DE1115973B - Impulse-controlled printing machine - Google Patents

Description

The invention relates to cyclically operating printing machines for line-by-line printing under the control of electrical impulses which are transmitted to the machine in a sealed manner in accordance with the reading of recording media.
. The known printing machine of this type shows a printing mechanism for printing alphabetic or numerical information and characters under the control of encrypted electrical pulses which are transmitted to this machine by booking card reading devices. The information to be printed is each entered in a card column by means of one or two perforations inserted into this column according to a key with twelve recording positions. Ten of these digits for entering numerical information are numbered from 9 to 0, and two additional recording parts in the upper part of each column are labeled 11 and 12. In a known device, a key with two combined perforations is used to record alphabetic information, except for the letters O and I, which are represented by the digits 0 and 1.

In the encrypted representation of a letter, there is a first punch, the group dial punch may be mentioned, punched in a column at one of the points 9, 8 or 7, which form a first group of holes. A second perforation, which is called full perforation, is in the same column in a second group of perforations depending on the letter or character shown, to one of the positions 6, 5, 4, 3, 2, 1, 0 or 11 set. The hole 11 standing alone in a column can control the pressure of a point. One can so represent thirty-seven characters with this key, of which twenty-four letters, ten Numbers, two letters O and I and a character (the period).

The aim of the invention is a printing mechanism with a decryption device that the application ! an extended alphanumeric or character key is permitted, in which combinations are more possible Holes of the first group, the so-called, group selection holes, are used to make the selection of additional groups to allow. That is, one can proceed according to the invention ■ of the above-mentioned known key, wherein. the holes 9, 8 and 7 of the first group individually Control a group selection, use an extended key, by means of selecting of additional ones formed by a combination of group dial holes such as 9-8 and 9-7 Groups.

Impulse-controlled printing machine

Applicant:
Compagnie des Machines Bull, Paris

Representative: Dipl.-Ing. B. Wehr, Dipl.-Ing. H. Seiler,

Berlin-Grunewald, Lynarstr. 1,

and Dipl.-Ing. H. Stehmann,

Nuremberg 2, patent attorneys

Claimed priority:
France of March 17, 1959 (No. 789 560)

By providing for the occasional use of the recording location 12 in the second group of holes you create a key with one, two or three marks or perforations that has the Record any one of fifty-nine different digits, letters, or characters selected Characters allowed in one column.

Arrangements are known which provide additional combinations of holes in order to obtain an extended key, in which individual holes with numerical significance can be accompanied by a second hole in the next lower recording position. In this case, the decoding system of the evaluating machine must be able to make a different selection, depending on whether a number punching is single or double. The use of a key of this type presents difficulties which prevent its extended use.
The cyclically operating, pulse-controlled printing press forming the subject of the invention initially has, in a manner known per se, a type drum provided on its circumference with parallel type series subdivided into groups. Their types pass in the course of a work cycle in front of a stop mechanism, which can be actuated at a certain time in the cycle via a decryption device in order to select a

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To print characters; its selection is made. FIG. 4 shows a basic circuit diagram of the control circuits for

by the automatic printing of those contained in numbers distributed in one cycle to two groups

Control pulses, where one of one or more zeros,

First pulse group consisting of pulses is a font - Fig. 5 is a diagram of the closing of the cam character group from a series of character contacts in the circuits of Fig. 4,
groups and a second group of impulses consisting of an execution Fig. 6 A, 6 B, 6 C, 6 D and 6 F separate views impulse a character in the parts of the mechanism,

selected character group. This printing Fig. 7, 8, 9 and 10 different positions of certain machine is characterized according to the invention, organs during the operation of the mechanism,
shows that the decryption device by means of io Fig. 11 is a fragment of a booking card,
The combined FIGS. IA and IB show a sequential magnet-controlled selection pawl controls the printing mechanism embodying the invention. Which in turn control the setting of selection levers, pressure mechanisms are arranged in the machine in two which, under control of the impulses of the first rows, alternately on one side and on the other side group one around the fixed axis of an actuating 15 a plane XY , which are movable by the rotary lever Selection sector with staggered axis A of a type drum 1 passes through. These stops set, whereas one during the arrangement allows for accommodating each transmission of the selection pulses of the first group mechanism to take twice the width to be held in place by an enforcement that can be actuated and a character on a pressure pulse of the second group 20 lines is assigned. 1A shows in part the actuation pawl, known per se, in a symmetrical arrangement of the two rows from a certain cycle time with a printing mechanism in the machine. The co-drum, which moves synchronously with the type drum, is brought into engagement with the take-up element with a uniform rotary motion, the movement being transmitted to the stop mechanisms at the speed of this take-up element on a lever by one revolution per machine cycle, which moves to one at a certain point in time. Raised characters are embossed on the circumference in its path stop of the selection sector of the drum and hits in a known manner and thus abuts the actuating lever which is arranged with respect to the printing mechanisms. Each stop mechanism for printing the selected printing mechanism is mounted on a support plate 2, triggering characters in a certain cycle time. 30 which by screws 80 and 81 on with the Ma-

