DE919974C - Booking machine, punch card machine or the like with a comparison device - Google Patents

Description

Booking machine, punch card machine or the like with a comparison device The invention relates to an accounting machine, punch card machine or the like. With a Comparison facility.

In machines of this type, it is known to follow the comparison process between an identifier contained in an account card and one in the machine the sensing point for the given by keying in a setting field to bring old stock in a sensitive position. The sequence of these functions is Time-consuming, as the booking process is not insignificantly extended.

The object of the invention is to avoid this disadvantage. According to the invention takes place simultaneously with the comparison process between the the comparison device supplied characteristics also the automatic transfer of the document in the sensing position with the mediation of the control unit. Dependent on the sensed values are then obtained from the comparison result in a known manner written down and automatically evaluated, and the new one after Addition of a change value formed inventory value or the like is combined with further values that form and order it in the selected entry field the account card brought to the display.

Another feature of the invention is seen in the fact that before The sensing device becomes effective through a device with its alignment holes cooperating Adjustment device for the duration of the sensing of the characteristics automatically in the new sensing position is brought.

In the drawings, an embodiment is shown, specifically shown in Fig. I a as seen from the right cross section through the sensing and storage plant, fig. 2 is a schematic plan view of a location of the storage plant, fig. 3 and 3a each a hole Scheme box, fig. 4 a side view of the star means for the card alignment members, Fig. 5 a and 5 b a side view of the card carriage and its drive means, Fig. 6 the part of a section xy (Fig. 5 b) through the card carriage, Fig. 7 additional control means for the card clamping device , Fig. 8 a rotary solenoid arrangement for controlling the sensing, card control and carriage switching processes, Fig. 9 a circuit diagram for controlling the sensing, card control and carriage switching processes, Fig. 10 a working diagram of the control means according to Fig. 9, Fig. Ii a Account card, Fig. I2a and i2b a diagram of the control device, Fig. 13 the control device for the sensing and storage unit, Fig. 14 a detail of the sensing and storage cherwerk; . The like. Fig. ig and 2o the chronologically ordered circuit diagrams of the individual circuits.

The structure of the machine on which the exemplary embodiment is based is as follows: The sensing mechanism The five perforated field points (Fig. 3) of each of the ten existing perforated field points, for example, are assigned a set of five sensing plungers 2 (Fig. I), the sensing pins of which are: 2a in the ones opposite them Perforations of the account card 3 (Fig. Ii) are able to enter. The five perforated field points of each perforated field position are used to represent individual numbers, namely up to "5" through individual perforations and single-digit numbers above "5" through double holes. The sensing plungers 2 are guided by pin-and-slot connections between combs and are under the influence of springs which constantly strive to move them in the direction of the card and to allow them to enter perforations in the card. In the rest position, however, such a movement is prevented by lugs 4 extending from each sensing ram 2, which rest on a bracket 5 which is pivotably arranged transversely to the sensing rams. The bracket 5 is in an articulated connection with a coupling rod 6 , the upper part of which is pivotably arranged on a double lever 7. A spring acting on the coupling rod 6 constantly acts on the bracket 5 and the double lever 7 . As a result, the double lever always tries to turn clockwise. A roller 8 fastened on the free leg of the double lever 7 constantly interacts with a cam disk 9 . The double lever 7 is mounted on a stationary axle. The cam 9 is equal to another cam io on a shaft ii, z. B. by pinning attached. The cam disk io can act with its nose 12 on rollers 13, 14 which are fastened to a lever 15 and a bracket 16. The lever 15 and the bracket 16 sit non-rotatably and immovably on shafts 17, 18 mounted in the machine frame is arranged and together with the other lever carries a round strut: 2: 2. The lever 15 and the bracket 16 are urged by a spring so that their roles constantly rest on the cam disks 9, io. The round strut 22 is able to act on the tabs: 23 of storage slides 24 to 28 (Fig. 1, 2) of the entire sensing and storage unit that are repeated for each point of the sensing mechanism. A pawl 29 hinged to each accumulator slide is coupled to a sensing plunger 2 each by a slot-and-pin connection 30, 31. A tongue 32 extends from each pawl 29 and is able to enter the pivoting range of the bracket 16. From the storage slides 24 to 28 are insulated on these, repeating for each point, contact pieces 33-34, 35-36, 300-301, 37-38, 39-40 (see also circuits 13-24 in Fig. 2o) attached. Fixed contact springs 44, 43-44, 45, 46; 47, 48, 49-50, 5 1, 52; 53, 54, 55-56, 57, 58; 59, 6o, 61-62, 63, 64; 65, 66, 67-68, 69, 70 (fig. 2, 1 2 a, 12 b) together. There are always two contact springs connected to each contact piece. The contact springs are offset from one another for spatial reasons (Fig. I), i. H. once above and below, and connected to each other within each point in the manner shown in Fig.:2 by lines. The setting positions of the links in Figs. I and: 2 correspond to the rest and zero positions of the sensing and storage device 170 (Fig. I, 15). Other connections. to the contact springs of the memory device for the purpose of forwarding stored values will be explained later.

On the shaft ii (Fig. 1 3, 1) a lever 7 1 and a drive plate 7: 2 are also fixedly arranged. In addition to this, a gear 73 is rotatable on the shaft ii, but fixed in an axially immovable manner. on which a pawl 74 is mounted. The pawl, which is constantly urged clockwise around its pin by a torsion spring, can enter a notch 75 in the drive plate 72 with its tooth when the end of a pivotable lever 76 is brought out of the path of the rotating pawl. A push rod 77 hinged to the lever 76 and guided by a pin-slot connection can be moved back and forth by the armature of an electromagnet 78 (Fig. 13, 9, see also circuit i in Fig. 19). When the magnet is attracted, a notch 79 in the push rod 77 enters the area of a spring-loaded pawl 8o mounted above it, so that its tooth can enter it. The bolt 81 of a double lever mounted in the machine frame at 82 can act on the free leg of the pawl 8o and, in its rest position, constantly rests against a stationary bolt 83 under the action of a spring. The free arm 84 of the double lever is thus always in the path of movement of a bolt 85 extending from the lever 71. The gear 73 meshes with a pinion 86 of the drive shaft 87 and is therefore in constant rotation when the machine is switched on.

A validation hole 88a (Fig. Ii) of the account card is assigned an additional sensing ram with associated storage slide 88 (Fig. 14) within the scope of the sensing and storage facility. This accumulator slide interacts with two contacts 89, go (Fig. 14,9, v-gl.auchStromkreis3in Fig.ig), whose contact plates gI, 92 are non-conductive attached to it. each contact plate gi, 92 is in the starting position of the storage slide 88 with contact springs 93-94, 95-96 in a current-locking connection.

