US3233080A - Readout apparatus - Google Patents

Readout apparatus Download PDF

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Publication number
US3233080A
US3233080A US110917A US11091761A US3233080A US 3233080 A US3233080 A US 3233080A US 110917 A US110917 A US 110917A US 11091761 A US11091761 A US 11091761A US 3233080 A US3233080 A US 3233080A
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Prior art keywords
registering
racks
positions
digit
clutch
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Expired - Lifetime
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US110917A
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English (en)
Inventor
Gang Herman
Plains Morris
Charles A Parker
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MONROE INTERNATIONAL CORP
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Monroe Int
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Priority to NL278360D priority Critical patent/NL278360A/xx
Application filed by Monroe Int filed Critical Monroe Int
Priority to US110917A priority patent/US3233080A/en
Priority to GB1817762A priority patent/GB947124A/en
Priority to FR898007A priority patent/FR1344889A/fr
Application granted granted Critical
Publication of US3233080A publication Critical patent/US3233080A/en
Anticipated expiration legal-status Critical
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  • the present invention relates to registering apparatus wherein an ordinal series of differentially movable actuating members for a corresponding series of differentially settable character display or of type members are adapted to be arrested in positions to set the display or type members in accordance with data to be registered.
  • the invention relates to registering apparatus of the above type for use in a readout system wherein storage means of a computing system is sensed serially, order by order, and in each complete sensing operation only given like characters are transmitted to the registering apparatus. For example, if digital values are recorded in the storage, in one cycle of the sensing means the 0 digits will be transmitted serially to the registering mechanism, in the next cycle the 1 digits will be transmitted, etc.
  • a more specific object of the invention is to provide control means for registering apparatus in a readout system having the operational advantages as stated above wherein the data to be recorded is stored on a rotatably driven magnetic storage drum or disc.
  • a further specific object of the invention is to provide control means in a readout system having the operational advantages specified wherein the data is stored on a storage tape.
  • a further object of the invention is to provide a readout system of the above character including particularly compact and reliable drive means for operating the recording apparatus in synchronism with the storage means in sensing of the storage means.
  • the registering machine is of the type wherein an ordinal series of digit type wheels are settable by a respective series of actuator racks from 09 digit printing positions inclusive. During simultaneous forward excursions of the racks, the type wheels are rotated from 0 through the successive digit printing positions to 9 digit position.
  • a stop means is associated with each actuator rack and is adapted to engage any one of a series of teeth on the associated rack corresponding to the digit printing positions of the associated type wheel.
  • Control means in the readout system is adapted to cause engagement of each stop with a tooth of its rack to arrest rotation of the associated type wheel when the type wheel is in the digit printing position corresponding to the digital value in the corresponding order of the computer magnetic storage.
  • the devices of the invention control operation of the "ice actuator racks to give each stop means equal operating time for arresting movement of its rack. More specifically, the racks are controlled so that the type wheels arrive successively from order to order at each like printing position.
  • FIG. 1 is an exploded fragmentary perspective view of the readout system.
  • FIG. 2 is a side elevation of the actuator racks of the printing mechanism, and the stop means and the drive means for the racks.
  • FIG. 3 is a plan view of the actuator racks and the restore bail for the racks.
  • FIG. 4 is a circuit diagram disclosing the readout controls from the magnetic storage disc to the printing machine.
  • FIG. 5 is a view of a magnetic storage tape which is usable in the readout system alternatively of the storage disc,
  • the printing mechanism (FIG. 2) may be of the same general type disclosed in application Serial No. 819,174, now Pat. No. 3,057,547, to Heinrich W. Wage-mann.
  • the printing mechanism includes an ordinal series of digit type wheels 1 each having spaced around its pcriphery a series of digit type ranging in values from 0 to 9 inclusively.
  • Each type wheel 1 is entrained with an actuator rack 2 by a train of gears 3, 4, and 5.
  • Each actuator rack 2 is provided at its upper left end (FIGS. 1, 2, 3) with a series of ten teeth 2t corresponding to the digits 0-9. The rightmost tooth is the O tooth, the next tooth is the l tooth, etc. Operatively associated with each rack 2 is a stop pin 8. Normally pins 8 are held raised as later described with their lower ends slightly above and out of the path of movement of teeth 2t when racks 2 are moved toward the right in their forward excursions.
  • each pin 8 is adapted to be released at a predetermined time with respect to the movement of the racks as later disclosed and moved downwardly to engage one of the ten teeth 2t of the associated rack 2 to arrest movement of the rack. Accordingly, when a rack 2 is arrested, the type wheel 1 driven by the rack will be in the digit printing position corresponding to tooth 2t which is engaged by the associated pin 8.
