US2687199A - Magnet unit for operating typewriters - Google Patents

Magnet unit for operating typewriters Download PDF

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US2687199A
US2687199A US201898A US20189850A US2687199A US 2687199 A US2687199 A US 2687199A US 201898 A US201898 A US 201898A US 20189850 A US20189850 A US 20189850A US 2687199 A US2687199 A US 2687199A
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power
cam
bail
operating
type bar
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US201898A
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Kenneth S Goodale
Dana L Kilcrease
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International Business Machines Corp
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International Business Machines Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J7/00Type-selecting or type-actuating mechanisms
    • B41J7/02Type-lever actuating mechanisms

Definitions

  • the structure is such that the keyboard may be manually operated without in any way influencing the automatic electromagnetic operating mechanism, and the electromagnetic operating mechanism is so disposed and related to the type baroperating assemblies that the power cam units thereof are directly tripped by the electromagnetic control devices without many way disturbing or otherwise influencing the normal manual operating mechanism of the keyboard.
  • Fig. 1 is a view partially in section and partially in full line of certain parts of a power operated typewriter showing a type bar, manual type bar operating levers and electromagnetic mechanism for the control of the type bars;
  • the printing action of the typewriter illus- Fig. 2 is a side elevational view of the power operated typewriterof Fig. l with portions of the casing and side frame broken away to show certain underlying structure pertaining to power operated ribbon feed and lift mechanism and electromagnetic type action control linkage;
  • Fig. 3 is a transverse horizontal view, partly in section, through the power drive and control mechanism of the typewriter of Figs. 1 and 2, parts being broken away to show underlying structure;
  • Fig. 4 is a broken, front, elevational View of themagnet unit forming an important part 0 trated herein and to which the present improvements are applied is adapted for power operation under the influence of a constantly rotating power roller II] which is driven in any well known manner, as by an electric motor (not shown).
  • Each type face I2 is carried by a type bar l4 which is adapted to be operated into impression making contact with a record receiving sheet trained about a platen l6.
  • Each type bar it is pivoted on a type bar segment wire l8 about which it is rocked under the influence of a sub-lever 20 to which it is connected by means of a link 22.
  • Each sub-lever 2B is adapted for operation by a power cam 24 which is pivoted to its sub-lever by means of a pivot stud 26.
  • the sub-levers 20 and the power cams 24 are normally, i. e. in inoperative condition, so disposed that a serrated surface 28 on each cam 24 is slightly spaced from the rotating power roller It).
  • This position of the cams 24 is maintained by means of an associated spring 39 which has one end thereof attached to its cam at a point above the pivot stud 26 and which has its other end attached to a forwardly projecting portion of its sub-lever 20.
  • the cams are normally biased about their pivot point 26 in a counterclockwise direction to such an extent as to provide a small space-between the serrated surface 28 of the cams and the peripheral surface of the power roller l0.
  • each sub-lever 20 has a projecting car 32 from which extends a lateral stud it which is adapted to engage in an elongated slot 36 formed in an upstanding ear of a release member 38, the opposite end of the release memher being embraced by an inturned car 40 in the upper end or the forwardly projecting, portion of its sub-lever 20.
  • a spring 42 tends to hold the release member 38 in its forwardly disposed position.
  • a manually operable key lever 44 is pivoted for operative contact with each release member 3 38 whereby downward movement thereof will rock the associated cam 28 in a clockwise direction to project its serrated surface 28 into contact with the power roller 10.
  • this invention relates primarily to electrically controlled typewriters of the class wherein electric impulses representative of characters are provided for energizing electromagnets which control related power cams to cause the typing or printing operation. It is the specific purpose of this invention to provide in such typewriters an electromagnetic control for each of the character key cams, and to this end there is provided :a frame member 48 which is in the form of a generally U-shaped channel and which includes mounting ears 50 at the ends thereof by means of which the channel may be "attached to the side frames of the typewriter with its open side facing toward the front or keyboard end of the typewriter. Within the channel 48 are disposed a plurality of magnets 52, one such magnet for each of the character operating cams 24. .As best seen in Fig. 4 of the drawing the magnets 52 are disposed in two rows in the frame 48 and the magnets of one row are staggered in respect to the magnets of the other row.
