that can _{escape the perforations H 1} to H ₀ , HP and HS or speak as a separate plate on the type. The photocells C ₁ to C ₆ and CP are attached to levers by clamping or soldering. The pulse design gate A ₁ to A ₆ and AP punched or perforated part of the coding plate 4 5 closed. Each of these gates A ₁ to A ₆ has a number of bores 5, which are arranged according to OR gate B ₁ to B ₆ with an individual bieinem predetermined pattern. Connected to stable register multivibrator D ₁ to D ₀ , section 1 has a light source 8, while gate AP on a register multivibrator emits a bundle of parallel light rays axially to gate D ₈ via a parity generator PG and a roller 11. On the opposite side io OR gate B ₈ is applied. The photocell CS zur Erzeuder type guide is a photocell device 9 gene of the monitoring pulses is attached via a pulse, which is arranged coaxially to the light beam design amplifier FS, an OR gate G and a. The photocell device consists of a blocking gate H to a trigger input of a mono number of small photocells, the effective parts of which are connected to a stable Multivibrator TM , which is arranged in a template, corresponding to 15 pulse duration is sufficient to pass through the holes in the coding plate 4 If the photocell CS during the reverse movement of the type lever when actuated against the roller Type to complete on return. The moving, the coding plate enters the purpose of this multivibrator is to prevent a fall light source 8 coming light beam, and short cal reading when the light hits the roller before the type, 20 photocell CS come during the mentioned return movement the holes in the coding plate with the corresponding. The monostable multivibrator TM switches speaking photocells 9 in accordance. also the monostable multivibrator TL having the coding plate, which is in turn stale pre see each type lever monostable multivibrator NP, tet a predetermined combination. The latter multivibrator transmits a number of perforations, for example those that are set in a setting pulse of short duration to the register F i g. 2 and 5 and consisting of holes D ₁ to D ₈ . while the first-mentioned circuit is composed of H ₁ to H ₆ . For example, an actuation pulse to the gates A ₁ to A ₆ , AP H _{1 can be} open while all the others are feeding perforations, so that the information read is inferred to represent the letter A. Register can be transferred. The monostable H ₁ and H, can be open to represent the letter B 3 ° Multivibrator TM actuated also the bistable, etc. Multivibrators VF and VS. The mentioned multi- die perforation HP is provided for an additional vibrator perform certain control functions through ritätsbit to have the possibility, and transfer the information, which is contained in the registers a parity check of the coding character, to the data storage device via rend the subsequent processing (punching above the gates E ₁ to E _8. For the purpose of generating processing in a calculating machine). The coding characters for the typographical If an odd parity is used, the functions of the typewriter, for example the perforation HP must be open for the letter B , tabulator TAB , the carriage return NL, but the back must be closed for the letter A, so taste BS, des space between MS and the Umschaldaß gives the sum of the open perforations 40 always a tung SG, which are not normally printed, odd number. Contacts can be provided in connection The perforation HS has an auxiliary meaning, since it is used with the corresponding operating buttons and can be connected to a monitoring pulse with a decoder KM , to generate the moment of reading the code symbol and it _{to star D 1} to D _s to the remaining holes in the coding plate. Regarding the folding, as will be described below. The circuit has been assumed to be the 7th bit. The coding plates can either be produced by coding to identify the switching perforation, where only one perforation is reserved. Therefore it is necessary, if toggle is desired, or you can reverse the parity bit in the whole set of operations in order to get the perforations in accordance with the appropriate polarity. To check the correct selected configuration, exemplary reading of the coding perforations is a way as shown in FIG. 2 through 5 is shown. Provided in the parity check circuit, the worst case per se, are those perforations which are known to prevent the information, not a signal, from being transmitted through a plastic, which are contained in the registers, onto the register stopper or a lump of wax closed it. 55 devices can be transmitted if the parity check It can then very easily result in the coding for spe- a mismatch
Specific purposes are adapted when using The mode of operation will now be described in detail with reference to coding signals. to the pulse recordings shown in Figures 7a through 7h

The positions of the perforations shown in the codie are to be described in more detail,
Guide plate can obviously be changed within wide limits 60 If a type lever is in its path against. For reasons of space requirements, the roller moves, the type head shields the photon cracks, it is appropriate to arrange the perforations in a cell C ₁ to C ₆ , CP, CS from the light rays of the symmetrical area in overcurrent light source 8, starting with C ₃ and C ₄ in mation with the F i g. 2 and 3. In FIG. 4, however, is FIG. 5. The photocell current is then reduced, another possibility of setting the perforations 65 as shown in the time diagram in FIG. 7a. tion specified. In the time I ₁ the last cell CS is shielded. Fig. 6 shows an electronic device, the (Fig. 7b). During the further movement of the type lever used to generate the code characters against the roller, the whole or