The invention relates in particular to cyclically operating pressure is maintained controlled by carrier rails 3 and 4 booking cards that are fixedly connected to the machine frame. Rails 62, 63, 64 and 82 are provided with machines in which the duration of a working cycle is provided in notches, which are used to precisely set each mechanism a certain number of equal parts or cycle points in relation to a print line,
35 For printing, one or more paper commons can unblock 65 the execution of an elementary function, e.g. B. with copy sheets or a copy speaks. It is z. B. in a printing press this band 66, between the type drum and the type of printing, the duration of each cycle are often placed in fifteen point mechanisms. The setting and the divided, with each of the first twelve points of each advance of the paper receiving the print cycle of the time for reading each of the twelve records, payments are secured in the machine by means of known pre-marking positions in the booking card columns, which are not described , speaks. The electrical impulses that appear in the various marks or perforations shown in FIGS. 1A and 1B contain two different parts: the response, various pressure hammer mechanisms and the decryption mechanisms of the machine can be transmitted at the same time. 45 nism. The stop mechanism is shown in Fig. 1A with

The type drum forming the subject of the invention is shown during the dismantling enable keying mechanisms to be carried out almost entirely in machines that work with an extended key Fig. IB is shown. In Fig. IA the stop can be reproduced without the duration of the cycle points and the mechanism of a high-speed printing unit, Increase the number of points per cycle. 50 as it is in connection with the subject of the

Further features of the invention will emerge from the invention that can be used. He's supposed to be here very much

Claims. An embodiment will be described in summary.

Hand of the drawings described below. In the one intended for controlling the machine

show this key is an extended key for nine-

1A and 1B (which figures along the fifty-five digits, letters or characters and the

Line VW are to be combined) the schematic, if necessary, automatic printing of the zeros. A

complete view of a printing and decryption mechanism - machine cylinder is divided into fifteen »points«,

mechanism of a printing machine, and the type drum is

2 shows the main organs of an actuating mechanism in ninety equal parts on its circumference for the selection, holding and tensioning rail 60 divides. The printing of a character can be done in the club A series of mechanisms in a printing press, one of ten cycle points take place. the

Fig. 3A is a diagram of the movements of the letters or characters in sixty over one

selector rail in the course of a cycle, angle α points distributed around the drum circumference

Fig. 3B is a diagram of the arranged in different cases. The thirty other digits correspond

Occurring movements of the support rail and the 65 the angle β and carry cores embossed characters.

Control pawl in the course of a cycle, the accuracy of the triggering of the stop mechanism

Fig. 3C is a diagram of the movements of the clamping mechanisms for each row of printing mechanisms

rail in the course of a cycle, with the help of a so-called "timer wheel"

5 6

toothed cylinder 5 ensures that the lever arm 116, which is on the nose 107 of the catch with nine teeth 60 is provided. He is supported by electromagnet armature 103 is with a a motor with ten revolutions per machine attachment 118 is provided, to which one end of a spring Cycle and in a fixed ratio to the number of revolutions 119, the other end of which is attached to a with the type drum set in rotation. For exact 5 of the support plate 2 connected fixed point 120 depends. Control of the stop mechanisms is part of the pawl 111, referred to as the control pawl, is with Organs of each mechanism on a regulator plate 7 three lever arms 122, 123 and 124 are provided. Of the stored. This plate is connected to the support plate 2 by means of a lever arm 122 and can also be positioned on the nose 107 a screw 67, which at the same time forms a joint, of the electromagnet armature 103 is firmly supported. He's with one tied together. An opening 68 in the plate 7 allows the extension 125 to be provided on one end of a spring the position of this plate is attached to the support plate 2, the other end of which is attached to a rules. A screw 69 allows the plate 7 to hang in the fixed point 127 connected to the support plate 2, the selected position to block. One with three of the lever arm 123 has a projection 130, which Arms 10, 15 and 17 provided part 11 can be able to rest against a support rail 131; this will an axis 12, which is fixedly connected to the regulator plate 7, is actuated by a cam in the course of each cycle, such as sway. The arm 10 is pulled out against a fixed contact by the in FIG. 3B by the fully extended impact 21 pressed under the action of a spring 14, curve is indicated. Serving as a "nine-pawl" on the one hand on the arm 15 and on the other hand on a pawl 112 drawn like the pawl 110 has two fixed points 16 on the plate 7 is attached. The lever arms 135 and 136. The lever arm 135 can Arm 17 has an opening 18 and a projection 19. A part 26 provided with three arms 28, 30 and 33. The lever arm 136 is provided with a latch nose 137 and can be provided around a fixed axis on the support plate 2 an approach 138 to which one end of a 27 pan. The arm 28 is attached to a spring 139 in the opening, the other end of which is attached to it Pin 29 engaging opening 18 of arm 17 at a fixed point 140 connected to plate 2 see. A spring 31 is hanging on the one hand on the arms 30 and 25. The pawls 110 and 112 are in the on the other hand on one with the support plate 2 connected mechanism in connection with the sector levers NEN fixed point 32 appended. The arm 33 is operated with 145 and 146, which are about a fixed axis 147 a paragraph 34 provided. A stop lever 36 can pivot. The one referred to as the "8-7 sector" provided with three arms 35, 38 and 41 and can have two lever arms 148 and 149 around sector lever 145. a fixed, connected to the support plate 2 axis 37 30 The lever arm 148 is with a nose 150 and the sway. The arm 35 can be provided against the shoulder lever arm 149 with a support lug 151 which 34 of the arm 33 support. Towards the end of the arm can be supported on a selection rail 155, the 41 is supported by a stop hammer 42, which in a cam-controlled movements through the Carrier 44 can slide and are given by a spring 45 on curve in Fig. 3A. The end of the Hebeiden Arm 41 is applied. 35 arms 149 is equipped with a sector 152, the