  • the magnets 52 are selectively energized in any of the several ways that are known in the art to cause the printing of characters and ,to perform the necessary machine functions during the course of the composition.
  • armature pivotplates 54 upon which the armatures 5B are pivotally mounted.
  • armatures 5B there are provided two staggered rows of armatures having the outer ends thereof pivoted in their related pivot plate 54 and having their free inner ends adjacent each other but in staggered and overlapping relation in an endwise direction.
  • a spring 58 attached to the outwardly projecting end of each armature 26 and anchored at a spring lug 60 formed in the pivot plate 54 serves to hold its armature 56 away from its related magnet when such magnet is deenergized.
  • a brass strip 62 which is attached to the ends of the armature frame 48, and which is disposed across the overlapping free ends .of the armatures and in somewhat .outwardly spaced relation thereto, serves to limit the rocking motion of the armatures in a direction away from their related magnets under the influence of the spring 58.
  • Each armature 56 has associated therewith a cam operating rod 64.
  • the .rod 64 has one end thereof in contact with its related armature and the other end thereof in contact with :its related operating cam '24.
  • Therod :64 passes through a slot in the wall ofthe magnet frame 48 and through a slotted guide plate 66 which is carried by a frame member 68 fixed to the side walls of the typewriter frame and in a position directly in front of the sub-levers 20 and the operating cams 24.
  • Each rod 64 is normally urged into an inoperative position with its forward end in contact with its related armature 56 by means of a spring it) which has one end thereof in contact with a portion of the magnet frame 48 and the opposite end thereof in contact with a collar 12 fixed to the forward end of the rod.
  • rocking motion of the armature is transmitted through its related cam operating rod 84 whereby the cam 24 is rocked about its pivot point 26.
  • This movement projects the serrated face 28 of the cam into contact with the rotating power roller 16 and the sub-lever 20,, and its related type bar It is therefore operated through a printing stroke as previously described.
  • a magnet 52 is provided for each of the type bar assemblies, and that an operating rod $4 is provided for each of the cams 2 associated with the respective type bar operating assemblies.
  • the -magnet frame 148 pivot- .ally supports a knock-off bail M which is in the shape of .a relatively wide inverted U.
  • the bail '54 therefore, includes a generally horizontal portion which is located at the overlapping zone of the several armatures 56, and on the rear-side of such armatures.
  • the bail also provides a pair of downwardly extending legs 76, one at each end thereof, and the free ends of these legs are pivoted on studs 18 fixed to the magnet frame 48.
  • the bail 14 may be rocked on .its pivots '18 to bring .it .into contact with :the free ends of the several .armatures, thereby forcing such armatures away from the related magnet cores.
  • This operation is useful and in many cases necessary in over- :ooming residual core ma netism.
  • Each end of the bail 14 has attached thereto the forward end of an operating link which extends rearwardly .to a point adjacent .a ribbon lift bail shaft 82.
  • the ribbon lift bail shaft 82 extends transversely of the typewriter structure and is mounted for rocking movement on pivot studs 8 1 (Fig. .3).
  • a ribbon lift bail sleeve 86 extending upwardly from the ribbon lift bail sleeve is a ribbon lift bail 88.
  • the ribbon lift bail 88 extends .upwardly into the zone of influence of a downwardly extending hook-like projection 90 formed in the sub-lever 20.
  • the hook-like portion 98 thereof engages the ribbon lift bail 88, and thereby rocks that bail in a counterclockwise direction to lift the typewriter ribbon into impression position between the type face and a record sheet on the platen .18.
  • the structure .and operation of the ribbon ilift linkage adapted for operation by the bail 88 is well known in the art and it is, therefore, not illustrated in the drawings.
  • one end of the ribbon lift bail sleeve has a plate 92 attached thereto and extending therefrom.
  • a ribbon lift cam link 04 Pivoted to the plate 92 is a ribbon lift cam link 04 which extends upwardly, and has its upper end linked to a ribbon lift cam release lever 06.
  • the lever 96 is mounted for rocking movement on a ribbon lift cam lever 98 by means of a pivot stud I00.