With the shaft ii (Fig. 4, 1), a further gear 97 is fixedly connected, which meshes with another gear 98 which is fixedly arranged on a shaft 99 . Furthermore, cam disks ioo, ioi are seated on the shaft 99 in a non-rotatable and non-displaceable manner. The cam disk ioo can close contacts 103 and 175 (Fig. 4,9) one behind the other with its nose 102. The cam disks ioi act on rollers 104 which are held by double levers io5 mounted in the machine frame. These double levers comprise slides io6 which are guided perpendicular to the card slide by means of pin-slot connections and which have alignment pins 107 tapered towards the tip at their respective ends. The alignment pins are arranged in such a way that they can enter alignment holes 10 8 of an account card 3 . Springs iog constantly urge the double levers io5 clockwise. The armatures of electromagnets i 12 (Fig. 4,9, see also circuit 2 in Fig. Ig), which prevent the double lever io5 from swiveling out in a clockwise direction, are normally located in front of the noses iio emanating from the double levers 105. Two spring contacts 114, 115, which are open when the slide is in the rest position, engage on a nose I 1 3 protruding from one of the sliders i o6 (Fig. 4, 9, see also circuit 3-4 in Fig. Ig). The account card routing The account card 3 (Fig. Ii) is placed on a receipt trolley i 2o (Fig. 5 a, 5 b) for posting etc. in such a way that it is fixed with its alignment holes io8 (Fig. ii) reaches the area of the alignment pins 107 (Fig. 4). The document trolley is moved line by line with the aid of a stepping device i: zi (Fig. 5 a, 6) and a spring motor 122. The car lift is carried out directly from the machine drive. For this purpose, a chain drive 123 is provided in the area of the document car, the chain 124 of which rotates once in the course of two car elevators. The chain therefore has two correspondingly arranged control tines 125 (Fig. 5 a, 5 b), which interact with a driver 126 of the document car in successive car lifts one after the other. In addition to the chain wheel, the rear shaft 127 of the chain drive carries a smaller gear wheel 128 which meshes with a gear wheel 129. This is rotatably but immovably mounted on the shaft 130 of a rotor 131. The structure of the rotor 131 and the mode of operation of the same correspond to the rotor shown in FIG. The spring-loaded pawl 132 articulated on the gear wheel 129 can be prevented from entering the notch 134 of a drive plate fastened on the shaft 130 by the tip of a lever 135 which can be swung out by an electromagnet or the like.

The WiPPe 135 (Fig. 6, 5 a) of the stepping device carrying the switch blades can be pivoted in a certain range by the action of the armature of an electromagnet 136 (Fig. 6, 9, see also circuit 1: 2 in Fig. Ig) the knife in contact with the ratchet wheel 137. Along the left side of the document wagon i2o, a shaft 138 (Fig. 6) is mounted in this, which carries two clamping fingers 139 loosely rotatable but immovable in the area of the account card to be placed. Each clamping finger is under the action of a powerful spring 140. In the region of each clamping finger a respective cam 14 1 is disposed on the shaft unyielding 138th In the same way, a lever 142 is attached to the shaft 138, on the tab of which a roller 143 is seated, which is bent at right angles. The tooth 144 (Fig. 5b, 7) of a pawl 145 mounted on this, spring-loaded clockwise, engages above this role in the initial and rest position of the document car # ns i: 2o Machine frame mounted lever 150 are pivoted, which in turn can be pivoted clockwise against the course of its spring from the armature of an electric magnet 1 5 1 (see. Also Fig. 9 and S tromkrei s 3 in Fig. Ig). The roller 143 of the lever 142 (FIGS. 7, 6, 5 b) can run against the cam 152, which forms an inclined plane, of a lockable angle lever 153. A spring acts counter-clockwise on the angle lever. The free leg of the angle lever can be prevented from a clockwise rotation caused by the drive by the bolt 154 of a locking lever 15 5, which is rotatably fastened like this in the machine frame. A spring 1 56 brings the leg i. # 7 of the locking lever, if it is not necessarily adjusted in another way, to the stop on a fixed bolt of the machine frame. In this position, the bolt 154 of the locking lever 155 lies in front of the free leg of the angle lever 153 (Fig. 7). A bolt 158, which is arranged on a control part 159 of the document carriage, can act on the leg 157 of the locking lever 155 and pivot its bolt 154 out of the movement path of the angle lever 153 . The control part 159 influences a changeover contact i 6o (Fig. 5 b, 9), whose contacts 161, 162 (cf. also circuit: z in Fig. Ig) are closed in the rest position of the document car. As soon as this leaves the rest position, the aforementioned contacts open while contacts 16i # 163 close.

Above the card slide 120, in the area of the line perforations 165, which are composed of the perforations 5 11 to 5 1 6 , the account card 3 (Fig. Ii, 1 5) is a contact brush 164 (see also Fig. 9), which is opposite to the Sensing mechanism 170 and its feeler pins 2, a is moved forward by one line step. When the account card is properly inserted, the line finder brush is therefore always above the hole field of the first line hole in the initial position of the document carriage. The line finder brush 164 is non-conductive attached to an angle lever 171 mounted in the machine frame, which, pulled by a spring, is always in contact with the inner flank of the armature of an electromagnet 172 (Fig. 5b, 9) .

In the exemplary embodiment, the perforating units and the printing unit 173, 73a 174 are offset by five line steps with respect to the sensing unit 170 for structural reasons. The control of the sensing unit, the card guide, etc.