A spring 39 is on the one hand on the arm 38 of the two notches 153 and 154, a stop shoulder 158, hammer lever and, on the other hand, a release ramp 159 and a nose 160 on a lever 40. One hung, which serves to regulate the tension of this spring, spring 163, on the one hand, on a projection 164, on the other. If the end of the arm 35 is not fixed by the side connected to one of the support plate 2 Section 34 of lever 33 is retained, 40 point 165 is appended. Which is called the "nine sector" Arm 35 under the action of spring 39 against sector lever 146 drawn has two lever arms 167 a fixed stop 55 out. At every cycle and 168. The lever arm 167 is straight and with a a tensioning rail 61 is provided in a certain extension 169 to which one end of a spring Cycle time by a cam, the curve of which is attached, the one with the other end form is shown in Fig. 3 C, actuated to hang the arm 35 45 on a fixed point 171 on the support plate 2, to hang in the paragraph 34 of the lever 33 when the lever arm 168 is bent at an angle this is provided by a printing process in the preceding approach 173, which is based on the lever arm 149 Cycle has been released. can support. The end of the lever arm 168 carries

The decryption mechanism of the printing is a sector 175. This sector contains a holding direction, as shown in FIG.
to control the printing mechanism. The sector levers 145 and 146 serve in common for this electromagnet is fixed on the plate 2 by setting a group selection sector 181. These screws 101 and 102 are fastened. In front of the fixed pole sector, a movable armature 55 is designated as a "stop release parts of the electromagnet" and is attached to a fixed axis 184 on 103, which can pivot about an axis 104 of the support plate 2 and is supported by lever 183 pivotable pivot a spring 105 against a fixed axis 182. The group selection sector adjustable stop 106 is pressed. The be 181 is provided with an arched part 186, a movable armature 103 is provided in its upper part with a lever arm 187 and a stop pin 188 of a nose 107, against which three see themselves as 60. This stop pin can rest against the “pawl”, about a fixed axis 113 lever arm 148 or against the lever arm 167, pivotable parts 110, 111 and 112 can be supported. The group selection sector 181 is provided with stages. The pawls 110, 111 and 112, the particulars of which do not appear very clear in Figs. 1B and 9, their function in forming in Fig. 1B, correspond to the group selection process, with £ 9-8 , shown separately in FIGS. 6A, 6B and 6C. The 65 E 8, £ 9-7, and El designated E9. The last because of its selection function, also called "8-7 pawl" step ER, is extended by the arched part 186 and designated pawl 110 has a lever arm 116 and corresponds to a group determined by the lack of a group of a lever arm 115 carrying a pawl nose 117 selection indicator. A spring 190

is on the one hand at the group selection sector 181, on the other hand at a point 191 on the lever 183 attached. Under the action of this spring, the sector 181 is pressed against one of the lever arms 148 or 167 or pressed against a fixed stop 192 on the support plate 2. The lever 183 is shown in Fig. 1B pressed against a fixed stop 185 by the action of a spring 196, the one hand on a End of this lever, on the other hand, is attached to a fixed point 197 on the support plate 2. That the other end of the lever 183 is provided with a finger 198 on which the arm 17 of the part 11 rests can support. A ratchet lever 200 can also be mounted on the axis 184 about which the lever 183 can pivot sway. The lever 200 has a head 201 which is normally acted upon by a spring 203 against one the support plate 2 fixed stop 202 is pressed. The spring 203 is on the one hand on one with that lever fixed attachment 204 and on the other hand attached to a fixed point 205 on the support plate 2.

