DE332360C - Stop device for statistical machines working with punched cards - Google Patents

Description

Stop device for statistical working with punched cards Machinery. For statistical purposes machines are used that are perforated Cards work. 1) The holes in the cards provide certain information depending on their location and the cards are sorted in the machines according to these all-gifts, or the various details are added after sorting.

When running these machines, too, it is often necessary to change the gear of the To interrupt the machine automatically when a certain number of cards of the same type, d. H. Cards of a certain group that machines have passed through in the brain. Uin to achieve this. So far either the cards were only in such groups inserted into the machine, or several card groups were inserted at the same time I put the machine down, but the individual groups among themselves by so-called Separate stop cards of special shape and punching. The invention aims to make these stop cards superfluous and also the need to insert them only to avoid individual card groups. . Especially the insertion of the stop cards, (usually read with. the hand was done was a tedious job and also a considerable one Source of error, since omitting or incorrectly inserting a stop card is a matter of course had to falsify the result of the previous and the next group. Also was inserting the stop card by hand in those cases where you can use it had to do with many small groups of cards; suitable to the profitability of the machine, especially the adder to depress since the insertion of the stop cards often took several times longer than the actual adding work.

All of these inconveniences are alleviated by the device according to the invention avoided by automatically stopping the adding machine without a stop card when the first card of a new group is about to be fed to the adding machine to become.

The following example serves as an illustration: It is a matter of the to determine the weekly wage bill of workers. The cards are initially in a sorting machine sorted in running order according to the numbers of the workers, in such a way that after the cards have been removed from the sorting machine first place the cards of worker no. z, in second place those of the worker No. 2 and so on. The cards can be placed in the adding machine. In this is now the automatic stop which scans the cards before they pass the adder fed m-earth when the last Karje (ler group i has gone through and the first card of group 2_ passes the stop device by changing the perforation set in action so that it triggers a switching element, \; elclies - (lie whole Switches off the machine from the power source or interrupts the current of the aniriebinotors. Since the stop device becomes effective when there is a change in the perforation she also ran the machine, stopping if a faulty hard was noticeable power.

The task at hand was solved in the following different ways solved: i a. One going through the hole of the first card in each group The pin initiates a switching movement that cannot be continued as long as hard of the same group go through the machine with the same perforation, but it is completed as soon as a card with a different perforation is in the relevant position, d. H. the first card in a new group that has entered the stop device.

2a. A movable scissor-shaped system of grippers is attached to the pin passed through a hole or its extension from two sides Introduced and comes with the periodically "repeating process when closing of the scissor blades in the same end position as the perforation on the same Place occurs. If the next card shows a different position of the hole relevant column on, so will. the gripper system has a different final position than before take, and this change is used in a switching device for Interruption of: to put the driving circuit in action.

3a. It is a similar system like full scissor-shaped grippers at: 2a present, which closes as long as only a pin through the kicked hard. The penetrated pin lifts an extension, and this becomes locked in the high position. The occurrence of a differently located perforation in the relevant one The card column now results in the passage of a second pin, the second Extension lifts. The gripper system, which is moved periodically, tries can then close around the penetrated pins or their extensions but, since two pins have penetrated, they no longer close and liiinilit a new end or middle position. The resulting new position of the gripper system triggers a switch-off device similar to ia and 2a.

ib, 2b, 3b. If the hard ones are scanned by electrical contacts with continuous movement instead of pins, then the three solutions mentioned can be applied accordingly. So there are three electrical solutions in addition to the three mechanical solutions mentioned above.

The drawing shows the different 1_solutions in 7: 3usfübrungsformen and i7 figures are shown. To ia. Mechanical solution.