  • the lever 98 is mounted for rocking movement on a pivot shaft I02 which extends inwardly from the side wall of the typewriter frame.
  • a drive cam I04 Near the outer free end of the ribbon lift cam lever is a drive cam I04 which is of conventional construction and which is adapted to rock on a pivot pin I06 which is carried by the lever 98.
  • the cam release lever 96 extends rearwardly beyond its pivot point I00 into juxtaposition with the cam I04 so that when the cam release lever 96 is rocked in a clockwise direction about its pivot point the free end of the lever will engage a lug I00 and rock the cam I 04 into contact with the power roller I0. Because of the eccentricity of the cam I04 its contact with the roller III will serve to rock the ribbon lift lever. 90 in a clockwise direction about its pivot shaft I02 to supply operating power for theribbon lift mechanism. A ribbon feed link I I0, at each end of the ribbon lift bail shaft 82, is actuated to operate associated ribbon feed mechanism.
  • a ribbon lift bail shaft operating link H6 interconnects the ribbon lift cam arm 98 and the finger II 2a of the plate H2 at the right of the typewriter as shown in Fig. 2.
  • a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, an armature for each of said magnets, and a mechanically independent operating rod extending between each of said cams and an associated armature, said rod being guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet.
  • a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, said electromagnets being disposed with their axes perpendicular to the axis of said power roll, an armature for each of said magnets mounted for movement toward and away from said power roll, and a mechanically independent guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet.
  • a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, an armature for each of said magnets, an operating rod extending between each of said cams and an associated armature, and a guide plate positioned adjacent said cams, said rod being guided in said plate for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet.
  • a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, an armature for each of said magnets, an operating rod extending between each of said cams and an associated armature, said rod being guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet, and a knock-01f device for said armatures.
  • a control mechanism comprising a series of electromagnets between which and said power roll said camsare interposed, an armature for each of said magnets, an operating rod extending between each of said cams and an associated armature, said rod being guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet, a knock-off bail common to said armatures, and means interconnecting said bail and said ribbon lift cam assembly whereby said bail is operated when said cam assembly is operated by said power roll.
  • a control mechanism comprising an electromagnet associated with each of said type bar linkage systems between which and said power roll said cams are interposed, an armature for each of said magnets mounted for movement toward and away from said power roll, an operating rod extending between each of said type bar linkage systems and its associated armature, said rods being guided for movement into operative contact with their associated cams whereby the same are moved into operative contact with said power r011 upon energization of their associated electromagnets, means for moving the cam of said machine function linkage system into operative contact with said power roll each time one of said type bar linkage systems is operated, an armature knock-01f bail, and means under control of said machine function linkage system for operating said knock-off bail each time
  • a control mechanism comprising an electromagnet associated with each of said type bar linkage systems between which and said power roll said cams are interposed, an armature for each of said magnets mounted for movement toward and away from said power roll, an operating rod extending between each of said type bar linkage systems and its associated armature, said rods being guided for movement into operative contact with their associated cams whereby the same are moved into operative contact with said power roll upon energization of their associated electromagnets, a rock shaft, a bail associated with said shaft, means for rocking said bail whenever a typebar is operated, means connecting said bail to said machine function cam for tripping the same into contact with said powerroll, and means connecting said machine function
  • a control mechanism comprising an electromagnet associated with each of said type bar linkage systems between which and said power roll said cams are interposed, an armature for each of said magnets mounted for movement toward and away from said power roll, a mechanically independent operating rod extending between each of said type bar linkage cams and its associated armature, said rods being guided for longitudinal movement into operative contact with their associated cams whereby the same are moved into operative contact with said power roll upon energization of their associated electromagnets, means for moving the cam of said machine function linkage system into operative contact with said power roll each time one of said type bar linkage systems is operated, an armature knock-oil" bail, a rock shaft, means under control of said machine function linkage system for operating said

Description

Aug. 24, 1954 K. s. GOODALE ETAL MAGNET UNIT FOR OPERATING TYPEWRITERS 3 Sheet-s -Sheet 1 Filed Dec. 21, 1950 E 8% M Y Wu m 1/ HL n m MMW MP W Aug. 24, 1954 K. s. GOODALE ETAL MAGNET UNIT FOR OPERATING TYPEWRIIERS 3 Sheets-Sheet 2 Filed Dec. 21, 1950 INVENTORS K E NNE TH DANA L flu/M S. GGODALE KILCREASE IATITORNEY 1954 K- s. GOODALE arm. 2,637,199
MAGNET UNIT FOR OPERATING TYPEWRITERS Filed Dec. 21, 1950 3 Sheets-Sheet 5 INVENTORS KENNETH S. GOODALE DANA L KILOREASE ATTORNEY FIG. 3.