The lever 200 carries a pawl 207 which is about an axis 208 firmly connected to this lever can pivot. A spring 209 is continuously supported on the end 210 of the pawl 207. The lever 200 is provided with a stop 211 and an extension 214, which has an edge 215, a ramp 216, a Has nose 217 and a shoulder 218. The projection 128 of the lever arm 124 has sufficient Thickness to rest on the pawl 207 or on the edge 215 of the extension 214 of the pawl carrier lever 200 (Fig. 9) to be able to support. During operation of the machine, the pawl 207 can under the Effect of the projection 128 of the lever arm 124 with one of the teeth of what is known as a "selection ratchet wheel" Toothed roller 220 are engaged. The selection lock wheel extends like that Timer wheel 5 of each row of printing mechanisms in the machine over all of those printing mechanisms occupied width. The selection lock wheel has fifteen teeth and turns in the same sense and at ten times slower speed than the timer wheel, d. H. in the described Example with 300 revolutions per minute.

The selection rail 155, the tensioning rail 61 and the holding rail 131 are changed in the course of each cycle actuated by cams which give these rails the movements indicated by curves in FIGS. 3A, 3B and 3C To give.

Fig. 2 shows schematically the arrangement of the control levers of these rails. The cams, the profiles of which are not shown in the figure, are keyed on a shaft O; this is also the shaft of the selector lock wheel, and the cams therefore rotate at the same speed (300 revolutions per minute). A similar arrangement is provided at each end of each row of mechanisms. The tensioning rail 61 is firmly connected at both ends to a lever 230 which can pivot about a fixed axis 231. A lever arm 232 firmly connected to the lever 230 is provided at its end with a roller 233 which can roll on a cam disk R , the profile of which is shown developed in FIG. 3C. A spring 234 is fastened on the one hand to the lever 230 and on the other hand to a point 235 fixedly connected to the machine frame and places the roller 233 on the cam disk R.

The holding rail 131 is fixedly connected at both ends to a lever 240 which can pivot about an axis 241 which is fixedly connected to the machine frame. A lever arm 242 firmly connected to the lever 240 is provided at its end with a roller 243 which can roll on a cam disk M , the profile of which is shown developed in FIG. 3B. A spring 244 fastened on the one hand to the lever 240 and on the other hand to a fixed point 245 of the machine frame applies the roller 243 to the cam disk M. The selection rail 155 is on theirs

ίο firmly connected to both ends with a lever 250 which can pivot about an axis 251 fixedly mounted on the machine frame. A lever arm 252 which is firmly connected to the lever 250 is provided at its end with a roller 253 which can roll on a cam disk S , the profile of which is shown developed in FIG. 3A. A spring 154 fastened on the one hand to the lever 250 and on the other hand to a fixed point 255 of the machine frame applies the roller 253 to the cam disk S.

ao The key used in the mechanism described as an exemplary embodiment is the following:

groups 6th ⁵ 4th Execution selection 3 2 1 0 S. 12 I empty selection 6th 5 4th 3 2 1 0 A. [
mZM) empty Z Y X W. V U T £ θ! 9 9 H G F. E. D. C. B. J , j 7 7th > < ο /
/ ο X Il Δ s! / ³⁰ 7-9 R. Q P. N M. L. K 1 ! 8th 8th Σ η Φ + - ) ( □ i = 8-9

The position (ZM) corresponds to the possible printing of so-called "mechanical zeros" in the key. 11 shows some examples of the marking of digits, letters or characters by perforations in a booking card.

To show how the mechanism works, some examples of selection operations are given. If the machine is in operation, a synchronous motor (not shown) drives the type drum 1 with uniform rotation in the direction of the arrow F1 (Fig. IA, IB) at a speed of 300 revolutions per minute (one revolution per machine cycle). The timer wheel 5 of each row of printing mechanisms is driven in the direction of arrow F 2 at 3000 revolutions per minute (ten revolutions per cycle) and the selection locking wheel 220 with 300 revolutions per minute (one revolution per cycle) in the direction of arrow F3 by another synchronous motor .
The tensioning rail 61 (FIG. 1A) is given a movement to the left during points 9 and 8 of each cycle (diagram FIG. 3C); it then returns to its rest position to the right during points 7 and 6 of the cycle. The support rail 131 is in position G (Fig. 8) during points 9, 8 and 7 of each cycle and then in position D (Fig. 9) for the remainder of the time (Fig. 3B). The selector bar 155 (curve Fig. 3A) is in the upper position H (Fig. 7) at the beginning of point 9 of each cycle and is then gradually returned to position B during points 9, 8, 7 and 6 of the cycle, In 1, 7, 8, 9 and 10, the illustrated mechanisms are shown in positions that correspond to the points Fl, FT, F8, F9 and FlO of the slide

gram of Fig. 3A correspond. Fig. 7 illustrates part of the mechanism of point 9 of the cycle, ie at the beginning of the group selection process. The spring 196 places the stop release lever 183 against the fixed stop 185. The spring 190 places the group selection sector 181 against the fixed stop 192. The Spring 163 places the support lug 151 of the sector lever 145 against the selection rail 155. The spring 170 places the lug 173 of the sector lever 146 against the lever arm 149 of the sector lever 145. The spring 139 places the pawl 137 of the lever arm 136 against the ramp 179 of the sector 175. The spring 126 places the projection 130 of the control pawl 111 against the holding rail 131. The spring 105 places the armature 103 of the electromagnet 100 against the fixed stop 106. How already said, the selector bar 155 descends during points 9, 8, 7 and 6 of the cycle, and the sector levers 145 and 146 follow it in this movement. The lever 167 strikes the stop 188 of the selection sector 181 and causes it to pivot about its axis 182 as far as the position shown in dash-dotted lines in FIG. 7. During this movement, the various stages £ 9-8 to ER of the selection sector successively cross the possible path T of the head 201 of the pawl carrier lever 200.

