DE1474196A1 - Card feed device for punch cards or the like. - Google Patents

Description

Card feeder device for punch cards or the like The invention relates to a card delivery device for hole cards th or the like, with an xarten reservoir for Holds a stack of cards in a stackable container and with a device for feeding individual cards from the supply stack to the stacking container. The present invention has for its object to facilitate the trouble-free entry of successive cards in the stack of container. This is achieved in that the stacking container has an 8-sis plate for holding a stack of cards, as well as a flexible stop which stops the front edge of each garden and locks the movement of the same, with a staple ra h rea, xeleher at the entrance to the ptaPel- container is located and has a soft plate which in an angular position opposite the biegeanea Ansadlag is located; where this and the plate from the Hasiapiat to diverge away, and where the smallest @atrernuag swisahen the stop and the plate is smaller than the ixe -der Card and each card d «8tspelbehßlter-rdtansrsi- aäeader Kraft is approached = around a bend in the map achieve if their front against the pliable Kernte = arrival saälag meets and also a Able @ n NS of the flexible , sohlf so that the distant between the distracted flexible Anaohlag and the plate of the stacking rib grgs- aer is than the Inge der_aeXaarte, the plate des Stapelraäm m s the rear edge of each deflected Card captured in order to remove the binary edge from the base plate away to drtiakaa and a rarity between the base plate and the rear edges darr taa held the base plate To create cards that are at least sufficiently large to the entry of the tol. at the bottom of the stacking container $ ugefthr- te1 cards- allowed. -. On the basis of the figure = the Brtinduog for example gets closer explained. 20 shows - Figure a front M uioht of the ertinä @ aog @, geuäanen device tar g , le elahe In a special notice n g mgeord- net, in what no it can be ver @ aäet, _ Figure 2. A sahenati eche 8cärägansiaht, in which individual - he lt en illustrated in Figure 1 erf'in d ungsge- Yor-richtnog are shown, FIG. 3 a Sobaltsohesra of the control circuit of the in FIG and 2 illustrated errindusagageassaen device, Figure one @ rergrösae @ rte_ Sahrägansioht the forklift entry- I a et e i position. In 7ig m r 1 there is a complete arrangement for the removal of a Card from elnerc storage b oM ter, for feeding the same in a sahnellaui'e @ crde hole: or .. Ableseeinriohtung = for the feed the same through : the wick., or reading device for reading throw the same to this and to feed the same in a card storage container is shown. When in operation, the unt, first .. card . in e% .Kartea1stapel, in the card storage bin, which is generally designated by 1 is vatt. dew stack using an optionally actuatable nut device 2 vs «ä- pulled and a high-speed plant recycling device and * like a hole or readout unit, @ which generally starts with . denotes iet, exposed. Above the recycling facility 3 is a feed device generally designated 4 arranged, soft in the case of a card hole device only is used to gradually pass the card through the recovery to promote device 3, so that the desired punching process can be carried out. The feed device 4 is like this designed that they tilt the card at an angle of 10c ' pivots, and therefore the feed path or inihrung 6 lies at a 10o downward angle on the surface of the BaslPIhttb 7 to initially the Change the plane of movement of the map so that the map has the Feed device 4 in a generally horizontal plane leaves. If the recovery device has a card reader device, then the outfeed roller drives can applied to the card by the reader calling at a fixed continuous rate. A r'otozelle, generally designated 8, is along one Feed path 6 immediately in the direction of movement after, Base plate ? arranged to scan when a card was removed by the removal device 2 and thereby enters the feed path 6 . The photocell 8 forms part of the integrated control system for the machine and is subsequently related to this system . When the Vesvertungsvorrichtung 3 is a map hole device, a Schnellauswurfeiarichtung is provided which is generally designated 9 and, when the pulling out direction of a card from the hole device or the Ablesungsein- 3 desirable is actuated and the card loading strives according to Figure 1 , pulling it out to the left at very high speed. After being ejected from the hole or drainage device 3 , the card enters a feed track 10 which is formed by a series of rollers and guide members as generally shown. The first pair of rollers along the Zuftlhrbahn 10, which is generally indicated at 11, exerts an auxiliary function by one of the rollers is mounted pivotably to DurchfUhrnng a movement away from the