The contacts already mentioned 114, 115 are directly g Plusleitun-to 176 (Fig. 9, see. Also circuit 3-4 in Fig. Ig) Sex sets. The free parts of these contacts are constantly connected to the contacts 89, go (see also Fig. 14). The free part of the contact go is connected via a contact 500, explained further below, and the line 177 to the electromagnet 151 for triggering the card clamp m-finger and is connected to the minus line 182 via this. A line 178 emanating from the free part of contact 89 leads to contact 175 (see also Fig. 4), the free end of which through a line 179 with the electromagnet of a relay i8oo and with normally open contacts iSo, 181 (to be explained in more detail) See also circuits 11-7 in Fig. ig). The free parts of these contacts are connected to one another by means of a line 183. Also still contacts 184-186 are connected to this line (see. Also circuits 6a '7a in Fig. IG) connected. Another contact 187 mechanically connected to your contact i8o (see also circuit 12 in Fig. Ig) is connected to contact 188 of relay i8oo and to a rotary solenoid 189 (Fig. 9, 8) . The free part of the contact IS7 is connected to the opposite pole igo (see also circuit 8 in Fig. Ig) to the line finder brush 164 and the electromagnet 136 for the line step circuit. The contacts 184 and 185 (see also circuit 9 in Fig. Ig) are connected to the electromagnets 172 and 78 , respectively. The windings of the electromagnets 112 (cf. also Fig. 4 and circuit: 2 in Fig. Ig) are connected to the contact 162 of the changeover contact 16o. The other ends of the windings of the electromagnets 78, 172, 1 36, 1 89, 11: 2, 1 5 1 are all connected to the negative line 182. The line finder brush 164 is placed like the contact 188 of the relay i8oo on the contact 195 of a pulse generator 196, the cam disk 197 of which sits on the drive shaft and is able to temporarily close the contact once with each revolution. The free part of the contact 195 is connected to the positive line 176. The electromagnet 78 for the rotor is connected to a contact: 2o9 (see also circuit i in Fig. 1 9) , which can be closed by means of a button 2io or from the machine drive and its opposite pole is connected to the positive line. The contacts 181-184, IS5, 187-180, 186 (Fig. 9) are controlled by cam disks 2oo to 2.03 , which are fixedly and immovably arranged on a shaft 204. Another cam disk: 2o5 is fastened in the same way on the shaft 2o4 and, with its diametrically opposite, raised points, can open contacts 2, o6,: 207-208 (cf. also circuits ig ,: 21, 15 in Fig. Ig,: 2o). The working diagram according to Fig. Io shows the development of the corresponding half circumferences of the cam disks and shows the times at which they become effective. The second half of the scope is the same as the first and will be effective in the same way for the following booking process. The comparison and control means for carrying out the accounting work The contact springs 65, 67, 61, 55, 49, 68, 7o, 64, 58, 52 of all positions in the storage unit (Fig. 1: 2, 12a, i2, b) corresponding contacts 315 to 324 (cf. also Fig. 12 a, 12 b and circuit 13 in Fig. ig) are connected by the same number of selectors 325 to 329 by means of cable bundles 31o to 314 assigned separately to each position . Such a selector is assigned to each point of the setting or display unit, which is known per se and is therefore not shown here. When they change their position, the setting members at each point take the switch arm of the voter attached to them with them by the same distance that they cover themselves. The switching arrays of the selectors 325 to 3-9 are labeled 330 to 334 and are connected by lines 335 to 339 to the contacts 34o to 344 of a selector 345. With the switching arm 346 of this selector, switching arms 347, 348 of further selectors 349, 35o are permanently coupled in a non-conductive manner. The contacts 351 to 355 of the selector 349 are connected in sequence to the contact springs42 of the positions "5" to "i" of the storage unit by means of lines 356 to 36o. The follow-up contacts 361, 362 of the selector 345 are individually short-circuited to the corresponding contacts 363, 364 of the selector 349. The switch arm 348 of the selector 35o can have five, i. H. one of the number of also short-circuited contacts 365 to 369 corresponding to the number of digits of the setting mechanism, and two further contacts 370, 371 interact one after the other. The contacts 365 to 369 are connected by a line to a relay 373 (see also Fig. I2b and circuit 1,4 in Fig. 2o), which is able to close a pair of contacts 374, 375. The contact 374 is connected together with the contact 2o8 (see also Fig. 9) between the positive line and an electromagnet 383 (see also circuit 15 in Fig. 2o), which is able to control the lever 133 indicated in Fig. 5. The contact 375 (see also circuit 17 in Fig. 20) is in turn connected to a further contact 376 assigned to the cam 205 (Fig. 9) and together with this between the positive line and the contact 371 of the selector 350 and an electromagnet 377 (Fig. 12 a, 16). In Figs. 12a, i2, b the mechanically jointly controlled contacts2o6, 376 are drawn in their operative position and are arranged in such a way that when switching over the contact 376 closes sooner than the contact 2o6 opens. The contact 370 (cf. also circuit 18 in Fig. 2o) of the selector 350 is connected by a line 378 to a relay 379 , which is also able to close two pairs of contacts 380, 381 when it is energized. The contact 380 is on the one hand via the contact 2o6 on the positive line and on the other hand on the relay magnet 379, so that a holding circuit for the relay 379 has been formed via its own contact 380. The other contact 381 (see also circuit 20 in Fig. 20) is electrically coupled to contact 207 (Fig. 12 b, 9) and is connected to this between the positive line and an electromagnet 382 , which will be explained later. Another contact 384 that is mechanically controlled together with the contacts 207, 208 (Fig. I2b, 9, see also circuit 21 in Fig. 20) lies together with an electromagnet 385 between the plus and minus lines of the power network. The contact 186 controlled by the cam 203 (Fig. 9) is mechanically assigned an additional contact 386 (see also circuit 6 in Fig. Ig). This contact is connected directly between the plus and minus lines together with an electromagnet 387 to be explained in more detail with regard to the mode of operation. The contact 186 (see also circuit 7 a in Fig. Ig) and a rotary switching solenoid 388 (Fig. 12 a) are arranged in the same way. The positive lead also leads to the contact 389 (Fig. 12a) of a pulse generator 39o, the cam disk 391 of which sits on the drive shaft 392 , which rotates continuously when the motor is switched on. The free part of the contact 389 is connected to the switching arm 346 of the selector 345 by a line 393. The switching arm 347 of the selector 349 is in turn connected to the line connecting the contact 186 to the rotary switching electromagnet 388 . The switch arm 348 of the selector 350 receives power directly from the positive line. The switching arms 346, 347, 348 (Fig. 1: 2 a, 16) are incremented by the rotary switching electromagnet 388. A pinion is fastened to the shaft 394 which carries the switching arms and is constantly in engagement with a toothed rack 395 guided by pin-and-slot connections. The end face 396 of the rack 395 lies in the movement path of the bolt 397 of a lever 398, which is mounted in the machine frame and coupled to another lever 399 mounted in a similar manner in the manner of a parallel thrust crank. A pawl 4oo articulated on the lever 399 lies with a bolt 401 extending from its leg in front of the armature of the electromagnet 377 already mentioned above (FIGS. 16, 12 a). The pawl 400 is constantly urged clockwise by a torsion spring. The tooth of the pawl 4oo can come into contact with the gradation 402 of a sector 403 oscillating back and forth and participate in its movement in the direction of arrow 404. The sector 403 can be a part (rocker arm) of a bow thrust crank and therefore does not need to be explained in detail. The armature of the electromagnet 377 , which is held in the fallen state by a stronger spring, controls the entry of the pawl into the operative position.

The electromagnet 382 (Fig. 1: 2 b) is used in a known manner for the step-by-step advancement of the switching arm 405 of a selector 4o6, the contacts 407 to 411 of which are connected to the lines 335 to 339 by cables 412 to 416. The switching arm 405 is connected to the line 393 . All switching arms of the selector 325 to 329, 345, 349, 350, 4o6 (Fig. 12a, 12b) are in their rest position by one step before the first contact of their rows of contacts. The stepping solenoid 382 of the selector 406 is connected through a detachable line 41 7 and parts 584, 583, 417a, which will be explained in detail later, also with the discharge of the solenoids 418 to 427 of one or more writing units 428 (Fig. 17, 12a). In the selected embodiment, the second writing unit 55o is connected to another rotary switch electromagnet 572 (Fig. 12a, i2b). The writing unit 55o can, however, also be separated from the electromagnet 572 and connected to the magnet 382 by a simple switchover. The electromagnets 418 to 427 are used in any writing unit or the like in a similar manner. These electromagnets are the numbers "g" to "o" supplied, assigns and each act on their own on a respective lever chain 429-432 (Fig. 17), the corresponding Typenhebe1433 located at the end thereof on said at Schreibwalze434 journa1435 located or the like. Can come to print. The anchors 5 5 1 assigned to the writing unit 55o (Fig. 18) for the inscription of the account card are designed as angle levers, the free legs of which are coupled to the type levers 55: 2 by pin-and-slot connections and in the rest position by springs 553 being held. The document trolley i2o (Fig. 5 a, 5 b) sits on a second, not shown trolley, which can be moved transversely to its own movement in line direction by decimal places by means of a conventional stepping device. The elevator of the second car can be done in the same way as with the i2o document car. The electromagnets 418 to 427 (Fig. 12 a) are connected to contacts 436 to 445, the free parts of which are attached to a slide switch 456 insulated from one another. The free parts of the contacts 436 to 445 are connected by lines 446 to 455 to the lines 31o to 314 (Fig. I2a, i2b) assigned to the respective digits "g" to "o" of all positions of the display or setting mechanism. The slide switch 456 contains two notches 457, 458 into which a detent spring 459 can alternately enter. In the rest position of the machine, the spring 459 engages in the notch 457 of the slide switch 456. The contacts 436 to 445 are then open. The armatures of the electromagnets 387, 385 (see also circuits 6-16 in Fig. Ig, 2o) can interact alternately with the end faces of the slide switch 456.