As a first example of how the mechanism works, the requirements for controlling the Pressing the multiplication sign X is considered, according to the table above by one of the Combination 9-7 formed group selection and enforcement option 3 is obtained.

At point 9 of the cycle, an encrypted pulse 9 is sent into the electromagnet 100; this is energized and the armature 103 is attracted. The pawl 117 is retained by the ramp 158 of the sector 152 and in turn holds the lever 116 above the end 107 of the solenoid armature while the pawl 137 not retained falls into the notch 178 of the sector 175 (nine sector), which is blocked in this way.

Fig. 8 shows the point in time (end of point 9, beginning of point 8) in which the nose 173, since the Nine sector is retained by the pawl 137, the lever arm 149 leaves, which then alone the Selection bar 155 accompanied in its downward movement. The lever 116 is then supported against the End 107 of electromagnetic armature 103.

If the electromagnet 100 was energized by an electrical pulse at point 8 in the course of the same cycle, the pawl 117 would fall into the notch 154 of the sector 152 and the selection sector 181 would be defined with the step E 9-8 in the path T of the head 201 of the pawl carrier lever 200. In the example described for the printing of the character X, there is no pulse transmitted to the electromagnet at point 8 of the cycle.

In Fig. 1B, the mechanism is shown at the end of point 7 of the cycle, where the electromagnet 100 has been energized by a pulse 9 and a pulse 7 in succession. In this case, the sector 152 is also blocked, and the selection sector 181 is defined with the step E 9-7 in the path Γ of the head 201 of the pawl carrier lever 200.

From what has been said it can be seen that the sector 181 either by the lever arm 148 of the 8-7 sector or is set in its position by the lever arm 167 of the nine-sector, depending on whether a pulse 9 has occurred or not. In the absence of an impulse 9, the lever 168 of the nine sector also rests his nose 173 on the lever 149 of the 8-7 sector. Since the lever arm 167 in this case in front of the lever arm 148 lies, it acts on the stop 188 of the selection sector 181 and sets it. Against it the lever arm 167 is retained when a pulse 9 has occurred, and it then becomes the Act on the lever 148 on the stop 188 and set the selection sector 181. The blocking of the 8-7 sector by an impulse 7 thus sets step £ 9-7 of sector 181 on the path of head 201 of the pawl carrier 200.

Should neither a pulse 8 nor a pulse 7 occur after pulse 9, then sector 152 would be its Continue downward movement and pawl 117 would move to paragraph 160 of the cycle at point 6 Trigger sector 152. The sector is provided with a release ramp 159, which at this moment the pawl 117 would repel to raise the lever 116 and free the solenoid armature.

At the end of point 7 of the cycle, the support rail 131 goes back to the right and the leverann 122 of the control pawl 111 rests, according to FIG. 1B, on the end 107 of the electromagnetic armature 103. An impulse 3 at point 3 of the cycle, the control pawl disengages, which, under the action of spring 126, moves to the right tilts (Fig. 9), and the projection 128 of the lever 124 pushes the pawl 207 upwards, which is between two Teeth of the selection ratchet 220 engages. As you know from the foregoing, the selection lock does one revolution per cycle and is provided with fifteen teeth (one tooth per cycle point). From the moment a tooth of the selector wheel hits the pawl 207, the pawl carrier lever becomes the pawl carrier lever 200 taken by this tooth, and the head 201 of this lever comes with a Step of the selection sector 181 in a moment, which is determined by one of the six positions, which this sector can occupy according to a group choice, is intended for one of the cycle points. In the case of a group selection 9-7 (before the pulse 3), the head 201 of the pawl carrier lever hits the selection sector after three sixths of a point plus a safety margin 5 provided in the mechanism. From this point on, the tilts Release lever 183 about its axis 184 (FIG. 1A), the finger 198 lowers and allows the projection 19 of the strike preparation lever 11 to go down between two teeth of the timer wheel 5. When a tooth of the timer wheel strikes the projection 19, the preparation lever 11 is after thrown up, he pushes back the finger 29, tilts the release lever 26 and frees the stop lever 36 advancing the stop hammer 42; this meets the type drum opposite the one in it embossed character X so that this character is printed.