Zuführbahn.10, namely from nachfolgend'erläuterten reasons. The feeding path 10 further includes a stacking means 12, to which anreibt the cards along the valve 10 with sufficient momentum to a spring-loaded stack frame 13 freisumachen.und to form a card stack in a Xartenstapelbehälter which is generally designated by the fourteenth A second photocell, generally designated as 1s is, is provided on the forklift entry opening 16, the I. between the stacking frame 13 and a large part of a $ tapler base plate 17 is formed in order to be inserted into the otapelbe # häiter 14 from the feed path 10 entering = types to feel. The geite or "Aus" rotoselie 1.5 triggers in verse bond rides the first or 8 bigaalo off, which start the flow of cards along the waiting lane finally the combined entnaboe, feed, perforation or reading device as well as the supply and tapelbaänen (is 6 # 3 »10 and $ 1) controls. A setting device for the ICartealätsge, which all- is commonly referred to in Figure 1 with 20, results for the Operator a quick and easy- to- use tool direction through which he quickly affl gardening equipment for Afssaang an lafl or convert short cards ka =. like pwöasoht . lone . is Figure 2 is shown, the storage container 1 by iron fixed rail 21 and a movable rail »forms. soft at opposite ends of the hardness of a pile intervention. The! Gardens are shown in Figure 2 by the dashed In their initial position they tore into the storage container Device shown. The movable Schieue22 can either ixt the position for short garden, as shown, or in the position for long = species arranged rice, such as shown by dashed lines 22R by the support portion. 23 and the rail 22, which is made up of pieces , can be moved in the transverse direction along slide rails 24, 24a provided for this purpose. A handle 25 engages the carrier part 23 and can be easily grasped by the operator and a stop rod 26, which can be actuated by a pulling movement on the handle 25 ′ , sets the movable rail in the position for short or long cards by engaging in the openings 27 building. 28 correctly. An endless cable 29 is connected to the carrier part 23 , the other two mechanical work bed parts of the adjusting device 20 for the card length, which will now be explained, have to be operated. The first of these components is the outfeed roller pair 11, which, as mentioned, is arranged at the beginning of the feed path 10. The function of the roller pair 11 is to pick up the short cards when they are ejected by the ejector 9 and the same along the feed path to lead 10 to the stacking means 12 (rigur 1). This is necessary, since due to the short drive length of the short cards usually nevertheless same through the ejection device 9 can not be sufficiently given lepuls to the usual array to achieve roles. which the feed path 10. The drive roller 32 is continuously driven by the machine drive device Via a suitable belt 33 attached driven and the driven roller 34 is normally held out of engagement with the drive roller 32, so thatB the long cards from the & uswwfeinrichtuna 9 bump and read of the normal series of scrolls Buf ti hrbahn 10 without egg vein and can be seized. Ve = it is eruliascht to comparable machine with short hard turn, the rollers 32 and 34 are in the position for Machining short joints in Eiriff, taking them serve to quickly remove the tenderloin from the ejection device 9 and take it along the normal ßyföhrbaba 10 without delay and thus an afiichls Vir # to jam the tender at this critical point. In order to explain the mingling effect of these auxiliary roles, it is noted that the roller 34 on a full 33 and one Holding block 36 is stored, soft again = on a deviation stand enclosing leaf springs 37, 37a are telaSert, the are attached to your anchor block 38. Mine @ewserfe the roller 34 is driven by a rod 39 which can be moved to and fro achieved. one of which is fade attached to the bearing block 36. The rod 39 receives its movement from a Zasenter 40 md a plunger 40a, which is the other end of the rod 99- is verified. During operation, the eccentric 40 is controlled by the iba . Wear a full 41 and turned the corresponding disk 43. , wiche rotates in response to the movement of the cable 29 which runs around the disk 42 . The movement thus obtained of the plunger 40a and the rod 39 bends the! 