  • actuator racks 2 are held to the left in restored position, against the urge of operating springs 9, by a restore bail iii.
  • the holding edge of bail it), from lower to higher orders of racks 2 is inclined toward the left, as best seen in FIG. 3, to hold racks 2 in staggered relationship.
  • the lowest order type wheel 1 With racks 2 in restored staggered relationship, the lowest order type wheel 1 will be held in 0 printing position and the highest order Wheel will be backed one digit space from the lowest order wheel and held in 9 printing position. Accordingly, the type wheels between the lowest and highest orders will be held in respective positions between and 9.
  • Stop pins 8 are in a line perpendicular to the movement of racks 2 with pin 8 of the lowest order rack immediately to the right of the O tooth 2t when the racks are in normal restored position as best seen in FIGS. 2 and 3. Therefore pin 8 of the highest order rack 2 will be one tooth space to the right of the 0 tooth 2t and the intermediate pins will be proportionate fractional distances to the right of the O teeth of the associated racks from lower to higher orders. From the above, it will be seen that as bail is moved toward the right, springs 9 will likewise move racks 2 in staggered relationship until arrested by stop pins 8 as later described.
  • a pin 8 may be released to engage a given tooth 2: of the associated rack 2 immediately after the leading edge of the preceding tooth has passed beneath the pin. Such timing of the pin release will permit maximum operating speed of the printing mechanism.
  • the readout is effected serially from lower to higher orders for each plurality of like value digits and means later described is operable to release corresponding order pins 8 serially from lower to higher orders.
  • the stagger of racks 2 will compensate for the difference in time of the release of pins 8 upon transmission of any series of like value digits and that pins 3 will each be released when the respective racks 2 each arrives at the same registering position. Each pin 8 therefore will have equal time to engage the selected tooth 2t.
  • Bail 10 is mounted between the left ends of a pair of links 11 which at their right ends are supported at the upper ends of vertically disposed arms of a pair of bell cranks 12 which operate as cam followers.
  • Bell cranks 12 are spring biased clockwise and each includes a leftwardly extending arm having a roller which engages a cam 13, one of which is shown in FIGS. 1 and 2.
  • Cams 13 are fast on a main drive shaft 14 and are of like contour with their respective high portions normally engaged by the rollers of cranks 12. Thus cranks 12 are normally held counterclockwise with bail 1% in left restored position.
  • the electromagnetically controlled stop means The means for holding stop pins 8 raised and means for releasing the pins for engagement with teeth 2t is disclosed as operating substantially as disclosed in application Ser. No. 88,244 to Nathaniel B. Wales, Jr.
  • the stop unit 15 (FIG. 2) comprises a plurality of pole fingers 16 mounted on a pole plate 17.
  • the alternate pole fingers are at different levels to achieve close lateral spacing.
  • Stop pins 8 extend through pole plate 17 and each pin at its upper 4 7 end is adapted to engage the underside of a related pole finger 16.
  • An elongated holding coil L embraces pole plate 1'7 and is therefore common to all pole fingers 16.
  • a constant direct current potential (not shown) is applied to coil L and thus a magnetic circuit will be completed through a pin 8 when it is in raised engagement with its pole finger 16.
  • Normally pins 8 are in raised engagement with pole fingers 16 and the magnetic attraction is just sufficient to hold them raised against the downward urge of springs 19 which engage protrusions on the pins and bear against the underside of pole plate 17. The attracting force however is not suflicient to raise the pins against the urge of these springs.
  • Each pole finger 16 from lower to higher orders is embraced by a release coil L1, L2, etc. (also FIG. 4). Now if current of given amplitude is passed through a release coil L1, L2, etc., in a direction opposite to that passing through holding coil L, the magnetic flux level will be reduced in the related pole finger 16 below the holding level and the related pin fl will be released for downward movement by its spring 19 to engage a tooth 2t of the associate rack 2.
  • the holding flux induced by coil L is just sufficient to hold pin 8 against the urge of spring 9 and therefore a low amplitude pulse through a release coil L1, L2, etc., will be effective to reduce the holding flux and the release level.
  • the restore means comprises a restore plate 21 normally resting on a bed plate 22 and pivota'lly mounted on a pair of ears on the bed plate. Stop pins 8 extend loosely through clearance holes in restore plate 21 and are slidably journalled in bed plate 22. A floating reset spring 23 on each pin 8 is freely trapped between protrusions on the pin and restore plate 21.