Fig. 10 shows the printing mechanism when the pawl carrier lever 200 is in its end position for the printing of the character X is towards the end of cycle point 2 (Fig. 3B). Printing a sign actually takes place approximately between 1.5 and 2.5 points after the impulse for the completion of the printing instead of.

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During points 9, 8 and 7 of a cycle back and forth and the spring 190 lets the sector 181 to the right

changes, as can be seen, the action of the support rail and frees him from the action of the

on the control pawl 111 whose actuation by the head 201 of the pawl carrier lever 200. After

Electromagnet, and it holds the lever 122 of this pressure, the spring 196 leads the stop 188 against

Pawl above the nose 107 of the electromagnet 5 the paragraph 150 of the lever arm 148. Then,

anchor 103 without touching it. At the end if during cycle point 15 the selection

of point 7 (point / the curve in Fig. 3B) is supported, the rail rises again, the lever arms 148 and 167

the said lever is on the electromagnet armature. lowered and the selection sector by the spring 196

This position is in Fig. 3B by the horizontal position in the shown in Fig. 7 back.

Line JQ shown. The enforcement impulse in point 3 io led.

of the cycle has tightened the anchor and lets the printing of a digit 9, 8 or 7 or one

Tilt pawl 111 until pawl 207 (FIG. 9) is the character / or = by a pulse 9 or 8

Reason of the gap between two teeth of or 7 and one in point 13 of each cycle systematic

Selection lock wheel touched. The lever 122 is controlled by the pulse transmitted from the table. If you look at

Line JQ (Fig. 3B) on the line £ in Fig. 9 15 the case in which as in the previous example of

position shown passed over. When a tooth of the electromagnet 100 sends a pulse 9 and an im-

Selection locking wheel hits the pawl 207, this pulse 7 becomes the group selection, but no pulse 3

pushed to the left, and the protrusion 128 has received slides, so control the combination 9-7 and

along this pawl (descending part L of the curve a pulse 13 printing the character /.

in Fig. 3 B). then this projection meets the ramp 20. It is assumed that the mechanism is on

216 of the extension 214 of the pawl carrier lever end of point 12 (Fig. 3 B) is in one position

200, and the end of the lever 122 rises (part M which is located corresponding to that shown in Fig. IB,

Curve). The projection 128 then goes on the front but with the difference that the holding rail 131

jumped 218 over (point N of the curve) and then falls into its extreme right position and the selection

against the flattening of the nose 217 of the latch rail 155 is in its lowest position. In the

carrier lever extension (point O of the curve). The ones in cycle points 9, 8 and 7 were the impulses 9 and 7,

The position shown in FIG. 10 was due to the control pawl 111 being held by the holding rail 131

frictional entrainment of the pawl 207 was held back by, without any effect on the pawl,

a tooth of the ratchet 220, then through the off At point 13 of each cycle, a pulse is in the

pushing the lever 200 and all of the systematically sent with 30 electromagnets 100, and the

parts connected to it. When the pawl 207 causes the printing mechanism to print a

with a tooth of the selection locking wheel 220 (Fig. 9) character, which by the position of the selection sector

is in contact, which is held on the latch by the 181 at that moment. The moving

Ratchet transmitted force the pawl in contact. movements of the lever arm 124 of the control pawl 111

A fixed stop 219 is provided, around the 35 are indicated at ICl, Ll, Ml, IVl in Fig. 3B and

Pawl 207 to disengage before the paragraph 211 of the corresponding to the previously loaded by a pulse 3

Pawl carrier lever 200 the fixed stop 185 written case triggered movements, but with

meets. The spring 203 of this lever leads to a slight difference. At cycle point 15

Protrusion 218 against protrusion 128, which causes the protrusion to fall back at point P

This position remains until the end of the cycle. This 40 jumps 128 of the lever 124 on the nose 217 of the

Device keeps the fact in mind that in the pawl carrier lever 200 by the presence of the

printing has taken place during the cycle, and holding rail 131 interrupted its movement

prevents the triggering of a further movement of the to the left and so the lever 124 in the in

Pawl carrier lever 200 when the electromagnet Fig. 7 returns the position shown. A according to the

a pulse is applied at point 13 of the cycle. 45 Invention carried out mechanism requires for

The movement of the lever 183 does not require any pressure before the application of an extended key

releases can have a very small amplitude. Increase in the number of points per cycle, which is

In fact, as already said, it is sufficient to allow the same time for each cycle point

jumped 19 of the part 11 in the way of a tooth of the disadvantage of increasing the cycle time and

Bring timer wheel 5; but by a pressure 50 a reduction in the number of cycles per minute

To initiate operation, head 201 of must have.