The operation of the machine is as follows: At the beginning of the booking work, the account card 3 (Fig. Ii) is placed on the document trolley i2o (Fig. 5) and pushed as far as the stop, not shown. Then the button2io (Fig.9) is pressed so that the contact: 2o9 is closed. As a result, the electromagnet 78 (Fig. 9, 13, see also circuit i in Fig. Ig) briefly receives a current pulse. He pulls his armature and moves the switching rod 77 in the direction of the arrow so far that the tooth of the pawl 8o enters the notch 79 of the switching rod and the lever 76 is pivoted out of the path of the rotating pawl 74 until further notice. In this way, the tooth of the pawl 74 jumps into the notch 75 of the drive plate 7: 2. The drive plate and with it the shaft ii as well as the lever 71 and the cams 9, io, ioo, ioi (Fig. 1, 4) now participate in the rotation of the pawl. Immediately with the start of the rotary movement, the cam disk io strikes with its nose 12 on the roller 13 of the lever 15 and displaces it in a clockwise direction. By means of the coupling rod, ig the levers 2o with their round strut: 2: 2 perform the same movement. The round strut 22 meets the tabs: 23 of those accumulator slides that were set in the previously completed booking process, and returns them to the zero position. Simultaneously with the activation of the cam disk io, the cam disk ioi releases the roller 104 of the angle lever io5, which can move clockwise because the electromagnets ii2 via the current bridges76, 161, 16: 2 (Fig. 9, see also circuit 2 in Fig .ig) are excited from the start. As a result, the alignment pins 107 enter the alignment holes 10 8 of the account card 3 and bring them into the correct position. Here, the soft nose 113 permits one of the slide IO6 the closure of the contacts 114, 1 15 (Fig. 4, 9). As soon as this has happened, the cam 9 with its raised part releases the roller 8 of the double lever 7 , whereupon this, following the pull of the spring of the coupling rod 6, swivels clockwise # to the right. The bracket 5 (Fig. I) is thereby displaced in the direction of the arrow and releases the lugs 4 of the sensing tappets. These then fall down, supported by their springs, where they are stopped by the account card 3. If there are holes in the area of the sensing pins 2a, the sensing pins enter them and thereby pivot the pawls 29 of the storage slide: 24 to: 28 attached to them so that their tongues 3: 2 enter the range of movement of the bracket 16. Then the nose 1: 2 of the cam acts on the roller 14 of the bracket 16 and pivots it counterclockwise by such a distance that it grips the tongues 32 of the pawls 29 in its area and the associated storage slide and their contact plates the until then free standing contact springs 43, 46 or the like. Brings into contact.

In the selected embodiment, these setting processes do not occur in the storage unit, since the account number "ooooo" in the head of the account card is not punched according to the perforated field scheme (Fig. 3). As a result, no feeler pins 2, 11 of the sensing plungers 2 can enter the corresponding holes in the account card, so that the storage slides 24 to 28 of all positions remain in the drawn zero positions (Fig. 2, i2a, i2b).

Simultaneously with the sensing of the perforated field locations of the account number on the account card 3 (Fig. Ii), a further feeler pin 211, already mentioned at the beginning, enters the area of the perforated field location 88a for the validation of the card. If the card is not canceled at this point by no perforation, the contacts 89, go remain in the rest position shown in Fig. 14. If, however, the feeler pin 211 is able to enter a cancellation hole 8811, then the contacts 89, go (cf. also Fig. 9) are subsequently opened. If the nose io2 of the rotating cam disk ioo comes into the area of the additional contact 5oo (Fig. 4, 9), so that this is closed, current flows (see also circuit 3 in Fig. Ig) through the already at the beginning of the rotor rotation closed contact 115 and the Teilego, 5oo to the electromagnet 1 5 1 (Fig. 9, 5 b). This is only the case if, as in the exemplary embodiment, there is no validation hole 8811 in the account card 3. Otherwise, the contacts 89, go are opened, so that the circuit explained remains closed. But even if no account card or the like is inserted, no excitation of the electromagnet 151 occurs, since in such a case the contacts 114, 115 remain open. After the circulating movement has ended, the card that has been canceled to prevent further bookings from being made can be removed from the receipt trolley and another account card can be placed on the car.

The excited electromagnet 151 (Fig. 5b) pivots the lever 15o through its armature, which in turn pivots the pawl 145 with the help of its bolt 149 so that its tooth 144 releases the roller 143 of the lever 142 (see also Fig. 6). The clamping fingers 139 resting on the cam disks 141 can now follow the pull of their springs 140 and lie on the account card 3. The roller 143 of the lever 142 then assumes the position shown in Fig. 7.

The cam disk ioo, which in the meantime and then continues to rotate, now closes contact 175 with its nose 102 (Figs. 4, 9). Shortly beforehand, the cam 9 (Fig. I) acts with its raised part on the roller 8 and thus pivots the double lever 7 in the counterclockwise direction so far that the action of the bracket 5 on the lugs 4 of the sensing plunger 2 moves the sensing pins 2a out of the area the account card 3 can be removed.

Meanwhile, the bolt 85 (Fig. 13) of the revolving lever 71 pivoted the double lever mounted at 82 counterclockwise. Here, the bolt 81 took the pawl 8o with it and lifted its tooth 79 out of the notch of the push rod 77, so that this and with it the lever 76 again assumed the rest position shown. The pawl 74 that comes near the lever 76 in the course of its rotary movement is deflected by the latter and its tooth is lifted out of the notch 75 of the drive plate. At this moment the rotary movement of the cams 9, io, ioo, ioi (Fig. 1, 4) is interrupted. They now resume their rest position. As a result, the alignment pins io7 were also removed from the area of the alignment holes. The armatures of the electromagnets 112 are again locking in front of the noses of the angle levers io5. The closing of the contact io3 from its nose io2 shortly before the rotary movement of the cam disk ioo is stopped has no effect, since the same does not receive any current via the changeover contact 16o (Fig. 9, 5b) when the document trolley is locked in the initial position. Since the lug 12 of the cam disc interacts with the roller 13 only once in the course of a sensing, namely only at the beginning of its rotary movement, the storage slide 24 to 28 are not changed in their setting even if they are above the number "o" was made according to single-digit numbers.

The contact 175 (Fig. 9, 4), which is explained above and closed by the nose io2 of the cam disk ioo, receives current during the period between the return of the sensing pins 211 and the beginning of the removal of the alignment pins 107 from the alignment holes io8 of the account card 3 (Fig. Ii) lies. Accordingly, a current pulse flows via the current bridge 176, 114, 89, 178, 175, 179 (see also circuit 4 in Fig. Ig) to the relay i8oo to the negative line. The relay closes its contact 188. As a result of the subsequent closure of contact 195 of pulse generator 196, a current surge (see also circuit 5 in Fig. Ig) reaches the rotary switch solenoid 189 (Fig. 9, 8) via contact 188. This pulls its armature briefly and, by means of the gearbox controlled by it, switches the shaft 204 with the cam disks 2oo to 203, 205 forward by one step. As a result, the nose of the cam disk 205 moves away from the contacts 2o6, 376 (Fig. 9, 12 b), so that these close, while the raised parts of the cam disks 200, 203 (Fig. 9, io) the contacts 181-184 , 186-386 (see also Fig. 12a), which triggers the following effects: The current flows from the positive line 183 (Fig. 9) (see also circuit 6 in Fig. Ig) via contact 386 to the electromagnet 387 (Fig. 12a) and then to the negative lead. The electromagnet 387 attracts its armature, which moves the slide switch 456 so that its notch 458 is removed from the detent spring 459 so far that the latter can enter the notch 457. The contacts 436 to 445 are then open until further notice, so that the writing mechanism with its electromagnets 418 to 427 cannot become effective. Furthermore, a continuous current reaches the relay i8oo via the connection provided by parts 183, 181 (see also circuit 7 in Fig. Ig). At the same time, the electromagnets 172, 388 (Fig. 9, i2a) are excited by means of the current coming via the parts 183-184, 183-186 (see also circuit 0, 7 " in Fig. Ig).