  • a rightwardly extending arm 24 is fixed to restore plate 21 and has slot and pin connection at its right end with the upper end of an upright slide 25.
  • the lower end of slide 25 has a lug 25a which engages a cam 26 fast on drive shaft 14 of the printing mechanism.
  • cam 26 Near the end of each printing cycle, a high part of cam 26 will engage and then pass beyond lug 25a of slide 25 to raise and then release said slide.
  • arm 24 and restore plate 21 When slide 25 is raised, arm 24 and restore plate 21 will be rocked counterclockwise to raise reset springs 23.
  • springs 23 will be brought into engagement with the protrusions on pins 8 to raise said pins against the urge of springs 19 which are weaker than springs 23. Accordingly, each released pin 8 will be moved into contact with its pole finger 16 where it will be held by the magnetic attraction.
  • the magnetic storage and the distributor is in the form of a disc 28 on which a plural order digital value may be recorded on a single circumferential track as indicated by the dot-dash line t (FIG. 4).
  • a plural order digital value may be recorded on a single circumferential track as indicated by the dot-dash line t (FIG. 4).
  • Each digit of a number is recorded on track I in an angular position corresponding to the order of the digit as indicated by the positions d1 (lowest order) d2, d3,
  • Disc 28 is directly driven at a substantially constant speed by the drive shaft 29 of a motor M.
  • the speed may be of the order 3,6ti0 r.p.m. which is usual for this type apparatus. Obviously, a magnetic storage drum could be substituted for the disc.
  • a distributor 30 is located on the opposite side of motor M from disc 28 and has a contact arm 31 directly driven by motor shaft 29. Disc 28 and contact arm 31 (FIG. 4) are therefore driven at a one-to-one ratio.
  • distributor 36 is shown as enclosed in a cylindrical casing.
  • Distributor 30 includes seventeen contacts c1, c2, 03, etc., corresponding to the digit recording positions d1, d2, (13, etc., of disc 28. Furthermore, there is an eighteenth contact cs corresponding to the start position s of disc 28. These eighteen contacts are engaged successively by arm 31 which continuously engages a conductor ring 32.
  • Contacts 01, c2, etc., (FIG. 4) respectively of distributor 30 are connected to release coils L1, L2, etc., of the rack control unit for the printing mechanism.
  • the release coils have a common lead 36 which is connected to a normally open contact 37 of a switch 32.
  • Contact 37 is adapted to be engaged by a switch arm 38 to connect the coils to ground.
  • Switch arm 38 is resiliently biased toward engagement with contact 37 but normally is held by a clutch detent 43 (later described) in engagement With a contact 4% of switch 39.
  • Contact 40 is connected to one side of a solenoid coil 41, the other side of which is connected to contact cs of distributor 30. Solenoid 41, as later described, is operated to engage a clutch which drives the printing mechanism in time with disc 28 and distributor 30.
  • a pick-up head 33 is operable to sense the start position s and the digit positions d1, d2, etc., of track t serially upon each rotation of storage disc 28. When each of the positions s, d1, d2, etc., is sensed, arm 31 of distributor 39 will engage the corresponding respective contacts cs, cl, 02, etc. Pick-up head 33 is connected via an amplifier 34 to distributor arm 31 via conductor ring 32.
  • pick-up head 33 may be effected by operation of the computing mechanism to record the start signal in position s during a first rotation of disc 28, in a second rotation to record the 0 digits in their correct ordinal positions d1-dl7, in a third rotation the 2 digits would be recorded, etc. From the above, it will be seen that pickup head 33 will first transmit the start signal, then the 0 digit signals, etc.
  • the complete series of digits comprising a Value may be stored on disc 23 and sensed by head 33 upon each rotation of the disc.
  • a digit selection means (not shown) would be interposed between head 33 and distributor 30.
  • the selection means is operable to transmit first 0 digits, then 1 digits, etc.
  • Such selection means is disclosed in Patent No. 2,882,817 to Gerhard Wolf and British Patent No. 835,243.
  • disc 28 After transmisison of the start signal, disc 28 will complete a cycle of rotation and then in the next cycle of rotation the digit positions all, d2, etc., will be sensed and pulses for 0 digit storage in any of the positions will be 6 transmitted via distributor 30 to the corresponding order release coils L1, L2, etc.
  • pulses for 1 digit storage will be transmitted to the corresponding order release coils and in the next cycle transmission for 2 digit storage, etc., until transmission has been effected for all digits 0-9.