. A map is shown in FIG. as it can be found useful for the weekly wage compilation of the workers. In the 1-, ullrik »Arbeiter-Ntimnierx is. the Lochulig ooi entered. In Fig. 3, i is the pile of cards lying in an i container. -The cards are individually pulled out by a gripper of known construction under the pile of cards i and then fed further into the stopping device by rollers j and 3 until the hardness. be prevented by a stop 4 from their further movement. While the cartels are in this rest position, a frame 5 equipped with numerous spring-loaded pins 18 is moved from below upwards. The frame 3 slides in, len guides 6 (Figure 2) of the base; and because the rollers 8 attached to it all run in curved grooves 9 of the disks io, which sit on the main shaft i2 driven by a gear wheel i T, an up and down movement. The frame 5 has as many spring-loaded pins 18 in corresponding holes in a guide plate 13 as numbers are pre-printed on the cards. If the frame equipped with the spring-loaded pins is moved upwards while a hard one is in the stop @ ": rriclitting, pins pass through wherever the card is perforated. When the frame goes down, these pins go through Above the column of the card in which the change in the perforations is to be controlled, i.e. in the specified case above the heading »Arbeiter-Nunliner # :, the device equipped with the switching element is attached. Corresponding to the three rows of numbers in the Under the heading "Worker Number" there are three rows of ten pins 14. These pins are normally pressed down by springs so that their blind people 15 come to rest on a plate 16. All their upper ends are pins 1 , 4 designed in the shape of a fork and have a rotatable locking lever 17 in the fork. If a pin 18 now steps up through the column »Arbeiter-Ntllimerx, it lifts the one above i hm lying pin 14 all. This upward movement is also reversed. T-shaped rod iy moved up by the same amount. On the rod ig press the side springs 20 and press the lower hopf of the rod against the upper detached arm of the locking lever 17 that this seeks to rotate clockwise in Fig. Z. This rotation can only take place when the lever 17 has been lifted out of the upper guide plate 17a with its lower Arin. Then the lower arm of the lever 17 lies over the plate 17a and prevents the rail 19 and the raised pin 14 from falling back. -earth. If the next card has a hole in the same place as the previous one, then the same pin 18 as before will pass through the card hole at the next stroke rles frame 5, but without loving the previously raised pin 14 and the rod i9, as these . are already in the highest position. The switching elements of the stop device are not yet reached by the rod in this position and therefore remain at rest as long as the same perforation is present in the card section to be examined. If there is now a change in the perforation, cl. 1i. When the last card of worker i has passed through the machine and the first card of "worker 2" enters the device, the pen located next to the previously moved pen 18 passes through it and loves a second pen 14 <in . but now, although the rod 19 was already lifted from the first card of the previous group, the rail 19 is switched upwards, for the following reason: When it was first moved, the rail 19 was under the influence of the spring 2o placed at an angle while rotating the locking lever 17. The consequence of this is that the rail 19 has now come to lie above the higher step of the upper arms of the locking lever 17 of all nine pins 14 lying in the same row. The rail i9 is so that it is hit and switched upwards when a second pin 14 with its locking lever 17 is lifted from the same row of pins. When the rail i9 is switched on, a block 21 placed on its upper end strikes the lower part of an electrical closing contact 22 and establishes the conclusion of a circuit. The block .2i can be moved in order to allow the effect of the individual elements of the stop device to be limited as desired.

In Fig. Q. is the circuit used to disengage the machine outlined. 23 is the power source, 2q. the drive motor for the machine, 25 a automatic Aiissch. age. As soon as one of the contacts 22 through the stop device is closed, the magnet 26 of the switch 25 receives power and sets the Off switch in action. This interrupts the circuit of the 1lotors 24 and brings consequently this and the machine to a standstill.

If a punch card is scanned in the stop device, it will conveyed further by the rollers 3 and the rollers 27, namely as soon as during lowering Des. Pin frame 5 of the attached stop bracket 4. pulled so far down has been that he releases the card. The rollers 3 driven by the gear train 28 are driven, rotate continuously, but drag ineffectively on the map, as long as this is held by the stop 4.

In order to return the device to the starting position after the machine has been switched off, a handle 29 is provided. A lattice-like rod 32 attached to it rotates the folded locking lever 17 back into its vertical position when the handle is pushed inwards, so that all parts still raised and held by those parts are withdrawn into their initial position by the springs 3o. A spring 31 moves the lattice-shaped rod with the handle 29 outwards again, so that all parts of the machine are ready for a new operation.