By the armature of the electromagnet 172, the angle lever 171 carrying the contact brush 164 (Fig. 5 b, 9) is pivoted counterclockwise. As a result, the contact brush 164 hits the field provided for this line hole " i " (5 11) at the level of the first line 5 1 o of the account card 3 (Fig. Ii) and comes along by passing through the line hole the opposite pole igo in contact. The subsequent closure of the contact 195 of the pulse generator 196 triggers two current surges, which are transmitted from the pulse line 176 firstly via the parts 164, igo to the electromagnet 136 (Fig. 9, 6, see also circuit 8 in Fig. Ig) and secondly (see also circuit 5 in Fig. ig) through the contact 188 of the relay i8oo to the rotary switch solenoid 189 and then to the negative line. The electromagnet 136 switches the line step switch device 121 (FIG. 6). As a result, the document trolley i2o is released to a step-like movement amounting to a line height, whereupon the document trolley moves into the new line position (512 in Fig. I) under the influence of the spring motor 1:22. Electromagnet 189 (Fig. 9, 8) , which is excited at the same time, switches the cam disks: 2oo to 203 ,: 205 by a further step in a clockwise direction. As a result, the nose of the cam: 203 releases the contacts 386, 186 again. They open again while the raised part of the cam disk 2oo continues to keep the contacts iSi, 184 closed. From this it can be seen that the electromagnets 172 (Fig. 5 b, 9), 189 (Fig. 8, 9, see also circuit 5 in Fig. Ig) remain excited as long as the raised part of the cam disk 2oo on the Contacts 181, 18, 4 are able to act in the course of his step movement. In the chosen embodiment, this is the case in the course of thirteen successive stepping positions. These thirteen positions of the cam 2-oo correspond to the number of lines on one side of the account card 3 (Fig. Ii). If more or fewer lines are provided on an account card, the cam 200 must be designed accordingly with regard to its raised places. In the second row of the account card 3 (Fig ii.) A line hole 5 1: 2 is present, passes in turn a respective impulse to the electromagnets 136, 189, whereby the document cart i: 2o (Fig. 5 a, 5 b) and the cams 2oo to 203 ,: 2o5 in turn each perform a stepping movement. If, however, the hole 512 is missing at the level of the second line of the account card 3 (Ab. Ii), the electromagnet 1 36 is not energized again after reaching the second line position, and the document trolley stops in this position. This state can of course also occur when the first line hole 5 11 of the account card 3 is scanned. The document trolley 120 then does not perform any step movement during the pending operation (line search for the purpose of value sensing). In the assumed case, however, the fifth line 515 of account card 3 should already be posted. The document trolley 120 and the cam disks: 2oo to 203, 205 therefore each perform four stepping movements in the manner described, until the fifth line 515 comes under the contact brush 164, whereupon an additional step takes place through which the perforation of stock values, sales partial accounting, individual Item or the like of the fifth line 515 step under the sensing pins? A of the sensing mechanism (Fig.i). In the exemplary embodiment, the stock values changed in each case by a new debit or credit item are punched as values that are gelated in the posting lines. After the next, not yet posted line "6" with its unperforated line perforated field 5 16 has stepped under the contact brush or the most recent perforated stock value 6oo, oo has taken its position under the sensing pins, only the electromagnet 189 (Fig. 9, 8) Current mini-pulses, as many as stepping movements are necessary to bring the raised part of the cam disk 2oo out of the area of action of the contacts 181, 184,: 2oo (in the exemplary embodiment "8"). At the point in time when only one switching step is necessary to remove the raised part of the cam: 2oo from the contacts 181, 184, the nose of the cam 2oi also acts on the contact 185 and closes it. As a result, current (see also circuit 9 in Fig. Ig) from the plus line 183 to the electromagnet 78 (Fig. 9), which is directly connected to the minus line. The next current pulse triggered via the contact 195 of the pulse generator 197 then results in a stepping movement through the excitation of the electromagnet 189, whereby the raised parts of the cam disks: 2oo, 2oi release the contacts 181-184, 185 again. As a result, the relay i 8oo drops out and its contact 1 88 opens. The electromagnet 17: 2 is also de-energized and thus causes the contact brush 164 to return to the position shown in FIGS. 5b and 9.

The electromagnet78 (Ab. 1-3, 9) , which is briefly excited by the action of the nose of the cam disk 2oi on the contact 185, causes the pawl 74 to enter the notch 75 of the drive disk 72 and entrain it in the process in the manner already described above one effective rotation. As a result, the processes described below take place one after the other as a function of the position of the cam disks 9, io.

The round strut 2: 2 (Fig. I) carries out its movement, which normally serves to delete the storage slide setting. Then shall the waste feel the Bestandswertlochungen the line "5" of the account card causes 3 (Fig. Ii). The angle lever 105 remains in its position according to FIG. 4, since it is prevented from moving by the unexcited electromagnet 112. Corresponding to the stock value 6oo, oo, only in the position »5« (Fig. 3 a), seen from the right, the number »6« is shown as combination perforation. The sensing pins 2 - a of the sensing rams 2 now enter these perforations. The sensing rams take the pawls 29 assigned to them with them downwards. The slots 31 of the pawls 29 hinged to the accumulator slides: 25 and: 27 of the point "5" of the accumulator mechanism slide along on their bolts extending from the sensing plungers 2. The tongues 32 of both pawls come into the area of the bracket 16, which is then displaced counterclockwise depending on the nose 1: 2 of the cam disk io. As a result, the selected pawls are shifted together with their slides 25, 27 from their zero position in the direction of arrow 52o (Fig. I). In this way, take the contacts 35-36, 37-38 of Schieber25, 27 the spot "5", with release of the contacts 47-50, 59-62 with the contact springs 48, 49, 51-52, 6o-6i, 63- 64 in electrical connection (Fig. 2). In Fig. 12 a, 12 b , the setting corresponding to the number 6oooo is entered in dash-dotted lines. After setting the slide 25 ,: 27, the cam 9 brings the sensing pins 211 back into the starting position (Fig. I). Since there is no cancellation hole 88a (Fig. Ii) in the area of the posting lines, the contacts J "1,), go (see Fig. 14, 9) remain in the closed position. Shortly before the end of the rotation of the drive plate and thus also the cam ioo (Fig. 4) affected by their lug 102 on the contact 103 (see. also Fig. 9) and closes this. Previously, the account card away already during the setting of the last posted to line 3 of the specimen carriage 120 (Fig. 5 a , 5 b) from the changeover contact 16o, the contacts 161, 163 of which now close, while the contacts 162, 161 move apart. In this way, a current surge passes through the parts 176 (Fig. 9, see also circuit io in Fig. Ig) , 161, 163, 103, 179 to relay 18oo. The contact 188 of the relay is closed, and from the following closure of the contact belonging to the pulse generator 196, a further current surge arrives via the contact 188 to the rotary switching electromagnet 189 (Fig. 9, 8, see also Circuit 5 in Fig. Ig) This works back on the cams: 2oo to 203, 205 on and switches them one step further in the direction of the arrow. The cams now assume position »16« (Fig. Io). As a result, the cam disk 2o2 acts with its raised part on the contacts 187, 18o and closes them. As a result, the relay receives 18oo continuous current (see also circuit ii in Fig. Ig). Contact 188 remains in the closed position. The next current impulse coming via the contact 195 of the pulse generator 196 goes through the elements 1 88, 187 to the electromagnet 1 36 (Fig. 6, see also circuit 12 in Fig. Ig) for the line step movement of the document carriage i2o (Fig. 5 b) in the direction of the arrow 1 23 and through the contact 188 (see also circuit 5 in Fig. Ig) directly to the rotary switch electromagnet 189. This moves the document trolley i2o and the cam disks: 2oo to 203, 2o5 by one step each. This process is repeated according to the distance between the printing (writing) and perforating units from the sensing unit. In the selected exemplary embodiment, the distance between these works is equal to five line heights or five line increments. The raised part of the cam disc 202 acting on the contacts 187, 18o therefore causes five successive excitations of the electromagnets 136, 189. Then the new line 5 1 6 of the account card 3 (Fig raised part of the cam 202 has released the contacts 187, i8o again. So they are open again, whereby the relay 18oo drops out again. The cams 2oo to 203, 2o5 now assume the position »21« (Fig. Io). At the point in time when the cam 202 only has to perform one step movement to switch off the contacts 187, 18o (position "2o" in Fig. Io), the lug 6oo of the cam acts: 2o5 on the contacts 207, 208, 384 ( Fig. 9, 12 b) and closes it.