power roller.
Patented Aug. 24, 1954 UNITED .sTATEs rATENT OFFICE MAGNET UNIT FOR OPERATING TYPEWRITERS Kenneth S. Goodale, Ilion, and Dana L. Kilcrease, Poughkeepsie, N. Y., assignors to International Business Machines Corporation, New York, N. Y., a corporation of New York Application December 21, 1950, Serial No. 201,898
8 Claims. (01. 197-19) It is a specific object of the invention to provide in an eletromagnetic control mechanism 'for power operated typewriters a series of electromagnets each in control of a related type bar operating assembly and to provide means operative upon each type bar operation to recondition the electromagnetic control devices for positive operation on succeeding printing strokes of the type bar mechanism.
It is conventional to provide power operating means for typewriters wherein a type bar operating linkage is provided and wherein such linkage is powered for producing a printing stroke of the type bar by moving a power cam mechanism associated with the type bar linkage into operative relation with a constantly rotating Heretofore the automatic selection of the respective type bar operating mechanisms has involved the simultaneous movement of related key levers. In accordance with the present invention the electromagnetic control mechanism provided herein operates independ ently of key lever action in that an electromagnetic trip device is provided in operative relation with each one of the type bar actuating assemblies. As a consequence, the structure is such that the keyboard may be manually operated without in any way influencing the automatic electromagnetic operating mechanism, and the electromagnetic operating mechanism is so disposed and related to the type baroperating assemblies that the power cam units thereof are directly tripped by the electromagnetic control devices without many way disturbing or otherwise influencing the normal manual operating mechanism of the keyboard.
l The objects and advantages of the invention disclosed herein will become fully apparent as the detailed description thereof is read in conjunction with the drawings forming a part of this application and in which drawings:
Fig. 1 is a view partially in section and partially in full line of certain parts of a power operated typewriter showing a type bar, manual type bar operating levers and electromagnetic mechanism for the control of the type bars;
the typewriter control mechanism. l The printing action of the typewriter illus- Fig. 2 is a side elevational view of the power operated typewriterof Fig. l with portions of the casing and side frame broken away to show certain underlying structure pertaining to power operated ribbon feed and lift mechanism and electromagnetic type action control linkage;
Fig. 3 is a transverse horizontal view, partly in section, through the power drive and control mechanism of the typewriter of Figs. 1 and 2, parts being broken away to show underlying structure; and
Fig. 4 is a broken, front, elevational View of themagnet unit forming an important part 0 trated herein and to which the present improvements are applied is adapted for power operation under the influence of a constantly rotating power roller II] which is driven in any well known manner, as by an electric motor (not shown). Each type face I2 is carried by a type bar l4 which is adapted to be operated into impression making contact with a record receiving sheet trained about a platen l6. Each type bar it is pivoted on a type bar segment wire l8 about which it is rocked under the influence of a sub-lever 20 to which it is connected by means of a link 22. Each sub-lever 2B is adapted for operation by a power cam 24 which is pivoted to its sub-lever by means of a pivot stud 26. The sub-levers 20 and the power cams 24 are normally, i. e. in inoperative condition, so disposed that a serrated surface 28 on each cam 24 is slightly spaced from the rotating power roller It). This position of the cams 24 is maintained by means of an associated spring 39 which has one end thereof attached to its cam at a point above the pivot stud 26 and which has its other end attached to a forwardly projecting portion of its sub-lever 20. As a consequence of the spring tension, the cams are normally biased about their pivot point 26 in a counterclockwise direction to such an extent as to provide a small space-between the serrated surface 28 of the cams and the peripheral surface of the power roller l0.