The frame with the switching elements can of course transversely to The direction of advance of the cards can be arranged to be displaceable, so that each card heading can optionally be connected to the stop device. To i b. Electric solution. In FIG. 5, the hard ones are individually removed from the stack of cards i by means of a gripper 33 tapped and with the mediation of pairs of rollers 2 and 27 in the adding machine promoted. During this movement, the card passes an electric at rest Sliding contact 3.4 and an associated fixed contact piece 35. This is depending on the location of the card hole. various times a stream closed. There are as many brushes as there are vertical rows of numbers in the one to be examined Map column. When editing the map shown in Fig. I, in which a change the .perforation in the column "Worker = Numiner" is to operate the machine thus three sliding contacts 34 with the associated contacts 35 are required.

A contact brush 36, which sits in a rotatable arm 37 which is fastened on a shaft 38, grinds synchronously with the movement of the card. The contact brush 36 completes a circular movement every time a card is passed. It loops over ten insulated contacts 39; in such a way that the coating of these contact pieces takes place at exactly the same time and with the same cycle as the progression of the brush 34 in the vertical rows of numbers on the cards: In the sequence of contacts 39 is an insulating piece .Io switched on, over the the brush 36 grinds while there is no card under the brush 34. There are just as many rings of contact cords 39 ttii (1 @sc> lationsstiicken 40 available as brushes 34 ..

From each of the contact pieces 39, an electrical part 41 leads to a pole of electromagnet 4.2 (FIG. 6). The other poles of the electromagnets are connected to the power source 23 o by a single leg 43 via an automatic cut-off switch 2. A relay R has the task of producing a longer strunisch circuit than is possible through the contact housing on the loocli. The magnets 42 are in a frame 4.4. built-in (Fig. 7, 8 ) . Your armature 45 are designed as g pawls and each hold a rod 14 back, which exactly the rods 1..1. of the first embodiment, iind are striving to make an upward movement under the influence of 1 ederil 46. (To save space, two magnets are arranged one on top of the other and the upper ones are provided with pressure pawls, the lower ones with pull pawls. However, only one magnet acts on each rod 14.) The rods 14 are forked at their upper arm and each carry a rotatable ' Lock lever 17, exactly as shown in Figs. Here, too, there are T-shaped rods 17 above the lower steps of the locking lever 17, which are lifted by the locking lever when it moves upwards and, as a result of the rotation of the locking lever under the action of springs, stop in the raised position in sloping days If a second locking lever is lifted in the same row, the higher level of which is directly below this due to the inclined position of the rod i9, an additional switching movement of the rod i9 and a closure of the contact 22 take place. As the circuit diagram in FIG. 6 shows, this results in an opening of the automatic switch 25, since when the contact 22 closes, the magnet 26 receives current. So the 1Totor 24, S S, which drives the adding machine and the stop device, stops. In some cases, the same processes take place here as in the mechanical embodiment.

As long as cards with the same group number or the same group hole, i.e. in this fold with the same worker number, pass the machine, the same magnet 42 is excited. Since after the first attraction of the armature or the pawl 45, the rod 14 was moved upwards and locked in the raised position by the locking lever 17, the following contact closures on the same card hole, which cause the activation of the same magnet, will not move the raised i Pole. 14 or the T-shaped bar i9. Only when a change in the perforation occurs and another contact piece 39 and another magnet 42 receive current, another rod 14 in the same row is moved upwards and causes the additional upward movement of rod i9 described above. After changing the perforation caused the circuit to be interrupted and the machine stopped, all parts are returned to their starting positions by turning an Ireland handle .47. This is done in the following way: the handle 47 lifts a rod 48 when it is rotated with the aid of a toothing. This has two lugs 49, 50, of which the gases 49 initially pulls a knight-shaped frame 51 outwards when moving upwards and thereby vertically adjusts all the obliquely positioned locking elements 17. During the further upward movement of the rod 48, it then pulls a rod 52 outward. This in turn has lugs 53, and the latter lead the rod 14 back into its rest position, so the pawls 45 ate into place again. Then the machine is ready for a new operation.

Uni work any card heading on the stop device to be able to leave, one brings either for each row of digits in each rubric Pair of contacts 34, 35 and connects the lines 54, 55 (Fig. 5, 6 r always with the contacts of the desired column, or you make the contacts, similar to in the first embodiment the rods 14 etc., transverse to the card advance direction adjustable. To 2a: mechanical solution. This embodiment (Fig. 9, io) has the same substructure as the one described under i a, so also one on and falling pin boxes with cam drive. The cards are here too from a stack individually fed into the device, there for a specific one Time recorded and then according to the adding or other indicated on the right Machine continued.