However, before the effects achieved are explained, further processes running parallel to the card movement (comparison process) must be described, which were already initiated at the beginning of the movement of the cams 2oo to 203, 205 by closing the contact 186 (Fig . 9) were initiated. In any case, these processes come to an end at least when the thirteenth or the last line of account card 3 (Fig. Ii) intended for a posting but already posted has been brought into the scanning position. However, as explained below, the comparison result does not take effect until the end of the overall line setting.

The current surge flowing through the contact 186 excites the rotary switching electromagnet 388 of the selector 3, 45, 349, 350 (Fig. 12 a). As a result, the switching arms 346, 347, 348 of the same step over the contacts 340, 35 1, 365 closest to them. H. Before pressing button 2io (Fig. Q), the identification number of the desired account card 3 (Fig. ii) »ooooo« was set in the machine's setting unit. The switching arms 330 to 33.4 of the selector 325 to 329 thus assume the dot-dash position (Fig. I2a). As soon as the switching arms 346 to 348 of the selector 345, 349, 350 have assumed their new position, a current surge comes through the line 393 via the contact 389 of the continuously rotating cam disk 391 of the pulse generator 393 (see also circuit 13 in Fig. Ig), the following course takes place: Kontakt389, line393, Schaltarm346, Te # ile # 340,335, 330, 315, 31o, Kontaktfeder65 the position "5" of the accumulator, links 39, 66, 59, 37, 6o, 53, 300, 54, 47 , 35, 48, 41, 33, 42, 356, 351, 347, rotary switch solenoid388, negative line. At the same time, the current flows through the following circuit (Fig. I2a, i2b; circuit 14 in Fig. Ig): positive wire, switching arm348, contact 365, wire 372, relay 373, negative wire. The relay 373 now remains closed as long as the switching arm 348 subsequently interacts with one of the contacts 365 to 369 which are short-circuited with one another. The electric magnet 388 now brings the switching arms 346, 347, 348 into connection with the contacts 342, 352, 366 . The next current impulse accordingly runs through the following circuit (see also circuit 13 in Fig. Ig): Contact 389, parts 393, 346, 341, 336, 331, contact spring 65 at position "4" of the storage unit, elements 39, 66, 59 , 37, 6o, 53, 300, 54, 47, 35, 48, 41, 33, 42, 357, 352, 347, electromagnet 388, negative lead. In this way, the correspondence of the storage locations with the associated locations of the display unit is checked, digit after digit. The control process can, however, also be carried out in a known manner by connecting the positions of the same name and consecutive positions in all positions simultaneously.

If, in the selected exemplary embodiment, the settings for positions of the same name, assuming those of the third position, do not match, then contact 389 can not close a suitably prepared circuit. The rotary switch solenoid 388 is not re-energized. Accordingly, according to the assumption, the switching arms 346, 347, 348 (cf. also Fig. 16) remain above the contacts 342, 353, 367. The relay 373 remains energized. The energized relay closes contacts 374, 375. As a result, after setting line 5 1 6 of account card 3 (Fig. also circuit 1 5 in Fig.: 2o) Current via the parts 374, 2o8 to the electromagnet 383, which swings the lever 133 (Fig. 5 a) out of the range of motion of the continuously rotating pawl 132. The mode of operation of the rotor in Fig. 5 a is basically the same as that of the rotor according to Fig. 1 3. The pawl 132 (Fig. 5 a) enters the notch 134 of the drive plate of the rotor IV and takes it 360 ' with. As a result, the chain is moved clockwise so that its prongs 125 strikes the driver 1:26 of the document carriage i2o and returns it to its starting position counter to the direction of the arrow 1: 23. The roller 143 (Fig. 5 b to 7) strikes against the cam 152 of the angle lever 153 and, since this is prevented from evasive movement by the locking lever 155, is pivoted counterclockwise together with its lever 14: z. The cams 141 raise the clamping fingers 139, which release the account card 3 again. During its pivoting movement, the roller 143 steps under the tooth 144 of the pawl 145 and is thus held in the card relaxed position. Immediately thereafter, the bolt 158 of the document trolley i2o swivels the leg 157 of the locking lever 155 and brings its bolt out of the path of the angled lever 153. The end face iooo of the same thus easily passes over the bolt 154 of the locking lever 55. The document trolley i: 2o is now in its starting position achieved. The tine 1:25 moves a little further into the position shown in Fig. 5 a, while the second tine 1:25 moves into the preparation position for the next car elevator. The card found to be incorrect can now be removed from the document trolley and replaced with another one.

Because the Winkelhehel 153 is unlocked, after a new card has been inserted and the pawl 145 pivoted outwards by the electromagnet 151, the card clamping fingers 139 (Fig. 6) can become effective again and hold the newly inserted card. As soon as the document trolley leaves its starting position again, the locking of the angle lever is effective again. At the same time as the initial (rest) position is reached, the receipt trolley i: 2o reverses the changeover contact 16o again (Fig. 5b, 9). The electromagnets 112 are then again excited in the manner already explained at the beginning (cf. also circuit 2, in Fig. Ig). The contact 384, which is closed at the same time as the contact: 2o8 (see also circuit 16 in Fig.:2o), excites the electromagnet 385 (Fig. 12 a, 12 b), which reverses the slide switch 456 by closing the contacts 436 to 445 . When this is done, the detent spring 459 jumps into the notch 458 of the slide switch and holds it in the new position.

When the cam: 205 (Fig. 9) has returned to its starting position, it controls the contacts 376, 2o6 with its nose 6oi, closes the former and opens the latter. Current then flows (cf. also circuit 17 in Dep. 2, o) from the plus line through parts 376, 375, the electromagnet 377 (Fig. 12 a, 16) to the minus line. The excited electromagnet attracts its armature, as a result of which the pawl 4oo touches the sector 403 with its tip, which then, due to its oscillating movement, occurs with its graduation 402 in front of the re-entrant tip of the pawl. The pawl 400 is thus taken along in the direction of arrow 404. The bolt 397 thereby acts on the end face 396 of the rack 395 and guides it back into the starting position together with the switching arms 346, 347, 348. As soon as the switching arm 348 (Fig. 1: 2a) leaves the row of contacts 365 to 369 , the relay 373 is switched off from the mains (see also circuit 14 in Fig.:2o). Contacts 375, 374 open again. The switching arrays 346, 347, 348 (FIG. 16) and their axis 394 can be permanently connected to a sector 56o carrying digits, from which one point in each case can be read in a viewing window 561. In this way, in the event of a negative comparison output, it can also be determined in which position of the compared identification number the stop process was triggered.