'Veins 2 "y, 27s sufficient to provide a contact between the rollers 32 to produce 34 or cancel and thereby unmount driving relationship between the rolls 32 to produce 34th The last mechanically adjustable part of the machine according to the invention is a Bilfskartenanachlag 50 in the stack vessel 14, whose function is of a suitable stop for engagement with the front edge $ u education to and thereby stopping the short cards in position in the container fourteenth the Kartenanaohlag 50 is such that the impact of the map in both the stoppage causes and a bending of the card by a considerable degree of flexible flat material, such as spring steel or plastic, thereby allowing the rear edge of the card, the stacker entrance opening for an undisturbed admission to the following map releases, which is an important feature and later in 'a detailed explanation of the construction method and the operation of the stacking container 14 is explained . For now, it suffices to state that the Eillskartoüanachlag 50 is raised into an operating position for the Zuflihrung of short Hard by pivotal movement about the Schwenkachne 51 by an actuating device which comprises a Organ 52, which is in one piece with the stop 50 or. e to serve is attached. A disk 55 rotates in operation about honor Voile 56 the 'Orgsn 32 and the one-piece An . hit 50 at an angle of 90o depending on the Movement of the cable 29. When the adjuster 20 For the 1Csrten lies in the position! Ur long seeds is located, the stop 50 forms part of the bracket 17 -By covering the gap 57, so that the long garden can be stacked properly. In rigur 3, the control means is f "Vr the Vorrichtu n g to make it easier to display as a switch slip, inclined and consists of a start- circle, two basic error detection circles, which generally indicated at 60 and 61, the two photo lines 8 and 15 and associated circuits, one timed Vorachuba signal source 62 and an AND circuit 63 with four Eingen, which all in the illustrated Veiae with each other are connected. The arrow f represents the conveyor output of the Control system, which sends a command signal to Nutaaäme- device 2 is there, if the control system has indicated, because »a new card has been removed and thereby inserted into the advance öabn.6 is to be introduced for processing. The fact,.. that the AND circuit 63 has four inputs, soft with 649 65, 66 and 67 are marked, the ftoäaann immediately inclines, that the Steueraystes scan m "that four different 8dittungen are at the same time in the masohine selUit before a lhteblseisnal to the mind of a new garden on the Entrslmesinrichtung Z Seeeben is, that is, it measured example knows a binrris 3128 signal equilateral in each of the gangeleituagen 64-67 must exist before a binary ONE 8.94 » u ! only Betrtignpg - the Bataabreeinrichtuna, 2 generated ', is, The first arei of the four conditions, soft erttadungste @ eU , be overtaken sweet before a new card is entnoaren came, consist in that the basic machine cycle has started and has reached a point in time at which the An = is ready to accept a new card. The time control is such that the cards originally have a predetermined sequence Stand out from each other when they are in the type feeder 6 enter. So after starting through the Crete 599 wa.l- will be explained later, the. Line 64 a bin » a tINS- a 4P al utb in @h 8% 04 * sit vas Zeitgebirs e lus, which Mr den beaopderen durchutghrenden is set, digs -die geitpber % üello 62 periodically a binary = Ix8-8ig- asl, the AND circuit 63 via the line 63 and the the first two conditions are met. The second and third condition, which must be met, In order to benefit from the inventive tax code; serve for Ensuring effective and safe operation of the Naiohine is displayed by preventing a further extraction fron cards from the stack in timed lblge, front pinching or a possible jamming of garden along the gartenbahn. The circle 60 überv eight continuously the number of cards soft by the timer 62 along the working part of the card in feed were taken, that is, from the Vorratsbehältet 1 for stacking containers 14, and limited automatically this number to a desired number, soft in the present arrangement as three is chosen. This determines the maximum number of cards that can be used in a. Verklemnuag entangled and therefore can be damaged, limited. . In a further line of the circuit 61 is used, w around the @ @ ahrsait an entering into the stack container 14, cooked sasnseiggoen: If the transit time for any card in'olge.einer jamming ad Stapier or due to too slow Hevegung the card for ausgefranster or torn edges thereof or a disturbance in Stapelrabsen or the like is too long, an error is displayed. Only if each card correctly enters the stacking container 14 does the circle 61 therefore not indicate that the stacker is working properly and that the removal process should be continued . Thus, if there are two or fewer cards along the working part of the card path of the machine and the cards enter the stacker 14 within a prescribed time , the input lines 66 and 67 give a binary ONE: signal and the other and third conditions, which are necessary for initiation of a removal operation, via the AND-switch 63 are linked. To explain the mode of operation of the electrical circuit 60, the flow of types past the photocells 8 and 