some of the perforations pass the photocell, the coding plate reaching a position in which the perforation HS coincides with the cell CS . For example, the perforation HS can bring light to the cell CP. The signal then generated, however, does not reach the register 8, since the gate AP is not open as long as the multivibrator TL is reset or is in its zero position. At time i ₂ , the perforations H ₁ to H ₆ begin to let light through to the corresponding photocells C ₁ to C ₆ , CP. In order to ensure a maximum of light flow to the photocells C ₁ to C ₆ , CP , the perforation HS is slightly offset with respect to the photocell CS, so that this cell is illuminated a little later than the other photocells. The reason the Multivibrator ™ should normally be switched on before the photocell CS is fully illuminated is to ensure that the deterioration of the lamp or photocell over time does not seriously affect the reliability of the circuit. F i g. 5 shows the spatial position of the cells and the perforation, as seen in the direction towards the light source, at a time i ₃ when the illumination of all photocells with the exception of CS is essentially at its maximum value. At approximately the time i ₃ , the multivibrator TM is switched on by a pulse from the pulse shaping amplifier FS via the OR gate G and the blocking gate H. When the multivibrator TM has been switched on, the multivibrator TL is switched on and in turn switches the multivibrator NP on . The pulse duration t ₃ to t _{0 of} the multivibrator TM is sufficient to prevent the perforation of the coding plate from exerting an unwanted trigger pulse on TM when the coding plate returns after the key is pressed. The multivibrator NP generates a pulse of a very short duration which _{sets the registers D 1} to D ₇ to their zero position. The multivibrator TL, which is active within the interval t ₃ to t _i , actuates the gates A ₁ to A ₀ and AP so that the information obtained from the photocells _{is activated to the registers D 1} to D ₀ to adjust. The register D ₇ is switched on by a contact of the shift key. The pulse from TL also enables the gate AP to pass the parity bit so that it _{can be registered in the register D 8} after it has possibly been reversed in the parity generator PG due to a type switch. At time t ₄ when the impulse from the photocell amplifier FS ends , the type has moved closer to the roller and is in its stop position. At this moment the pulse TM is passed through the gate N in order to switch on the bistable multivibrator VF . The multivibrator VF registers that an impact has occurred and, as will be shown below, the condition must be met that this multivibrator is reset within a predetermined time interval in order to enable the information to be stored _{in the registers D 1} to D ₈ is transmitted to the recorder. The multivibrator VF is only switched back if signals are present on all input terminals of the AND gate P. This is the case when the multivibrator TM is switched on, a signal is received from FS , the information in the registers D ₁ to D _{8 has} a correct parity, which is indicated by the parity check circuit PC , and a ready signal SH is present from the recorder . During this reset, a pulse is generated which, after it has been sent, is passed through the gate M , which is made possible by the pulse TM , the bistable multivibrator VS being set. Provided that the registration device generates a ready signal SH , the AND gate 5 is switched on, and a registration job OS is simultaneously with the registers D ₁ to D ₈ , which are connected to the terminal conductors T ₁ to T ₈ , via the AND gates E ₁ to E _{n are} transmitted. In the set state, the multivibrator VS makes the gate H ineffective, so that additional signals from the photocells CS cannot switch on the monostable multivibrator. For example, this can occur with the pulse that is received at time f ₇ when the front edge of the type lever leaves the type position, so that all the light falls on the photocells. In the event that the multivibrator VS was not switched on at the time r ₅ , the result is that TM and VF are switched on. However, VF has not been switched back at the appropriate time and gives an error signal as will be described below. The multivibrator VS is reset when the recorder generates a ready signal SH again. If no OS registration order was issued after a type stop effect was put into operation, this can be due to the following errors:

1. The character has the wrong parity because registers D ₁ to D ₈ have not received a signal. Therefore, the multivibrator VF cannot be reset because one of the requirements for the AND gate P is not present. A possible reason for this error could be foreign material in a perforation of the coding plate or a faulty photocell.

2. The speed of the type is too low, so that the pulse generated by the photocell CS during the return movement only occurs after the end of the pulse TM, ie the pulse provided at time t ₅ only occurs after t ₀ . In addition, one of the requirements for gate P will not be present in this case. This erroneous actuation can occur due to an obstacle in the path of the type, so that the type lever is slowed down and does not develop sufficient force to print the letter on the paper. This control for preventing a registration effect in the absence of a second pulse from the photocell CS within a predetermined time interval also prevents false readings due to the introduction of objects, for example paper or blotting plates, into the path of the light beams.

3. A time interval between two characters that is too short so that the recorder has not completely written a character when the next type performs its impact. In this case, too, there is no requirement for the AND gate P , so that the multivibrator can be reset

VF is impossible. This type of malfunction can be caused by an error in the recorder.