If the assumption of a mismatch in the setting of the two comparison parts in any part, e.g. B. in the third digit of the control device, the comparison work continues properly in the manner explained for the first contact points 340-341, 351-352 up to the contacts 344 assigned to the last position "i". If all points of the two comparison parts (display or setting unit and sensing memory) of the control device match, then the switching arms 346, 347, 348 occur via the contacts 364 363, 37o of the selector345, 349, 35o. The relay 373 (see also circuit 14 in Fig. 2o) drops out. Current flows from the plus line (see also circuit 18 in Fig. 2, o) through parts 348, 370, 378, the relay 379 to the minus line. The relay 379 closes its contacts 380, 381. Meanwhile, the lugs 6oo, 6oi of the cam: 205 are outside the area of the contacts 376-: 2o6,: 207-208-384. Contact 2o6 is thus closed. In this way, continuous current (see also circuit ig in Fig. 2o) passes through parts 2o6, 380 to relay 379. The contacts of the same remain in the closed position. The next switching step made possible by the contact connection 361-363 and the switching arms 346, 347 brings only the switching arm 348 with its contact 371 in agreement. The electromagnet 377 (see also Fig. 16) receives current (see also circuit 20 in Fig. 2o) and thus brings about the return of the switching arms 346, 347, 348 and the display sector 56o to the one shown in the manner already explained above Starting position. After the line 5 1 6 to be posted to the account card 3 (Fig. Ii) has been set at the level of the printing and perforation units, the nose 6oo of the cam 2o5 comes into contact with the contacts 207, 208, 384, as has already been explained and closes this. As a result, current flows through the contact 384 to the electromagnet 385 (Fig. 12 a, 12 b, circuit 16 in Fig. 20), which causes the slide switch 456 to close the contacts 436 to 445. The slide switch is held in this position by the detent spring 459 which snaps into its notch 458. The current continues to flow (see also circuit: 21 in Fig. 2o) through the following circuit: positive lead, 381, 207, rotary switch solenoid 38: 2, negative pole. The cam disk 205 now releases the contacts 207, 2o8, 384 again and resumes the starting position in which it holds the contact 2o6 open with its nose 6oi and the contact 376 closed. As a result, relay 379 (see also circuit 18 in Fig. 20) drops out again.

The electromagnet 382 , which is only excited for a short time, moves the switching arm 405 of the selector 4o6 forward by one step in the clockwise direction. As a result, the switching arm 405 lies over the contact 407. The contact 389 of the pulse generator 390 , which then closes, now sends a current impulse through the following circuit (see also circuit 22 in Fig. 2o) : Contact 389, parts 405, 407, 412, 330 , 315, 455, 445, electronics 427 of the writing mechanism 428 (writing mechanism 55o for KontokOxte 3 is switched off), 417 a, 584, 417, electromagnet 382, negative line. The energized electromagnet 427 causes an "o" to be written on the journal. The solenoid 382 moves the switch arm 405 forward by one step so that it passes over the contact 408. The ID number "ooooo" is thus entered on the journal. If this is done, two legs of the switching arm with the contacts 570, 5700 come into agreement. Characterized per 584, 417 to the solenoid 382 (also circuit 23 see. In Fig. 20) passes a current surge on the parts 405, 5700, 417, "(see. Also circuit 23 in Fig. 20) and via a line 5 7 1 to a rotary switch electromagnet 57: 2, which is connected directly to the negative line and advances the switch arms 573, 574 of two mechanically but not electrically coupled selectors 58o, 581. In this way, the switch arm 573 steps with the one closest to it contact 575 of a contact row 575-579 in connection while the Schaltarrn acts on a contact track 582 574, which occupies the same angular distribution as the above-mentioned contact row. a, further switching arm 583, which is also coupled not conductively connected to the switching arm 573, snaps into the Rest position on an individual contact 584 and can interact with a contact rail 585 corresponding to the size of the contact track 582. The line 417a is attached to the switching arm 583 closed. The single contact 584 is connected to the line 417. The contact track 585 lies directly on the negative pole of the power grid. With the first step switching of the switch arm 573, 574, the switch arm 583 also steps over its contact track, 585. The connection 417a of the electromagnets 418 to 427 of the writing unit 428 with the line 417 and thus via the electro, magnet 382 with the negative line is interrupted, and the line 41 7 " is placed directly on the negative line via the contact track 585.

The following current impulse (see also circuit 24 in Fig. 2o) now passes via the switching arm 573 from contact 389 of the pulse generator 39o: parts 389, 393, 573, 575, 356, contact spring 42 of position "5" of the storage unit, 43, 54 36, 5o, 57, 301, 56, 63, 38, 62, 69, 40, 70, line 310, 449, electromagnets 421 of the writing units 428, 550 (Fig. 17, 18), 417 a-583-585 , Negative pole, 587-574-582, electromagnet 572, negative pole. The number "6" of the old inventory value "6oooo" is recorded on account card 3 (Fig. Ii, line 516) and journal 435 (Fig. 17). The electromagnet 572 brings the switch arm # e 573, 574, 583 into the next position. This continues from point to point until the old stock value is written down on the account card and journal. Then the switching arms 573, 574, 583 leave the row of contacts 575 to 579 and the contact tracks 582, 585. The switching arm 573 comes to an additional contact 59o, which via a line 591 and the contact 595 to the electromagnet or electromagnets 383 (cf. circuit 25 in Fig. 20) for the rotary control (lever 133) of the document carriage 120 and possibly also of the writing carriage carrying it (Fig. 12b, 5a) is connected. As a result, the document wagon 120 and the like are brought back to its starting position in the manner already described and the account card is released for removal. The switching arms 573, 574, 583 then assume the rest position shown in Fig. 12b again. Instead of the contacts of the sensing memory or parallel to this, the selector of the balancing unit can optionally be connected to the selector 58o etc., whereby the setting of the balancing unit can be transferred directly to writing and printing units. If the new item is entered manually (using a keyboard) for posting, a second current pulse must be triggered by a contact button (not shown) in order to initiate the formation of the new balance and the writing and punching of the same. In this embodiment, the contact 595 (Fig. 12 b) would only be closed in the course of the second work cycle of the same booking process initiated by the special contact closure. A direct connection (Fig. 12b) between the line 571 and the contact 595 allows the tripping of car elevators immediately after the account number has been written down (see also circuit 26 in Fig. 20). The account card and also the journal are actually described with further conceptual values calculated from readings (new inventory value, new item, etc.). However, these processes have not been shown because they are known per se and can easily be carried out following the scanning and posting line search and the comparison of characteristic values. In this case only contact 595 would have to be kept open until the calculation and booking processes have been completed. In the context of the machine explained, of course, parallel to the writing on the account card 3 or after this in a manner known per se, the new stock value 70000 (line 5 16) is also recorded by hole writing or other markings in the line of the account card to be posted. The new line hole is punched in a corresponding manner.