  • racks 2 of the printing mechanism will be moving in their forward excursions in timed relation with transmission of the digit pulses until arrested by stop pins 8 which are released when digit pulses are transmitted to the associated release coils.
  • a drive transmisison for controlling operation of the printing mechanism to move rack 2 in timed relation with the transmission of the digit pulses is described in the following.
  • the drive transmission (FIGS. 1, 2) for the printing mechanism includes a worm 44 fast on shaft 29 of motor M. Worm 44% drives a worm gear 45 fast on a transverse shaft 46. A cog wheel 47 fast on shaft 46 drives a cog wheel 43 through a cog belt 49. An idler cog wheel, intermediate wheels 57 and 48, engages belt 49 and is laterally adjustable to regulate the tension of belt 49.
  • Cog wheel 48 is fast on a transverse shaft 50 on which the hub of a gear 51 is secured.
  • Gear 51 is secured on its hub by slot and bolt connection and is thereby rotatably adjustable.
  • the drive transmission therefore can be accurately timed to operate the printing mechanism with respect to rotation of storage disc 28 as later described.
  • Gear 51 drives a gear 52 rotatably mounted on a shaft 53 and the ratios of the various parts of the afore-described drive train is such that storage disc 23 is rotated eighteen times for each rotation of gear 52.
  • Coupling 54 comprises a disc 54a rotatably mounted on shaft 53 to which is fixed a tooth wheel 42a comprising the driving member of clutch 42.
  • a spring loaded crank 54b is mounted on the right face (FIG. 1) of disc 54a and has a roller 54c normally ongaging a notch 52a in an inner raceway of gear 52.
  • roller 54c Normally, roller 54c will be held in engagement with notch 52a of gear 52. by spring loaded crank 54 and therefore driving member 42a of clutch 42 will be driven with gear 52. However, if there is a bind or jam in the printing mechanism, crank 5417 will yield thereby disengaging roller 540 from notch 52a and permitting gear 52 to rotate with respect to disc 541a. When the bind has been relieved, the engagement of notch 52a with roller 540 will again be effective to drive disc 54a and clutch member 42a with the parts in the initial angular relationship.
  • the driven member of clutch 42 comprises a cam disc 42b rotatably mounted on shaft 53.
  • a gear 56 is secured for rotation with disc 42b and drives a gear 57 of the same size fast on drive shaft 14 of the printing mechanism. Accordingly, one cycle of clutch 42 will effect a cycle of operation of the printing mechanism and during a clutch cycle, storage disc 28 will be r0- tated eighteen times.
  • Clutch 42 in conjunction with switch 39, is operated and controlled as follows.
  • a clutch pawl 420 is mounted on driven member 4212 of clutch 42 and is spring biased toward engagement with the driving member of the clutch comprising tooth wheel 42a. Pawl 42c however is normally held from engagement with wheel 42a by detent 43 which is spring urged counterclockwise to position to engage the pawl. Clockwise movement of detent 43 will release pawl 42c for engagement with a tooth of wheel 42a thereby engaging the clutch. Wheel 42a has eighteen teeth and is therefore rotated one tooth space for each rotation of storage disc 28. Consequently, whenever pawl 420 is moved to engagement with a tooth space of wheel 42a, storage disc 28 will be at the same position with respect to pick-up head 33. Therefore readout from disc 28 will always begin at the same time with respect to a cycle of operation of the printing mechanism.
  • Clutch detent 43 is operated by solenoid 41 and in addition to controlling clutch 42 also controls switch 39.
  • Detent 43 which is spring biased counter-clockwise has link connection 58 (FIG. 2) with the armature of solenoid 51.
  • An arm of detent 43 extends toward the left and terminates in a lug 43a normally engaging a shoulder 59a of an upstanding arm 59 which is pivotally mounted at its lower end.
  • arm 59 engages and normally re- :st-rains a pivotally mounted arm 3% of switch 35 in counterclockwise position.
  • Arm 39a when restrained counterclockwise, restrains resilient switch arm 38 (FIG. 4-) from movement to engagement with contact 37 and holds it in engagement with contact 40.
  • Racks 2 will move forward one tooth space for each rotation of storage disc 28 until arrested by stop pins 8.