The upper end of each sub-lever 20 has a projecting car 32 from which extends a lateral stud it which is adapted to engage in an elongated slot 36 formed in an upstanding ear of a release member 38, the opposite end of the release memher being embraced by an inturned car 40 in the upper end or the forwardly projecting, portion of its sub-lever 20. A spring 42 tends to hold the release member 38 in its forwardly disposed position. A manually operable key lever 44 is pivoted for operative contact with each release member 3 38 whereby downward movement thereof will rock the associated cam 28 in a clockwise direction to project its serrated surface 28 into contact with the power roller 10. Whenever the serrated surface 28 of a cam 24 is brought into contact with the continuously rotating power roller I 0, the cam 24 will be rocked in a clockwise direction and because of the eccentricity thereof the point of connection between the sub-lever and the cam 24 will be moved forwardly, thereby rocking the sub-lever 20 about its pivot point 46. Such motion is, of course, effective to rock the sub-lever 2c in a clockwise direction and through the link 22 rock the type bar HS in a counterclockwise direction about its pivot wire [8, thereby imparting a printing stroke to the type bar.
As hereinbefore stated this invention relates primarily to electrically controlled typewriters of the class wherein electric impulses representative of characters are provided for energizing electromagnets which control related power cams to cause the typing or printing operation. It is the specific purpose of this invention to provide in such typewriters an electromagnetic control for each of the character key cams, and to this end there is provided :a frame member 48 which is in the form of a generally U-shaped channel and which includes mounting ears 50 at the ends thereof by means of which the channel may be "attached to the side frames of the typewriter with its open side facing toward the front or keyboard end of the typewriter. Within the channel 48 are disposed a plurality of magnets 52, one such magnet for each of the character operating cams 24. .As best seen in Fig. 4 of the drawing the magnets 52 are disposed in two rows in the frame 48 and the magnets of one row are staggered in respect to the magnets of the other row.
This is a convenient arrangement by means of which the magnets are assembled in a unit which is so compact as to fit in the limited space available at the front of the typewriter. The magnets 52 are selectively energized in any of the several ways that are known in the art to cause the printing of characters and ,to perform the necessary machine functions during the course of the composition.
To the top and bottom outer faces of the sup- .porting frame 48 are afiixed armature pivotplates 54 upon which the armatures 5B are pivotally mounted. In this manner there are provided two staggered rows of armatures having the outer ends thereof pivoted in their related pivot plate 54 and having their free inner ends adjacent each other but in staggered and overlapping relation in an endwise direction. A spring 58 attached to the outwardly projecting end of each armature 26 and anchored at a spring lug 60 formed in the pivot plate 54 serves to hold its armature 56 away from its related magnet when such magnet is deenergized. A brass strip 62 which is attached to the ends of the armature frame 48, and which is disposed across the overlapping free ends .of the armatures and in somewhat .outwardly spaced relation thereto, serves to limit the rocking motion of the armatures in a direction away from their related magnets under the influence of the spring 58.
Each armature 56 has associated therewith a cam operating rod 64. :The .rod 64 has one end thereof in contact with its related armature and the other end thereof in contact with :its related operating cam '24. Therod :64 passes through a slot in the wall ofthe magnet frame 48 and through a slotted guide plate 66 which is carried by a frame member 68 fixed to the side walls of the typewriter frame and in a position directly in front of the sub-levers 20 and the operating cams 24. Each rod 64 is normally urged into an inoperative position with its forward end in contact with its related armature 56 by means of a spring it) which has one end thereof in contact with a portion of the magnet frame 48 and the opposite end thereof in contact with a collar 12 fixed to the forward end of the rod.
It will be seen from the foregoing that whenever one .of the .magnets 52 is energized and its related armature 56 is attracted thereto, the
rocking motion of the armature is transmitted through its related cam operating rod 84 whereby the cam 24 is rocked about its pivot point 26. This movement projects the serrated face 28 of the cam into contact with the rotating power roller 16 and the sub-lever 20,, and its related type bar It is therefore operated through a printing stroke as previously described. It is, of course, understood that a magnet 52 is provided for each of the type bar assemblies, and that an operating rod $4 is provided for each of the cams 2 associated with the respective type bar operating assemblies.