15, described in connection with a card S, cards T1, T2 and a stacked card S1, is concerned., as shown in FIG . Let us first assume that the system is started by a process. is,. Which is explained below, and the cards T1 . undeT2 processed in the usual way. When the Zuftihrungskarte S is removed from the container 1 and pulled out, unt vomits a strip part of the card S transversely to the gap of the light source 8a and the Potoselle Aryan 8 generated light beam for a certain period of time, whereby a sudden =. Licher waste and then an increase in the amplifier 70 fed "Llhrten energy bsw. of zugeftihrten stream is effected. As shown graphically in Figure 3, passes through the advantages more 70 a square full with a negative-going part, which the leading edge of the card is S, and a positive-going part, which represented the rear edge of the card a differentiator 71 generates a wave with a negative going peak and a positive-going peak as a function of front b $ w. trailing edge of the Rechteckrelle. through a diode 72 occurs only the positive going peak, thereby placed in the line 79 a positive pulse in Abhigkeit from the rear edge of the .IVtrte S, indicating that the card S is nurmehr arranged in the Vorochubbahn. 6 Similarly, generated in response to a card, such as the card T2, the h'otoselle 15, which receives light from a light source 15a, a 2echteckrelle, which is made by Ve r is amplified more strongly 73 and differentiated by differentiator 76 . A diode 77 passes only the positive going peak, whereby a positive pulse in response to the trailing edge of the map T2 is added into the line 78, indicating that this card T2 is now perfectly on the feed path 10th The lines 73 and 78 feed into a two-stage reversible sitive counter 80, the former being the pulse counting mm upward and the latter the pulse for counting down is a. The counter 80 has four states (0, 1, 2 and 9) and generates a binary ONE output signal on line 81 in response to the first three states and a binary. lhsll signal as a function of the fourth state, that is, as long as there are ' no more than two continuous cards T1, T2 in the system', a binary aZUS # 8 signal is generated, while A * d * if there are three or more cards, such as = types Tl, T2 and $, - in the dalaM ämsn becomes' in binary zero signal erseegt: Uemi the% rte TZ passes Fbtoselle 13 1m / daöusch indicates that it is no longer on the Zn- lt8trhaän is located, the counter counts down 80 and to keep viderno in a binary EWS state. This Yq rm . and to switch between states 2 and 3 can be displayed as a rectangular shape and with differing tion through the difforentistor 82 represents the negative. current peak switching to state 3 and the positive going tip the switch back to the State 2. The fliprTlop 83, which when started by switched a start circle to the binary, EWS state! are measured as indicated by arrow 84, the lichen two binary states! lull and Eias and will from one to the other depending on the named negative and positive peaks in bi- stable veto * , switched. The flip-flop creates under- normal conditions a square wave with a negative running part in depiction of the entry of a third : arte a row in the card path of the machine and one positive part depending on the exit the first card in the same row from the tartenbahn, if the. Masohine , is set in motion . As above line 66 is in binary EZUs # E "only existed if the photo lines 8 and: s indicate that the card track can accept a card, without giving a total of three to any one Time is exceeded. In Yall a 1Carteverkl along the way, further feeding is prevented and the number of clips damaged as a result is limited. *: The operation of the electrical circuit 61 is now being carried out. seeks by remembering that this circle is the . Passage time of cards entering the stacking bin: - checks to have either a forklift notification or an ®ögi. lent jamming as a result of pedaling too slowly , the cards . Examination is done by indicating the forklift beam through a single l3 entirely . Abtasteipribht "% LLI g. This namely the Potoaelle 159 carried out . To becomes nogi @ s .. mentions that the differentiator 76 is a full one with., e tne r . negative running tip, followed by a pos (itüi. '`:` .... ' - trending tip, what creates the passage of the vptderen bsw. posterior chew of the garte T i A indicates. Mockery . the lower part of the circle 61 is considered-, as-illustrated in 'Figure 3, then the. Pill through '; the tnvvrter 86 reversed, whereby the sequence of the tips ' is simply reversed, and therefore the positive momentum, welcbor nansehr represents the leading edge of the map TZ, given through the diode 87 to the line 88. A mono .: stable flip-flop or a monostable multivibrator 89 is actuated and generated by this positive pulse a binary EWS signal on