If the multivibrator VF has not been reset before the multivibrator TM is reset, an error display occurs as a consequence of the gate K, whereby a stop signal OP is passed, which in the first place actuates a magnet (not shown) which locks the buttons and in the second Place the gate H prevents the Multivibrator TM from switching on. To continue, the multivibrator VF must be reset manually or by means of a push button or by pressing the backspace key after it has become possible to resume writing. When one of the keys with the typographical functions TAB, NL, BS, MS is pressed, a signal YK is generated which is passed through the gates G and H and switches on the multivibrators TM, TL and NP. The signals received by the coding matrix KM are immediately registered in the registers B ₁ to B ₈ , and when the parity conditions are satisfactory and a ready signal SH has been generated, the multivibrator VF is immediately reset and an order for registration is issued. As also stated above, incorrect parity or the absence of a ready signal gives an indication of an error.

The invention can preferably be used with pulse controlled character printing devices be used, especially for typewriters, to check that the correct characters are actually used has been printed. With the well-known pulse-controlled typewriters, for example for writing Used by characters coming from adding machines is the movement of the type key triggered by magnetic means. However, there is no test with these devices that the correct type lever was really posted on the paper. When comparing the control signal with the information received from a facility, it is possible to provide an acknowledgment received that the correct character was really printed. If the comparison is the printing indicates a wrong character, another attack takes place or an error signal is given generated.

Claims (8)

Patent claims: 1. Device for generating coded writing-character signals on a type lever typewriter od are arranged, wherein the number and position of the transparent surfaces represent a character in binary coding and said coding plate is moved during the printing stroke through the light path between a light source and a plurality of photocells which are arranged in a template corresponding to the pattern of the transparent surfaces, characterized in that each of the transparent surfaces (Hl to H 6, HP, HS) has a closed outline so that the light path between the light source (8) and the photocells is temporarily covered by the type (3) or the coding plate (4) will before the latter with theirs n transparent surfaces (Hl to H 6, HP, HS) on the template of the photocells (Cl to C 6, CP, CS) passes, and that at least one of the photocells (CS) is connected to a control circuit that generates a control pulse, which controls the switching on of a group of control circuits (A 1 to A 6, AP) in which the other photocells (Cl to C 6, CP) and registers (D 1 to D 8) for the temporary storage of the binary signals assigned to the displayed type are switched. 2. Device according to claim 1, characterized in that the same pattern of transparent surfaces (Hl to H 6, HP, HS) is provided on each type lever (2) and some of the surfaces are left opaque in accordance with the desired code characters. 3. Apparatus according to claim 1, characterized in that the transparent surfaces (Hl to H 6, HP, HS) are bores which are drilled in the type lever (2) or in a widening (4) of the type lever. 4. Device according to one of claims 1 to 3, characterized in that the photocell (CS ) connected to the control pulse circuit (F) is arranged offset with respect to the remaining photocells in such a way that it is only illuminated when the remaining photocells are already full are illuminated. 5. Device according to one of claims 1 to 4, characterized in that a blocking circuit (TL, TM, H) is provided which prevents information from reaching the intermediate register (D 1 to D 8) during the return movement of the type lever. 6. Device according to one of claims 1 to 5, characterized in that the intermediate register (D 1 to D 8) are connected to the registration device (for example magnets for punching a perforated strip) via a second group of control circuits (El to £ 8) which, by means of control circuits (TM, VF, VS) containing a time control device (TM) , only release the control pulses from the intermediate registers when the return movement of the type lever has ended within a time interval corresponding to a normal return movement. 7. Apparatus according to claim 6, characterized in that the timing device of the control circuit is designed as a monostable flip-flop circuit (TM) which has a pulse duration which is greater than the time corresponding to a normal pressure stroke and the return duration of the type , also that a bistable flip-flop circuit (VF) is provided, the trigger input of which is connected to a blocking gate (M) which is blocked during the duration of the control pulse generated by the photocell (CS) connected in the control pulse circuit, and which continues contains a coincidence circuit (P) that connects to the reset input of the bi- 009 510/31 stable flip-flop circuit (FF) is connected and which receives the timing pulses from the monostable flip-flop circuit (TM) , so that the bistable circuit (VF) is switched on immediately after the end of the first control pulse generated by the control hole (HS) and during the occurrence of a second control pulse during the return pass the type is switched back, provided that the return pass during the duration of the time control pulse is ended, so that in a return pass that takes place during the timing pulse, a control pulse is applied to the second group of control circuits (£ 1 to E 8). 8. Apparatus according to claim 7, characterized in that a device (OP) for locking the typewriter is provided, which is effective when the resetting of the bistable flip-flop circuit (VF) is not completed during the duration of the timing pulse. 1 sheet of drawings