The structure above the pen box, on the other hand, has been completely changed.

The upper part of the stop device consists of a frame 56. A loose frame 57 can be displaced on this frame and is arranged to be adjustable across each card section. The frame 57 is on the two. Sides closed by plates 58. A shaft 59 is inserted through holes in the middle of these plates i. The frame 57 is closed at the bottom by means of circular arc-shaped strips 6o. Radially directed stop pins 61 are inserted through this, at the lower end of which rods 62 are articulated which, with the interposition of pins 63, are raised by one of the spring-loaded pins 18 of the frame 5 going up and down. as soon as a hole appears in the corresponding vertical rows of the cards. Three rows of ten pins each are shown, so that the change in the perforations can be checked in the three-digit rubric. On the shaft 59 sit three scissor systems, each such system consists of two similar scissor blades 64 .. At the upper end of the scissor blades two spreader bars 65 are arranged for each scissors, which are connected at their upper end by a hinge , on which a small roller 66 is attached. A two-armed lever, the arms of which are denoted by 67 and 68, is attached between the two scissor blades 64. On the hub of the Hel), there is a shoulder 69. When the scissors are closed, pins 70 come into contact with this, one of which is attached to one and the other to the other blade. A spring 71 tends to close the scissors, unless an arcuate slider 72 prevents this. This slider is guided in the frame 57 and receives an up and down movement from a cam disk 73 mounted on the main shaft 12. An angle lever 7: 1, which is mounted on a pin 75 and carries a roller 76 which runs in a curved groove in the disk 73, is used to transfer this movement. A rod 77 is articulated to the angle lever and transmits the movements of the angle lever to two two-armed levers 78. These carry a horizontal rod 79. The slider 72 hangs on a handlebar that can be moved on the rod 79. Next to the pawl 82 is such a contact 84 that it is interrupted by the pawl as soon as it is rotated by the teeth of the dental arch 81. The arm 67 carries a curved piece 85 with the numbers o to 9 on the outside, one of which is always visible through a window 86. This indicates the position of the bow section 85 or the scissors 6: 1 and thus the position of the effective card hole, ie the group number of the card. If cards with the same group numbers are allowed through the device, the same stops 61 are always raised. As soon as the stop 61 is in its highest position, the slider 72 is also raised, and the scissor system moves out of the spread position shown in broken lines under the action of the spring; i over to the closed position at a speed that corresponds to the movement of the slide 72. Since the scissors system is rotatable and carries the roller 66 at the upper end, the system can adjust itself to any position determined by the stops 61. If the same stop pin is lifted several times in a row, the scissors will assume the same end position again: The pins 7o of the two scissor parts rotate the lever 67, 68 into a certain position. It remains in this position for as long as How the occurrence of the same group numbers lasts The opening of the scissors after each work step is brought about by the fact that the slide 72 presses on the scissor system when there is a companionway.

As soon as hard a new group will pass the device other stops 61 raised .. each pair of scissors then closes around a new one Stop 61 and naturally assumes a different position. As a consequence, that one of the pins 70 the nose 69 to a corresponding one. Piece takes away, so the lever 67, 68 rotates. Such movement involves rotation of the ratchet 82 . And an opening of the contact 84 result. Since the contact is in the circuit of the automatic cut-out, the motor current is interrupted as soon as the lzzcherensvsteni assumes a different position or a change in the perforation occurs. To 2b: Electric solution. Fig. I i shows schematically the general arrangement. It will The cards are tapped individually from your deck of cards and from pairs of rollers 2, 27 and 87 continued. The hard ones slide between a contact brush 34 and, a counter = contact35 through it, and it becomes according to the distance of the hole from the edge of the card. at different times a contact is made. The establishment also has a contact 88, which is closed by a: \ oeken = disk and is opened, namely the contact is closed as soon as the contact brush 34. comes to rest on the edge of an incoming card. It is also a Relay 89 present; that extends the power supply through the card hole until the Card has passed through the contacts 3q., 35, at what time the Contact 88 opens so that the relay set releases. In one of the A magnet 9o is switched on in both circuits, a magnet 91 in the other. In the same line as the magnet 9i is a magnetic switch 92, the interrupts the circuit of the magnet 9o as soon as current flows through the magnet 91.