line 90 for a predetermined period of time. which in accordance with the capacity C1 or C2, which has been selected before, as later ER 'explained, is variable. Correspondingly, an AND circuit 91 with three inputs is now partially set to allow a binary EWS signal to pass through only for a predetermined time. When considering the upper part of the circle 61, it is recalled that the diode 7 only passes the indicated positive peak , which represents that the rear edge of the card TZ has left the photocell 15 , thereby indicating that this card T2 is correctly inserted the stacking container 14 has entered . Therefore , the line 95, which is branched off from the line? 8, which feeds the old 60, receives a positive pulse, which is the rear edge of the hard T2 , whereby the monostable flip-flop or monostable multivibrator 96 with a fixed capacitance C1 is actuated as a function of this, which in turn generates a binary ONE signal on the line 97 for a certain fixed period of time , which corresponds to the capacitance C, when the line 97 generates a binary EWS pulse within the range caused by the capacitance of the capacitors C1 or C2 of the monostable Multivibratox3 89 receives the selected time limit, so the AND circuit 91 is set to pass a binary EWS signal on two of its lines, whereby only a further binary EWS signal is required to complete the passage. This last signal comes from a Ein -echaltaperrkreia, which is set up so that or * blocks the feed when the timing system has a cycle completely overpxengon. The circle will now be explained. The output of the MM circuit 91 generates a potential at the integrator 98 only when a binary ONE signal has been passed from the AND circuit, with the exception that this integrator is given an original potential from the start circuit 59 , as by the arrow 84 shows reasonable to keep him au in the starting state until the first card. Photocell 15 reached. Daa up the integrator through one. binary ONE to the AND circuit Zuatr-nd genitGt 91 given potential, we Einan rlip-FIOP 99 fztr about the time period in the binary ONE state to keep that only one ute is required for the admission . Therefore another draft is prevented until the machine zurtick4eatollt is when. an extended interruption of the Lichtstraulss to Potoaelle 1.5 occurs, which one Missing :: iri Stapelren indicates d3 in this case the flip- fIc> p 99 in the zero addition: and switches and the feedback 100 is not actuated, which actually causes the LIND circuit 91 is blocked. form andoreraeita is assumed that duz stacking frame 13 n I * .cht i: bar a predetermined period of time ott close earth and therefore the cards hold the entrance opening If you leave 16 within the prescribed time, it does not Potential m integrator 98 is not reduced to a reduced value off, that is, ans »iohend, u, the flip-flop 99. into the Nuxl state to switch, and the noise in the machine becomes' self-, active lor % esetst, since the line 67 is now in binary ONE State is maintained. . . The machine is easily started by Bodienunssmann. works, iahen he simply makes his choice of the card size, wiche should be rerwadet, and the splint 22 through fit Xtudaritt 2j moved in the specified tit, and then he makes a suitable single control, which general is tieseichnet with 110 in rigur 1, whereupon the machine itself is set active in transition and continues until, stop control 110a v « Operator pressed or an error is displayed by one of the journeys 60, 61. Security switches 111 and 112 (Figure 1), which. as microswitch off are formed, they are provided along the base: rlatte @ 7 and stand with the #nsohtagstangs 26 fm connection, so that the Start circuit 39 cannot be operated unless the Schlaastafe 26 reads in one of Ötthmgea 27, 28 is sitting, which means that the adjustable mechanical Handle the machine correctly for long or short card funding are discontinued. The starting circle 59 is shown in Piaur 3a, which is au serves, the lines 63 and 84 shown above with a suitable signal from the signal sources 113 bzr. 114 to activate. The start is the upper part of the push-button . switch 110 intermittently a contact between the signal source 114 and line 48 for the necessary items in circles 60.61 including flip-flops 83 and 99 to activate and to set the counter 80 back to zero, the equally suitable potentials from the signal source 114 be given on each of these. Simultaneously with the Activation of circles. 60,: 61 supplies the signal source 113 the line 63 with a binary EMB signal to the AND- Circuit 63- to be set to operation, since the switching contacts 115. 