  • the timing is such that during each of the nine cycles of disc 28 when the positions d1-d17 are successively sensed for one of the digit values 1-9 respectively, the corresponding order racks, because of their staggered relationship, will arrive successively at the positions where the associated stop pins 8 may be released for engagement with the respective teeth 2t corresponding to the digit value being sensed. Accordingly, it will be seen that although a plurality of stop signals for any one digit value are transmitted successively to the selected release coils L1L17, each associated rack 2 will be advanced to the same registering position when its stop pin 8 is released, and therefore maximum operating speed of the printing mechanism may be achieved.
  • storage disc 28 will complete eleven cycles of rotation from the time the start signal is transmitted until completion of the digit 9 sensing cycle and at this time racks 2 will be arrested in the positions determined by the released stop pins 8. After this disc 28 will complete seven additional cycles of rotation as clutch 42 completes its cycle of operation.
  • a cam follower comprising a lever (PEG. 2) is spring biased clockwise to engage a roller mounted adjacent one of its ends with a peripheral recess 42a in cam plate 42b which comprises the driven member of clutch 42..
  • the other end of lever 60 terminates in a lug 60a which is adapted to engage the upper end of arm 59.
  • the tape includes eleven fields for the recording of a plural digit number on a track t indicated by the longitudinal dot-dash line.
  • Each of the fields corresponds to a cycle of rotation of disc 28 (FIGS. 1, 4) starting with the transmission of the start signal, i.e., the starting cycle, and the 09 sensing cycles.
  • Four of these fields are shown in the drawing and are bracketed and indicated as start, 0 digit, 1 digit, etc.
  • Each field includes eighteen positions corresponding to the s position and the d1d17 order positions on disc 23. These positions are indicated as located between the transverse dot-dash lines on tape 65.
  • Tape 65 may be magnetic or punched and the stippled dots on track 1 indicate magnetic recordings which would obviously be invisible. The only recording in the start field is in the s position.
  • the digit recordings shown in the drawing represent a seventeen digit number which includes 0 digits in the first and sixth orders, 1 digits in the second and fifth orders, a 2 digit in the seventeenth order, etc.
  • Pick-up head 33 is located to sense track t as tape 65 is transported toward the right by a sprocket drum 66.
  • Drum 66 is directly driven by shaft 29 of the motor M in the same manner as storage disc 28.
  • Each rotation of drum 66 will advance tape 65 one field past pick-up head 33. This corresponds to one rotation of disc 28. Consequently the drive from the motor to the printing mechanism is the same as described with reference to FIGS. 1 and 2, and the circuitry will be the same as described with reference to FIG. 4.
  • a sensing head for punched tape could be substituted for head 33 without other alteration of the system.
  • the readout has been disclosed as from digit storage to a digit printing mechanism. However, obviously, the system could be modified to read out other stored data such as alphabetical, etc., without departing from the principles of operation. Furthermore, the readout could be a display device such as a register. The invention therefore is to be restricted only as necessitated by the scope and spirit of the appended claims.
  • a series of registering devices each settable to a succession of registering positions; a series of differential actuators for said registering devices; means for advancing said actuators in staggered relationship to bring said actuators successively to each of a succession of registering position-s corresponding respectively to said registering positions of said registering devices; and stop means operable during advance of each actuator between any and the next registering position to arrest said actuator in said next registering position; and means for operating said stop means respectively during the successive advance of said actuators etween any and the next registering position.
  • each actuator is staggered a substantially equal distance ahead of the next actuator of said series with respect to the direction of advance of said actuators to provide for arrival of said actuators successively at usbstantially equal time intervals at each of said succession of registering positions.
  • a series of registering devices each settable to a succession of registering positions; a series of differential actuator racks for said registering devices; yieldable drive means for advancing said racks to a succession of registering positions corresponding respectively to said registering positions of said registering devices; restoring means operable to restrain said racks in a staggered relationship against the urge of said yieldable drive means with each rack in an advanced position with respect to the next rack of said series, said restoring means being operable in a forward stroke to control advance of said racks by said yieldable drive means in said staggered relationship to bring said racks successively to each of said succession of registering pos tions and in a return stroke to restore said racks to a home position; stop means operable during advance of each rack between any and the next registering position to arrest said rack in said next registering position; and means for operating said stop means respectively during the successive advance of said racks between any and the next registering position.
  • said restoring means for said racks comprises a bail having a restraining edge engaging said racks and inclined with respect to a line normal to said racks.
  • each actuator rack having a succession of teeth corresponding respectively to its successive registering positions; said racks being restrained by said restoring means with each rack advanced a fraction of a tooth space with respect to the next rack of said series; and said stop means for each rack being operable to arrest said rack during advance thereof by engagement with any one of said teeth.