Pawl carrier lever 200 of one or the other stage I _{n of} the table of the described work of the selection sector 181 can encounter. For this purpose, the key used is a position ZM so a long way of the pawl carrier lever is mentioned below, which is necessary as a pressure position for »the mechanical action of the selector lock wheel. Is denoted in "zeros". This position corresponds to the one in which, in order to avoid any damage to the mechanism, possible printing of a zero under the following preconceptions, devices for automatic suspension: Sometimes it appears advantageous to move the selection sector to one of the booking cards that are contained in the numbers know adjustment of the same provided. Do not punch zeros. It is then necessary in

In Fig. 9 the stage £ 9-7 of the selection sector 60 is the printing machine controlled by means of such cards.

181 in the path Γ of the head 201 of the ratchet measures to provide that the automatic

carrier lever 200, which enable that sector in its movement printing of these zeros. One uses

take away. The mechanical provision, which is usually fixed for this purpose with the selection sector 181

connected lever 187 occurs via lever 183 for the so-called »mechanical printing of the

and at the end of the path meets the fixed zero ", which is made by means of manually adjustable organs

Schlag 193. At this moment, the person relies on causing the automatic printing of the zeros or

Do not hit 188 any more on one of the levers 148 or prevent it in the selected printing column grids

167, and the combined effect of the stop 193 can if it is systematically controlled. In

13 14

a printing machine with printing mechanisms of the PA or with the contacts PN just as well by means of the described type, the automatic printing of the relay contacts can be produced, self-zeroing preferably by means of electrical circuits n-acli a predetermined program by means of in controlled, either by hand or automatically the technology of booking card machines known to be switched by means of relays. This arrangement 5 measures are controlled

allows, as will be shown later, manual input. For example, the number 50 in the columns

to avoid placing of tax organs; the one CLl and CL 2 according to the scheme in FIG

specific work program to print peculiar dimensioned circuits. The bracket CV

can be automatically set up, as indicated, in such a way that they the

Connect an io contacts PC with suitable circuit connections to the contacts PiV. in the

Control panels are specified. Cycle time 5, in which a perforation 5 in a

The diagram in FIG. 4 shows card columns CL 1 scanned by the brush BA 1 for several columns

CL 1, CL 2. . . CL 120 the electrical circuits, are the cam contacts CT 2, CT 3

which in the machine the automatic printing of the and CT S closed. The relay Al is energized and

Prepare zeros. The arrangement described is 15 its contact al closed. Sampling a

set up so that thus the printing of the holes 5 lets the pulse 5 through the following

Numbers contain zeros regardless of this.

it can be controlled whether these zeros in the booking line LA, cam contact CTl (closed), line

cards are punched or not. The circuits are device ILT, contact roller RC (perforation 5 of the card),

connected to lines that by means of cam contact 20 brush BA1, contact a I (closed) and on the one hand

these circuits in the course of each cycle line LIl, contact / 1 (closed), electrical

Spannunigen or voltage pulses in one in the diaphragm EL 1 of the printing mechanism of the column CLl

gram Fig. 5 specified manner. One and back to the negative pole of the power source through the

Line ILT (Fig. 4) transmits through a cam line LD. The printing of a 5 is triggered,

contacts on the contact roller RC of the scanning 25 On the other hand, the pulse 5 temporarily energizes the relay

device so-called reading pulses, which in a Bl; this closes its contact bl, whose closing

Cycle (Fig. 5) the passage of the recordings the relay C1 and the relay D1 energized. That

put 9-12 (Fig. 11) of booking cards between relay Cl closes its contact el, the one

the mentioned contact roller and the scanning brush holding circuit through the line MTN for the Re-

BAl, BA2. . . BA 120. The line 30 Iais Cl and Dl manufactures.

LAN is activated during points 9-12 of each cycle. The energization of relay D1 closes the contact for reading alphanumeric information in d 1, which is kept closed. Nothing was read in column CL 2 columns of the cards scanned by the cam. At the end of point 1 contact CT 2 energized. The cam (Fig. 5) opens the cam contact CTS, and the contact CT 3 sets when it is closed, the line 35 contact CT 4 closes. The relay Al is not connected to VLN during points 9-1 under voltage, more energized, and its Kontaktal opens. The effective too excited about the reading of figures by the closing of the contact CT 4 under tension making, and any planning involved in controlling line set 12:13 El relay, the automatic compression of the included in the figures the contact el closes. Zero at point 12 ³ A of the cycle, as will be shown later. The cam contact 40, the contact CT 2 is opened, and the contact Cr4 sets the line 0.13 while the points 0 CT6 is closed. Closing the contact to 13 each cycle under tension. The cam CT 6 energizes the line F13, and it contact CT S energizes the line MTN , a circuit is formed as follows: Positive pole of the contact closed around the circuit during points 9-13 of each power source, line LA CT 6 to maintain cycle. The cam contact CT 6 45 line F 13, contact dl (closed), line L12, sets the line F13 during part of the contact el (closed), line L13, contact d2 points 12 and 13 under voltage, whereby im (closed), relay F 2 (which is excited and the con-point 13 transmits systematically transmitted pulses / 2 closes). The energized via the line 0.13 telt, as indicated in the diagram of FIG. The relay El closes its contact el, through which the cam contact CT 7 sets the line D 13 during 50 voltage of the line F13 so on all columns to the right of the first half of the point 13 of each cycle under of Cl is transmitted that no digit is printed voltage. A relay controls for each print column. At cycle point 13, the cam group closes - namely Al, Bl, Cl, Dl, El and Fl contact CT 7 and energizes line D 13 for the first column2, B2 ... for the second column. A circuit is formed as follows: positive pole, etc. for the following columns - electrical contact 55 of the power source, cam contact CT 7, line D 13, clocks under the conditions described below- contact / 2 (closed), electromagnet EL 2 and worked. The line LAN is for each pressure column back to the negative pole of the power source. The excitation with connection contacts or sockets PAl, of the electromagnet EL 2 in point 13 triggers the PAl .. PA 120 and the line FLiV with even printing a zero. As can be seen, after such contacts PiVl, PiV 2 ... PN 120 are provided. 60 excitation of the relay F1 of the column CLl the contact A central contact PCI, PC2 ... PC 120 can be closed in / 12, and the pulse 13 transmitted via the line of each column by means of a bracket CV for reading D 13 is sent to the electromagnet EL 1 alphanumeric information with perforated zeros also supplied. Since the lever 200 gets stuck on the lever 124 after printing the contact PA and reading the numbers 5, the excitation of the information with automatic printing of the perforated or 65 electromagnets EL1 at cycle point 13 without unperforated zeros within the numbers is with the Effect.