155a by deau solenoid - i 16 as a result of closing the ` Lower part of the switch 110 supplied current geachlosaen will. It is obvious that the switch contacts 115a form a hold circuit for the relay 116, whereby the binary ONE signal on line 63 is held after the Switch .110 is released. This is why this is the trap_ since the solenoid 116 is kept energized until the hand etoppachglter 110a is actuated or both microswitches 111 and 112 are opened at the same time, ws: a- indicates dat the mechanical machine components are no longer correct for The promotion of long or short ae types has been discontinued. are. Nachdom äor counter 80 is set to zero and the flip-flopa 83 and "are set in the binary ONE addition - the. Lines 64..66 and 67 bJ, secondary ONE -. Signals, so that at Occurrence of every timed feed pulse from the source 62 to you AND-84hgItuna 6 j over the line 65 cards into the . Sylter` verden, whereby the counter 80 counts up, until the specified Sohwollbazählerupg 3) is reached, after which the automatic control of the number of cards in the system . limited to this number. As stated above. will be the right thing Potential for the flip-flop 99 initially through the newspaper 84 given to the integrator 98 to don-flip-flop 99 in the Hold a position until the harvest card ' at the poto cell 15 passes. After that , the potential due to the passing passing the cards on the photocell 15 is maintained until e3: a failure is detected and the potential is below; dan critical empties can sink in order to f'u prevent r clothes. . The safety microphone holder 112 has an additional function, by forming contact which lines 11 7 , 117a with supply a potential to the solenoid 118 (Figure: »to Activate which the transit time circle 61 is before the long on the short card time: by changing the timer , capacitor of the eonostable multivibrator 89 from C1 C switched off by tandomsah holder 119, 119a, as in Pig u r 5 dargastollt. Therefore, if the requirement for gcwaxui is the appropriate one Setting for the msct a nischon components of the cchine Wäblt, wfrd the specified passage time for the cards suitably changed past the patocell 15 or chosen to match the card size used to pair what is required, as the correct passage ganga, time for a, short card proportionally less üet than the correct transit time for an Irish card. With this arrangement for. Eta choose the given Duroh. At the same time it may be desirable to make settings for. to provide each of the capacitors C1, C2 so that the Machine sensitivity by changing the critical. Transit time of. Step into the stacking container 14 * Cards ttir every different greetings card - a lot of fun can. . The journey of the stacking container 14 searches according to the invention post-clamping the trailing edges of a card by a the following card at the entry opening 16 of the stacker impede. In particular, carries as the boot ouch Pigur 1 can be seen, the hand 124 of the stapleta 1 2 the card. after above about den_ inclined part is plate 17 through the inlet. entrance opening 16 and into the container 14 at an angle of about 10 a, where the card is turned back and then either against the X. i hit 50 for short tender or against press the stop 121 for long cardboard boxes, what the depends on the position of the card path , as explained above. Of the Stop 11 f F, "ixlar4e Zarten is similar to stop 50 For short, cardboard by also helping to achieve Elasticity consists of FedexTaetall or plastic , na that the rear edge of the cart resch front against various front plate 122 at the apex or end 123 near the entry opening 16 and at this - Yorderplatte which am .frei Eäde-the frame 13 is attached, rebound can. Urt the trailing edges of the cards to cause the =. Eia, ris; ttsöfuxtg 16 quickly fretzugebon if the rear ' If the edge passes through, a Staplor lift 124 is provided. aohen, which with the Karen when they pass through . dcloth The entrance door is 16- lf through the elongated opening 125 - communicated in the lame 13. The nozzle 124 also consists a flexible tube and a vacuum with a viird from suitable suction source 126 on mounting block 127 cares. The so cross. difference in pressure created on the cards holds the same -in inpiger'Bor Uh tion with the testicle Frame * 13, so that when you pass the Schaitela 'i23 the Front plate on the entry opening, the rear edges so quickly that the podar effect in the cards used to hold the cards up lengthways ct t : r front plate 122 to press. 