Claims (2)

PATENT CLAIM: i. Booking machine, punch card machine or the like with a comparison device for comparing characteristics introduced into the machine, characterized in that simultaneously with the comparison process between the characteristics fed to the comparison device, the automatic transfer of the document (3) to the "sensing position" (Ab, f # ihlvorriChtUng2a) for the acceptance of arithmetical values with the mediation of a control unit, it (200-203, 205, 189, 195) takes place (energy storage 122). 2. Machine according to claim i, characterized denotes Ge, that prior to the effective date of the sensing device (211) of the document (3) by a target with its holes. (io8) interacting adjustment device (io7, 105, 104, ioi, 11: 2) is automatically brought into the exact sensing position for the duration of the sensing of the characteristic features. 3. Machine according to claim 2, characterized in that in the case of several sensing processes taking place in different positions of the document, in which a movable document carrier (i2o) moves the document (3) from the sensing position for the purpose of decreasing conceptual values (account number) into the new sensing position for the purpose of acceptance arithmetic values (old inventory), the document carrier (i: 2o) is equipped with a direction (card sticking device 151, i5o, 146, 43, 139) that is used to hold the document on the document carrier and after Alignment of the document by the adjusting device (107, 105, 10-1, 101, 112) becomes effective. 4. Machine according to claim i, characterized in that a feature (8811) which is contained in the account card (3) and which denotes the cancellation of the same or only one side of the card, at the same time as the sensing device (9, 10,: 2, 2a, : 24-28) for the inclusion of conceptual values is determined by an additional means (2, a) assigned to them. 5. Machine according to Claims 1, 3 and 4, characterized in that, depending on the negative result of the sensing of the MerkmaJes characterizing the cancellation (88a), switching elements (89, go) remain in their rest position, whereby in connection with the in coupled switching elements (1 14, 11 5) of the adjustment device take effect. the card clamping device (151, 150, 146, 143, 139) and the other control means for the automatic continuation of the operation is given. 6. Machine according to claims i to 5, characterized in that in the case of the same booking process unfolding positive mode of action of the adjusting device (107, 105, io4, ioi, 112) and the control means (211) for determining cancellation features (88a) od. Like. The clamping device (1 5 1, 1 5o, 146, 143, 139) for the account card (3) remains in its inoperative position and the continuation of the further operation does not take place. 7. Machine. according to claims i and 3 to 5, characterized in that the card clamping device (151, i5o, 146, 143, 139) is fully effective (contact 5oo) before the return of the sensors (: 2a) for the removal of the conceptual points of interest in the starting position . 8. Machine according to claims i to 3 and 5 to 7, characterized in that a selection of the respective. Sensing and posting lines of the account card (3) and the like in two intervals mediating control unit (200 to 203, 205, 189, 195) before the alignment holes (io8) of the account card are released by the adjustment device and the return of the sensor (2 ") towards the starting position, but always after the conceptual value (account number) has been taken from the account card (relay i8o, 188, 189, Stronistoßsender 195, 197). g. Machine according to claims 1, 3 to 6 and 8, thereby in that the in dependence on the drive (Stromsto # ßsender 197, 195, relay igo, 188) effective control unit (: 2oo to 203, 205, IS9, 195) the gradual progressive selection of Abfühlzeile (last-posted row) of Account card is conveyed by scanning cancellation features (511 to 516) of lines booked.Io. Machine according to claims 1 to 5, 7 to 9, characterized in that in the one with the scanning of the last possible line cancellation feature of the account card (3) over matching time the control means (9, 10, 7: 2) to the sensing unit (2, 2a, 24 to 28) for the purpose of receiving and storing the old inventory or the like from the control unit (200 to 203, 189, 195, '2205) to be selected. i i. Machine according to claims 1, 3 to 5, 8 to 10, characterized in that the relay (18o, 188) causing the start of the control unit (2oo to 203, 205, 189, 195, 205) in both intervals during the possible selection of the most recently posted to line in dependence of the same control unit (181 parts, 195) conveys same stepwise incrementing. 12. Machine according to claims 1, 3 to 5, 7, 8, 11, characterized in that when the document carrier (i 2o) is in the value sensing position, a synchronous with the control members (9, io, 72) for the sensing and storage unit ( : 2, 2a, 24 to 28) moving switching means (ioo, io2) shortly before reaching its detent position causes the start-up (103, relay i8o, 188) of the control unit (2oo to 203, 205, 189, 195) for the second movement interval. 13. Machine according to claims 1, 3 to 5, 8, 11, 12, characterized in that the control, Verk (2oo to 203, 205, 189, 195) in the course of its second movement interval a constant in each booking case gradually Vo # backward movement of the card carrier (120), which is a multiple of a line height, e.g. B. five steps, causes, whereby the line to be posted (inclusion of perforated and reading text) reaches the posting means. 14. Machine according to claims 1, 3 to 5, 8, 11 to 13, characterized in that the control unit (200 to 203, 205, 189, 195) after setting the line to be booked has a locking position »21« or » 41 «, which is retained until the mechanical introduction of a new account-1, delicate (3). 1 5. Machine according to claims 1, 8, 11 to 1,4, characterized in that the comparison process between the sensed, stored conceptual value (account number) and its embodiment in the setting mechanism of the machine (325 to 329 ...) takes place in parallel to the timing of the scanning line selection by decimal places or by just a single power surge and is terminated at least when the last possible line booked on a card page is in the scanning position. 16. Machine according to claims 1, 8, 11 to j5, characterized in that a relay (373, 374, 375) is controlled as a function of the comparison result, which in the case of a negative comparison output when the control unit returns (6oo or 6oi) in its Ra, stlage causes the automatic ejection of the account card (3) by returning the card carrier (120) to the basic position. 17. Machine according to claims 1, 3, 5, 6, 7, characterized in that the card carrier (12o) shortly before reaching its basic position, the card clamping device (1,43, 141, 139) via a link (145 ) the same away by a preferably stationary-es control means (153, 152), which is locked when the card carrier is in the booking position, ineffective. 18. Machine according to claims 1, 3, 5, 6, 7 and 17, characterized in that the card carrier (i2o, 158) entering its normal position cancels the locking (155, 154) of the control means (153, 152) . i g. Machine according to Claims 1 and 1 5, characterized in that the writing units (428, 550) are switched off at the same time as the start of the comparison process (closure of the contacts 386, 186). 20. Machine according to claims 1, 8 and ig, characterized in that if the comparison output is negative, the control unit (200 to 203, 205, 376) preferably serving for line selection after taking its detent position, the return (relay 373 to 375, 376) of the in Faulty position caused comparison means (345, 349, 350) to move to the starting position. 21. Machine according to claims i and 2o, characterized in that, in particular in the case of a negative comparison output, the fault location is read from a viewing hole (561, 56o). 22. Machine according to claims 1, 8, 15 and 16, characterized in that in the case of a positive comparison output, a means storing the comparison result (relays 379 to 381, 2o6) becomes effective before the line to be posted to is selected. 23. Machine according to claims 1, 8, 15 and 22, characterized in that with a positive comparison output after the triggering of the means storing the result (379 to 381, 205) the feedback of the comparison means (345, 349, 350) in the initial situation is initiated by them themselves. : 24. Machine according to claims 1, 8, 15, and strength, characterized in that independent of the type of Ve # rgleichsausganges simultaneously with the triggering of the last lines search switching step, the write stations (428, 550) is turned on again to the drive (384, 385) will. 25. Machine according to claims 1, 8, 15, Ig, 22 to 24, characterized in that in the case of a positive comparison output simultaneously with the triggering of the last line setting step through the intermediary of the means (379-381,: 2o6) storing the comparison result The account number is written down by the journal (428) triggered (381,: 207,405,4o6). 26. Machine according to claims 1, 9 and 25, characterized in that depending on the end position of the control means (405, 4o6) for the writing of the account number with simultaneous disconnection (583, 584) of the same from the drive, the writing of the sensed and stored arithmetical values and the like, e.g. B. old inventory, on journal and possibly also on the account card by the writing works (4: 28,55o) is initiated. 27. Machine according to claims 1, 9, 16, 20,25 and 26, characterized in that after the writing of the sensed. arithmetical value and the like and preferably also after an organically subsequent, additionally manually triggered posting (writing, punching) of values that were automatically introduced and determined in a calculation process connected with this posting, the return (383) of the document carriers ( 1:20, 434) is introduced into the basic position.