Contact PN can be connected. It is clear that the example described has of course

Connections of the contacts PC with the contacts have no restrictive meaning; the described

benen different cases of operation relate to a single invention, and there may ever all suitable changes to the design, omissions and replacement measures are made according to the individual case and possible applications are perceived without thereby departing from the scope of the invention is left.

Claims (4)

PATENT CLAIMS: 1. Cyclically operating, pulse-controlled printing machine with a type drum provided on its circumference with parallel type rows divided into groups, the types of which pass in the course of a work cycle in front of a stop mechanism that can be actuated at a certain cycle time via a decoding device to encode a selected character to print, the selection of which is made by control pulses distributed over two groups in a cycle, whereby a first group consisting of one or more pulses selects a character group from a series of character groups and a second group consisting of a completion pulse selects a character in the selected group, DA characterized by that the decryption device controlled by means of an excited by the control pulses electromagnets sequentially selection pawls (110,112), which in turn control the setting of selection levers (146 145) which under control of the Impul se of the first group set a selection sector (181 ) movable around the fixed axis of an actuating lever (183) with staggered stops (£ 9-8, £ 8 ... ER) , while a further latch is held while the selection pulses of the first group are being transmitted (111) can be actuated by a completion pulse of the second group and in this case brings an actuating pawl (207) , known per se, into engagement at a certain cycle time with a driving element (220) moving synchronously with the type drum, the movement of this driving element on a lever (200) is transmitted, which at a certain point in time hits a stop of the selection sector (181) lying in its path and thus triggers the actuating lever (183) , which triggers the stop mechanism for printing the selected character at a certain cycle time. 2. Printing machine according to claim 1, characterized in that the entrainment member (220) moving synchronously with the type drum is a ratchet wheel. 3. Printing machine according to claim 1, characterized in that the selection levers (145, 146) of the decryption device each contain a sector (152, 175) with notches (153, 154, 178) which enable each lever to be blocked in a certain position so that they can jointly select a group of characters , the first of these levers being pulled by spring force against a selection bar (155) which is displaced during the transmission of pulses of the first group, and the second lever (146 ) is pulled against the first lever (145) , the sector notches (153, 154, 178) the selection lever (145, 146) pass in front of the selection pawls (110,112) and the arrangement is made so that the first pulse of the first group releases the two pawls (110,112) , but only the second selection lever (146 ) blocked in a certain position, while a further impulse of the first impulse group only activates the first selection lever (145) in a setting of the selection sector s (181) controlling certain position can block. 4. Printing machine according to claim 1, 2 or 3, characterized in that the levers (145, 146) of the decryption device used to set the selection sector (181) are arranged so that if a control pulse is absent in the first cycle time of the first control pulse group, the selection sector ( 181) is set according to the setting of the first selection lever (145) , while the second selection lever (146), supported on the first selection lever (145), pushes the selection sector (181) and shifts its position so that a stop from a first Series of staggered stops (£ 8, £ 7, ER) that selection sector (181) gets into the path of the actuating pawl (207) , whereas the transmission of a control pulse in the first cycle time of the first control pulse group blocks the second selection lever (146), the setting of the selection sector (181) is controlled directly by the first selection lever (145) and a stop from a second staggered row of stops (£ 9 -8, E 9-7, E 9) of the selection sector (181) into position. Considered publications:
German Patent Nos. 746411, 839 130;
German interpretation document No. 1 044481. In addition 4 sheets of drawings © 109 710/269 10.61