1üo best au & figure 4 eraoht-, lent, the opening opens 1: 5 over the vertex 123 out to a drainage path M »Ion Sog aua the nozzle 124 to look ahead and to prevent * that this suction wärtebewegu N the Ka r 1-s in the container 14 significantly hinders. The front plate 122 imt. in relation to the: waa: grach- th part of the base plate 17 at an angle of about 100 o Figure .1) r so that if the card is replaced by the Xartenanachlag 30` or 121 exerted spring force is driven back, the rear . edge of the map, which is already moving upwards has started following its own spring action, now after ' obon reg from the inlet opening 16 through a slight Sliding movement is pressed along the front plate 122, a complete exposure of the inlet opening 16 for the next diamond to baxirkcn. Hit other trims that are in the Cards entering the stacking bin 14 look up quickly above wag from the entry opening 16 to a rest position, where they are wedged between one of the stops 50r 121 and the front slat 122 kept vardon, with their Trailing edges up. trough from the base plate 1 7 and out . the forklift: the entry opening 16 is chamfered free, whereby a fixed gap for the introduction of a follow-up . the following card is provided. It is further noted that. the cards into the gap at an angle in front of about 100 occur, whereby further-the Abmeaoung and the effectiveness diegos gap is increased to prevent jamming ( e ielzfigur 1) # The SE. @ Pi orr: .l: @rorz l _I is luicnt federbzlantet by the spring 1;) 0 around o 3.m at pivot point 1.24, so that the frame 1. :) the card in iruaigs contact with the band 120th , ttr actual fort = bowag i #, n g the Yar: oiz presses. The upper part 124 of the front panel, 122 engages on the rear wall 1265 , hanging together in the uine Form the rear wall for the Stapolbehäiter 14 if the Rabmen i3 is in the operating position. In the case of one . Yorklemens en der StaplereJ * ntrittstfffn = g 16 however the spring-loaded forklift frame 1 :) by diesusamwen- printing effect of the following card upwards 6e # pushes, this open position shown in, figure ? + is. The spring 123 occurs over the pivot point 124 in a over the middle movement when the frame 13 is is pushed and thereby the light beam becomes the photo Real 15 continuously interrupted because the rim is open in this one Position remains until it is reset by hand , too .done point in time of the light beam from the source 15a again in .the photo wave 1 5 can fall ( see fi gu r 2). 1a11.0 a U rte the previous card while it was slowing down when entering the container 14, the forklift truck is s, frame 19 ge8ffhet what state through the passage. üeit circle 61 is displayed, which means that the photoreelle 15 is xscht, and one more x types: execution is- bestirnt rer- prevents. bie the damaged box or the damaged Cards can be removed and returned to the machine Operation can be discontinued. `

Claims (1)

Patent claims 1. Card feeder for punch cards or the like, with a card storage container for holding a stack Karteng with a stacking container and with a device for feeding individual cards from the supply pile to the Stacking container, characterized in that the stacking container (14) a Baeieplatte (17) for holding ae Has stacks of cards, as well as a flexible stop (121) which stops the leading edge of each card and at the same time the movement of the same arrested, with a stacking frame (13) 9 which can be seen at the entrance to the stacking container is located and which has a plate (122), welsche at an angle to the flexible stop located, with this and the plate from the base plate diverge away, and the smallest distance between the stop and the plate is smaller than the length of the Card and with each card in the stacking container with corresponding force is applied] around a bend in the card Eu Achieve when dex..en front edge against the biegeamea Stop hits and also a deflection of the pliable Stop, ao that the distance between the distracted biegeamen-Anaehlag and the plate (122) the stacking frame (13) is greater than the length of the curved card, where the plate of the stacking frame the rear edge of each distracted card erfaeety around doing the back katte of to push the base plate away and leave a space between the Base plate and the rear edges of the base plate create hold cards $ u, which at least suffi- is large enough to prevent the following, the to allow cards fed into a storage bin. 2. Feed device according to claim 1 2, characterized in that äaes the stacking frame (-13) and part of the base plate form an inlet opening (16) for the stacking container g said part of the base plate being a blunt one Forms angle with the main part of the base plate and the If this part of the base plate is to be delivered along this dang said map such a pulse issued wird9 that the rear edge of the card is separated from the main part of the, plate is bent away . 