One of the important featuresof this invention contemplates the provision of an armature knock-off mechanism which is automatically operable each time a type bar is operated under the control of one of the electromagnets. To the end that such knock-off mechanism may be .efiectively provided, the -magnet frame 148 pivot- .ally supports a knock-off bail M which is in the shape of .a relatively wide inverted U. The bail '54, therefore, includes a generally horizontal portion which is located at the overlapping zone of the several armatures 56, and on the rear-side of such armatures. The bail also provides a pair of downwardly extending legs 76, one at each end thereof, and the free ends of these legs are pivoted on studs 18 fixed to the magnet frame 48. As a consequence of this arrangement, the bail 14 may be rocked on .its pivots '18 to bring .it .into contact with :the free ends of the several .armatures, thereby forcing such armatures away from the related magnet cores. This operation is useful and in many cases necessary in over- :ooming residual core ma netism. Each end of the bail 14 has attached thereto the forward end of an operating link which extends rearwardly .to a point adjacent .a ribbon lift bail shaft 82. The ribbon lift bail shaft 82 extends transversely of the typewriter structure and is mounted for rocking movement on pivot studs 8 1 (Fig. .3). .Mountedon the ribbon lift bail shaft and adapted for relative rocking movement in respect thereto is a ribbon lift bail sleeve 86, and extending upwardly from the ribbon lift bail sleeve is a ribbon lift bail 88. The ribbon lift bail 88 extends .upwardly into the zone of influence of a downwardly extending hook-like projection 90 formed in the sub-lever 20. Each time a sub-lever 26 is rocked through an operating movement, the hook-like portion 98 thereof engages the ribbon lift bail 88, and thereby rocks that bail in a counterclockwise direction to lift the typewriter ribbon into impression position between the type face and a record sheet on the platen .18. The structure .and operation of the ribbon ilift linkage adapted for operation by the bail 88 is well known in the art and it is, therefore, not illustrated in the drawings.
By reference to Fig. 2 of the drawings it will be fingers II2a and H22; (see Fig. 2).
seen that one end of the ribbon lift bail sleeve has a plate 92 attached thereto and extending therefrom. Pivoted to the plate 92 is a ribbon lift cam link 04 which extends upwardly, and has its upper end linked to a ribbon lift cam release lever 06. The lever 96 is mounted for rocking movement on a ribbon lift cam lever 98 by means of a pivot stud I00. The lever 98 is mounted for rocking movement on a pivot shaft I02 which extends inwardly from the side wall of the typewriter frame. Near the outer free end of the ribbon lift cam lever is a drive cam I04 which is of conventional construction and which is adapted to rock on a pivot pin I06 which is carried by the lever 98. The cam release lever 96 extends rearwardly beyond its pivot point I00 into juxtaposition with the cam I04 so that when the cam release lever 96 is rocked in a clockwise direction about its pivot point the free end of the lever will engage a lug I00 and rock the cam I 04 into contact with the power roller I0. Because of the eccentricity of the cam I04 its contact with the roller III will serve to rock the ribbon lift lever. 90 in a clockwise direction about its pivot shaft I02 to supply operating power for theribbon lift mechanism. A ribbon feed link I I0, at each end of the ribbon lift bail shaft 82, is actuated to operate associated ribbon feed mechanism.
To each end of the ribbon lift bail shaft is secured a plate II2 having oppositely extending The aforementioned ribbon feed links IIO are secured to the free ends of the arms I I2a, while the rear ends of the knock-off bail operating links 80 I are attached respectively to the arm II2b. The forward ends of the bail operating links 00, as stated before, are attached to the knock-01f bail T4. A ribbon lift bail shaft operating link H6 interconnects the ribbon lift cam arm 98 and the finger II 2a of the plate H2 at the right of the typewriter as shown in Fig. 2.