The two magnets 9o and 91 are fastened with supports 93 on a base plate 94 (FIGS. 12 to 14). The base plate 9.4 also carries two bearing blocks 95 and 96 for a shaft 97 which is surrounded by a hollow shaft 98. Through a system of bevel gears 99, loo, loi, of which the wheel ioo is the driving force, the inner shaft 97 is rotated to the right and the hollow shaft c) 8 is rotated to the left. A coupling ring io2 is seated on the inner shaft 97 so as to be non-rotatable but axially displaceable, and a coupling ring 103, likewise displaceable, on the outer shaft 98. Both coupling rings have locking teeth, but for opposite directions of rotation. In the middle of the shaft, a disk 104 with a shoulder I05 is fitted. This disc has ten teeth io6 compared to the approach io5. On both sides of the disk io4. disks 107, lab with pins i, o9, iio are attached, which interact with the projection 105 . Coil springs 111, 112 are each fastened at one end to a steel band 113, 114, which is wound around half the circumference of the hub of the disks 107, 108, and strive to keep the disks in their rest position, which means that the stops 115, 116 on the disk and fixed stops 117, 118 is determined. A pawl designed as an angle lever presses against the raw teeth, the rotation of which causes the contact 84 to be interrupted. The magnets 90 and 9i each have an armature 12o, izi, which is designed as a double-armed lever. The anchors are around pins 122 and 123 on the supports 12q. rotatable. One end of the armature lever is forked and engages in the grooves of the coupling rings red and 1o3. Springs 125 tend to pull the armature away from the magnets.

The entire shaft system is rotated synchronously with the card transport. As soon as the edge of a card has come under the brush 3 ¢, the contact 88 closes; and the magnet c) o receives electricity. Its armature 12o is attracted, and the coupling ring 103, which rotates at the same speed as the shaft 98, engages with its teeth in the toothing of the disc 1o8 and rotates the same until the current in the magnet 9o is interrupted and through the Train the spring 125 the decoupling takes place.

The current is interrupted as soon as the contact brush 34 hits a hole and thereby closes the current in the circuit of the magnet 91 and the magnetic switch 92. If the magnetic switch 92 now interrupts the circuit of the magnet 9o, the simultaneously excited -,% magnetic9i <len coupling ring io2 is engaged, which rotates in the opposite direction - as the coupling ring - 103, so that the disk 107 is continuously rotated and continues until contact 89 turns off the power. Then the other spring 125 uncouples the ring io2 and the washer 107. In order to ensure that the loops are uncoupled, the anchors i2o, 121 are still connected by a bracket 126. which is so dimensioned that when one anchor is tightened it pulls the other loose.

The circuit described therefore results in an alternating, opposite rotation of the disks 107 and lob states, to be precise by an amount which corresponds to the duration of the two current connections. The two discs with the pins iog and iio for the nose io5 limit a certain rest position at a certain position of the card hole, so that the disc 104 only experiences a rotation when changes in the perforation, i.e. also changes in the duration of the two Electricity shortfalls occur. As long as the two current connections have the same length as in the previous work steps, the pins io:, j and i io are only placed up to the nose io5. However, if the one current short circuit becomes longer, then one disk makes a greater rotation and the disk 104 is rotated by a corresponding amount. Each rotation of the disk results in a movement of the angle lever i i9 and an interruption of the contact 84. Since this contact is in the circuit of the circuit breaker, the motor is switched off and the device and the adding machine are stopped. The return of the disks 107 and 108 into the starting position is taken care of by the springs iii and 1 i2.