3. Feed device according to claims 1 and 29 marked net duräh a printing device (12491259126) J the next the entrance to the stacking container w? .sngen-dret is to you Cards.' against that part (123 @ :, es etapelrabmens to dxüceenq which lies next to the base plate, where the pressure voxriclx =. the rear edge of each card from the base plate iveg--, moved so that the card with part of the stacking frame, which faces away from the base plate in contact comes,- 4. Feeding device according to den.Aneprüchen -2 and 39-thereby characterized in that the stacking frame (13) is pivotable (131) is attacheda and that also the feed device has a drive belt (120), we lean along the genann® , th parts of the base plate is arranged g reobei a Pe- dereinriehtung (130 is provided around the stack rotation to press into close contact with the drive belt, wherein furthermore, the stacking frame usually contains the individual cards presses against said part of the base plate and through two or more cards which have a blockage on the Generate inlet opening g of the base plate away overall can be pressed. ä- feeding device according to claim 1 to 4, characterized shows that the flexible stop on a wall (121) pointed out that it was essentially perpendicular to the ground platte_eratrecktr and that the plate (122) of the stack frame substantially perpendicular to said part the base plate and the flexible stop and the Stacking frame Jewei'i s the front and rear walls of the Form stacking container. fio feeding device, close to tests 1 to 5, marked characterized by a device (5I1) for change the ßiösee of the stacking container, around a stack of min- to allow at least two different card sizes: 7. Feed device according to claims 1 to 69 marked characterized by a detection device (15) sm input to the stacking container to interrupt the operations of the direction for feeding individual cards upon proof an abnormal condition at the entrance to the stack container. 8. To mowing device according to claim 79, characterized by a counter (8,15,6ü) to counter the count number of cards, which are in the run between the Card supply and the stacking container are located, and through means (63) for actuating the feeder p if the counter shows a pale, the smaller one is as a given number greater than 10 'a feed device according to claims or 8, characterized by a device (15, G1) for Xesaung of one Card for entry through the opening (16) into the stack: - containers required time, and by a device (63) to keep the entrance facilities for the Case that the measured time span a predetermined Amount exceeds: 10. Feed device according to claims 1 to 9 = marked marked by ea: e rail (22) 9 through which -of the card- -atapel is held in its position in the storage container, wherein the reservoir has an opening @ through which individual Karen are given, with the sliding against the opening to and from it reg is movable to with cards of different sizes relative to the opening set in their location, and with a feed auxiliary unit direction (11) s which with the feed device only then is connected when calibrating the rail in a predetermined Position is " 11 .. Feed device according to claim 104, characterized in that deae the rail a crop stand for long cards and Another fixed position for short cards and then d. the auxiliary feeding device is only operational , when the rail is in the short card position finds. 12. Feed device according to claim 1 (? And 11, gakennneiohnet by means of a device (112 4117 4119a around the aforementioned given period of time in accordance with the position of the sahieue $ u nderno 13. Feed device according to claims 10 to 12, marked characterized by a device (55,56952), which depending on the movements of the rail (22) the device device to change the size of the stacking container in Operation nets when the rail is in the said given location. 14. Feed device according to claims 6 to 13, characterized gekennseiohnet, then the device ('50) to change the ßrönee of the stacking container an additional flexible one Has device which is calibrated between the flexible Stop (121 ) and the stacking frame (13) along the base plate (17) extends, see this additional flexible aame device usually in an inactive one Zage is located "in which the cards against the pliable Facility and which in a company talk is movable, depending on the movement of the rail in their predetermined location to allow the cards to pass through to block the flexible device. 15. Feed device after the Anaprüohen 9 to 149 thereby characterized in that the time measuring device (15961) has one Photocell (15), which at the entrance to the stacking container (14) is arranged, as well as an electronic Time recorder see which on signals from the photocell appeals to the passing of the individual cards to measure the time required by the photocell. 16e feeding device according to claims * 8 to 15, thereby geke, nn $ calibrated, because the counter for counting the an additional photocell (8) on the cards that run through has, which is arranged at the exit of the storage container istj and that a resettable electronic counter is on Signals from said photocell aneprioht to in one Meaning to count and to etch on signals from the said liahen Pbtozelle.tum to count in the opposite sense. ,