  • a series of registering devices each settable to a succession of registering positions; a series of differential actuators for said registering devices; means for advancing said actuators in staggered relationship to bring said actuators successively to each of a succession of registering positions corresponding respectively to said registering positions of said registering devices; an electrically operated stop means operable during advance of each actuator between any and the next registering position to arrest said rack in said next registering position; and means for transmitting a succession of electrical pulses to said stop means respectively during the successive advancement of said actuators respectively between any and the next registering position.
  • said means for transmitting a succession of electrical pulses to said stop means respectively during the successive advance of said actuators respectively between each and the next registering position comprising a distributor having a contact member for each stop means and a contact arm operable to engage said contact members successively; a means connecting each contact member with the related stop means; means for transmitting said succession of pulses to said contact arm; and means operable during the successive advance of said actuators respectively between each and the next registering position to engage said contact arm successively with said contact members.
  • a readout system for registering data recorded on a rotary storage means having successive storage areas in which data may be recorded comprising a series of registering devices each settable to a succession of registering positions; a series of difierential actuator racks for said registering devices: yieldable drive means for advancing said racks to a succession of registering positions corresponding respectively to said registering positions of said.
  • registering devices an electrically operated stop means for arresting each rack during advance thereof in any one of its registering positions; a distributor having a contact member for each stop means and a rotary contact arm for engaging said contact members successively; means connecting each contact member with the related stop means; sensing means operable to sense said storage areas of said storage means successively upon rotation thereof; means connecting said sensing means with said contact arm of said distributor; a motor for rotating said storage means and said contact arm at a one-to-one ratio; a drive train including a reduction drive transmission for controlling said yieldable drive means for advancing said racks; a clutch in said drive train, and means operable to engage said clutch for a single cycle of operation upon rotation of said storage means and contact arm to a predetermined position.
  • a readout system for registering data recorded on a movable storage means having successive storage areas in which data may be recorded comprising a series of registering devices each settable to a succession of registering positions; a series of differential actuator racks for said registering devices; yieldable drive means for advancing said racks to a succession of registering positions corresponding respectively to said registering positions of said registering devices; restoring means operable to restrain said racks in a staggered relationship against the urge of said yieldable drive means with each rack in an advanced position with respect to the next rack of said.
  • said restoring means being operable in a forward stroke to control advance of said racks by said yieldable drive means in said staggered relationship to bring said racks successively to each of said succession of registering positions and in a return stroke to restore said racks for arresting each rack during advance thereof in any one of its registering positions; a distributor having a contact member for each stop means and a rotary contact arm for engaging said contact members successively; means connecting each contact member with the related stop means; sensing means operable to sense said storage areas of said storage means successively upon movement of said storage means; means connecting said sensing means with said contact arm of said distributor; and drive means for moving said storage means, for rotating said contact arm to engage said contact members successively during the successive sensing of said storage areas respectively and for operating said restoring means to control advance of said racks successively between one and the next registering position during successive engagement of said contact members respectively.
  • said drive means comprises a motor; said storage means and contact arm are rotated by direct drive from said motor; and said restoring means is operated by said motor through a reduction drive transmission.

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US110917A 1961-05-18 1961-05-18 Readout apparatus Expired - Lifetime US3233080A (en)

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NL278360D NL278360A (is") 1961-05-18
US110917A US3233080A (en) 1961-05-18 1961-05-18 Readout apparatus
GB1817762A GB947124A (en) 1961-05-18 1962-05-11 Improvements in or relating to registering apparatus
FR898007A FR1344889A (fr) 1961-05-18 1962-05-18 Appareil d'enregistrement

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3807300A (en) * 1972-10-25 1974-04-30 Ibm Inspection terminal

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1242170A (en) * 1914-12-21 1917-10-09 Ncr Co Cash-register.
US2776618A (en) * 1953-06-11 1957-01-08 Hughes Aircraft Co Printing cylinders for high-speed printing systems
US3106889A (en) * 1959-12-02 1963-10-15 Atvidabergs Ind Ab Positioning device for printing type characters

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1242170A (en) * 1914-12-21 1917-10-09 Ncr Co Cash-register.
US2776618A (en) * 1953-06-11 1957-01-08 Hughes Aircraft Co Printing cylinders for high-speed printing systems
US3106889A (en) * 1959-12-02 1963-10-15 Atvidabergs Ind Ab Positioning device for printing type characters

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3807300A (en) * 1972-10-25 1974-04-30 Ibm Inspection terminal

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NL278360A (is")

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