This solution also allows you to edit any card category you want. It is only necessary that the brushes 34 be placed on the appropriate card headings. If a three-digit card heading is to be processed, the entire device must be available in triplicate. Furthermore, as in the previous embodiment under 2g-, with the disk ioq. Connect a display segment that shows the group number of the cards. In a similar way, a correspondingly designed display device could also be attached to the two embodiments described first. To 3a: - Mechanical solution. The arrangement is the same with respect to all essential structural parts as in FIGS. 9 and 10. There are also stops 61 here (FIG. 15), which are guided in curved pieces 6o and raised @ x-ground as soon as a pin in the pen box passes through a hole in the card. The main difference of this construction, however, is that the stops 61 do not make any up and down movements in time with the work steps, but lock themselves in the highest position by means of a pawl 126 'which is pressed sideways by a spring. Here, too, there is a scissor system with the scissor blades 64 and the spreader bars 65, which closes around the raised stop, exactly as in the case of I # ig. 9 and io. A slide 72 pushes the scissors apart again with each operation. -If there is now a change in the perforation, a second stop is raised in addition to the raised stop. The consequence of this is that the scissors no longer close, but remain partially open. The difference between the central position of the scissors in the closed and open position is used to bring the machine to a stop. ' This is effected as follows: One of the scissor blades 64 has a conductive metallic, but insulated, screwed coating 127 and then a short insulating piece 128. The other scissor blade has a sliding contact 129. The insulating piece 128 and the metal strip 127 are dimensioned so that when the scissors are closed the sliding contact 129 lies on your insulating piece, but on the metal strip when the scissors are open. The latter and the contact 129 are connected to an electrical line 130 . In this line there is also a pressure contact 131 which is closed by the sliding piece 72 in its highest position, ie when the scissors have been set in their end position. If the scissors are now closed, a current cannot flow because the sliding contact 129 is on the insulating piece 128. If a second stop 61 is raised, the scissors cannot close. The sliding contact 129 is therefore on the conductive coating 127, and a current can flow as soon as the contact 131 is closed at the end of the upward movement of the slide 72. This current connection is used in the manner described to operate an automatic off switch. If several scissor systems are present next to one another, the electrical lines are connected in parallel and only one switch 131 is placed in the common supply or discharge line. Uni to be able to return the pawls 126 of the stops (i, a lattice-shaped frame 142 is provided over the curved piece 6o, which can be pushed to the right by means of a handle 143. As soon as the pawls 1.20 have returned, the stops 61 and rods 62 fall as a result of the their own weight back to their lowest position.

RE 31): Electrical solutions. For the most part, these solutions represent Combinations of the solutions according to FIGS. 5, 6, 7, 8 and 15. The stops for (The scissor systems are not lifted here (Fig. 16, j7) by spring-loaded pins, but, as in Fig.; and 8, triggered by magnets. Switching on and off of the circuit for the automatic off switch is done in the same way in FIG Way as in Fig. 15.

In contrast, in FIG. 17 the difference between the closed and the open relative position of the scissor blades to one another is used in a mechanical manner to cut off the driving force. On one of the scissor blades 64, an angle lever 133 is rotatably arranged on a pin 132. which is pressed by a spring 133 ' against the other scissor blade, which is provided with a cam 135. When the scissors are closed, the angle lever has the position shown in FIG. 17; when the scissors are open, it slides off the cam 135 , and the spring 133 ' pulls it a little to the right. This rotation of the angle lever 133 is transmitted by a movable cable 134, as it is used in photographic apparatus for operating the lens shutter. The hose of the cable is attached to one scissor blade at 134 ', while the steel wire of the cable is attached to the angle lever 133. Pulling this wire results in a rotation of the double-armed lever 136, which has its pivot point at 137. At its lower end is a 'rod. Chen 138 hinged, which is pushed to the left as soon as the double lever 136 rotates to the right. As a result of this displacement, the rod 138 is finite = head 139 in the path of the slider 72 and 'transfers the last part of its movement to a vertical rod 140. The rod is hinged to a Do, ppelliebel 141, to the shut-off elements of' known construction can be connected.

The shut-off movement generated in the manner described is absolutely reliable and powerful because it is derived from the slide 72, which has a powerful drive. The scissors system only serves to introduce a coupling element in the direction of movement of a greater force.

Claims (12)

PATENT CLAIMS: i. Stop device for statistical machines working with perforated cards, characterized in that a switching element (io, G4) is set in a certain position by a certain perforation of a card, from which it changes to a second likewise certain position when the perforation is changed which latter layer change the drive of the machine is switched off, so that it stops when - a new card group begins bz «-. the supply of cards is exhausted. 2. Stop device according to claim i, characterized in that the switching element (i9) has a transverse rail, is vertically and horizontally adjustable and is under lateral spring pressure (2o), while under the rail stepped locking lever (17) in vertically displaceable pins ( 14) are rotatably mounted and guided in a plate (17a) in such a way that the locking levers (17), on the lower level of which the rail (i9) rests with lateral pressure, can only tip over under this pressure when they are out of the plate (17a ) are lifted out, the rail of the link (i9) then shifts laterally and lays over the top step of the non-raised lever (i7) so that the switching movement of the link (19) is completed when a new lever (17) is lifted, this closes a switch (22) for switching off the drive motor. 3, device according to claim i and 2, -characterized in that for lifting the pins (14) springs (46) are used, the act on the pins (i4) after they have been released by magnets (42) and pawls (45) - have been, the control of the magnets in a known manner by contacts (34, 35) and a collector (39, 40) as well as a circumferential sliding contact (3h) takes place at the collector as soon as the contacts (34, 35) pass through a card hole can close. 4. Apparatus according to claim i, characterized in that above a pen box a rotatable scissors (64) is mounted, which during the Passage of a card periodically closes, with its legs on a raised Stop (61) come to rest, so that the freely rotating scissors in a certain, adjusts the position corresponding to the card hole and when changing the card hole a assumes a new position, with a toothed segment (81) connected to the scissors to switch off of the drive causes. 5. Apparatus according to claim 1 and 4, characterized in that that an up and down carriage (72) is mounted above the scissors (64), the spreader bars with the help of a roller (66) which can be displaced against the slide (65) and a spring (7 i) the scissors periodically opens and closes. 6. Device according to claim 1, 4 and 5, characterized in that the stops (61) in their Can be locked high position, so that when changing the perforation the scissors on the : Sets the middle between two stops (61), 7. Device according to claim i and 6, characterized in that the lifting of the stops (61) instead of by a The pin box is made by magnets and springs, as claimed in claim 3. B. contraption according to claims 1 and 6, characterized in that contacts with the scissor blades (i27, 129) and an insulating piece (i28) are connected, the arrangement being made in this way is that the contact (i29) rests on the insulating piece (i28) when the scissors are closed, while at the same time a contact (i31) is closed by the slider (72) when If the sliding piece is in its uppermost position, then only a current can be switched off of the drive motor can flow through the lines (130) when the scissors does not close when the slider (72) is in the uppermost position. 9. 1'oi direction to Claims i and 6, characterized in that the scissors are operated with the aid of an angle lever (133), a cam (135) and a flexible connection (13. I) an intermediate piece (138) slides over the slider (72) so that this slides onto a switch-off linkage (i4o, 14) can work: io. Device according to claim i, characterized in that that an electrical contact (88) is closed when the card is between two Contacts (34,35) is inserted, and the circuit of an electromagnet (9o) which closes a disc (io8) with a constantly rotating coupling ring (1o3) connects, while the contacts (34, 35), when they meet a card hole, a second Close the circuit of a 'magnet (cg i), which is connected to a second disc (io7) a clutch that is constantly opposite to the ring (103): ring (1o2) connects and at the same time releases the clutch of the disc (io8), di; then by a Leather (i r2) is returned to the rest days, whereupon the contact (88) closes the circuit of the magnet (9i) opens as soon as the card leaves the contacts (34, 33), and one Spring (12.5) also uncouples the washer (1o7). so that the disks (io7, io8) of make rotations depending on the position of the card hole, using pins (io9, i 1o) set a washer (1o4), which with the help of a toothing (i) and a Wüikelliebels (r i9) a »switch-off contact (_84) opens when it is at Change of the card hole changes its position. ii. Device according to claim 1 bi> io, characterized in that with the scissors (64) or the disc (104) a segment of digits (8j) is connected, which the angular position of the scissors (64) or the disc (1o4) and thus shows the location of the card hole or the grief of the group of cards. 12th Device according to claims i to i i, characterized in that the device can be adjusted to individual card columns at right angles to the direction of advance of the cards.