It is a characteristic of the foregoing construction, therefore, that each time a type bar assembly is operated, the ribbon lift bail 88 will be rocked, thereby rocking the plate 92 attached to one end thereof, and the link 94 will be pulled down to rock the cam release lever 96 about its pivot in a clockwise direction. This will serve to rotate the cam I04 in a counterclockwise direction and it, through contact with the operating roller I0, will rock the ribbon lift cam lever 03 about its pivot rod I02 in a clockwise direction. Because of the connecting link II6 between the ribbon lift camarm 98 and the plate I i2 attached to the end of the ribbon lift bail shaft, such shaft will be rocked in a counterclockwise direction on its pivot points 84. As a consequence, the knockoff bail operating links 80 will be pushed for- Wardly, and the knock-off bail I4 will be forced into contact with the armatures 50, thereby releasing any armature that may be stuck to its related magnet. 7
By reference to Fig. 3 of the drawings it will be "seen that a rock plate H2 is provided at each under the positive influence of an operating link 80.
From a consideration of the foregoing detailed description it is clear that this invention pro- 6. forpositively insuring the regular operation of the electromagnetic control devices.
The invention has been disclosed herein in a specific, exemplary embodiment, and it is contemplated that the structure may be altered in such respects as may be necessary to adapt the same to power driven typewriters of various types and models without departing from the essential teaching of the disclosure of this application.
We claim:
1. In combination with a power operated typewriter having a power roll, type bar and machine function linkage systems adapted for operation when coupled with said power roll, and a power cam carried by each. of said systems in spaced relation to said power roll and mounted for movement into driving relation therewith, a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, an armature for each of said magnets, and a mechanically independent operating rod extending between each of said cams and an associated armature, said rod being guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet.
2. In combination with a power operated typewriter having a power roll, type bar and machine function linkage systems adapted for operation when coupled with said power roll, and a power cam carried by each of said systems in spaced relation to said power roll and mounted for movement into driving relation therewith, a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, said electromagnets being disposed with their axes perpendicular to the axis of said power roll, an armature for each of said magnets mounted for movement toward and away from said power roll, and a mechanically independent guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet.
3. In combination with a power operated typewriter having a power roll, type bar and machine function linkage systems adapted for operation when coupled with said power roll, and a power cam carried by each of said systems in spaced relation to said power roll and mounted for movement into driving relation therewith, a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, an armature for each of said magnets, an operating rod extending between each of said cams and an associated armature, and a guide plate positioned adjacent said cams, said rod being guided in said plate for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet.
4. In combination with a power operated typewriter having a power roll, type bar and machine function linkage system adapted for operation when coupled with said power roll, and a power cam carried by each of said systems in spaced relation to said power roll and mounted for movement into driving relation therewith, a control mechanism comprising a series of electromagnets between which and said power roll said cams are interposed, an armature for each of said magnets, an operating rod extending between each of said cams and an associated armature, said rod being guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet, and a knock-01f device for said armatures.
5. in combination with a power operated typewriter having a power roll, a ribbon lift cam assembly operable by said power roll following each type bar operation, type bar and machine function linkage systems adapted for operation when coupled with said power roll, and a power cam carried by each of said systems in spaced relation to said power roll and mounted for movement into driving relation therewith, a control mechanism comprising a series of electromagnets between which and said power roll said camsare interposed, an armature for each of said magnets, an operating rod extending between each of said cams and an associated armature, said rod being guided for longitudinal movement into direct operative contact with its associated cam whereby the same is moved into operative contact with said power roll upon energization of its associated electromagnet, a knock-off bail common to said armatures, and means interconnecting said bail and said ribbon lift cam assembly whereby said bail is operated when said cam assembly is operated by said power roll.
6. In combination with a power operated typewriter having a power roll, type bar linkage systems and a machine function linkage system adapt-ed for operation when coupled with said power roll, and a power cam carried by each of said systems in spaced relation to said power roll and mounted for movement into driving relation therewith, a control mechanism comprising an electromagnet associated with each of said type bar linkage systems between which and said power roll said cams are interposed, an armature for each of said magnets mounted for movement toward and away from said power roll, an operating rod extending between each of said type bar linkage systems and its associated armature, said rods being guided for movement into operative contact with their associated cams whereby the same are moved into operative contact with said power r011 upon energization of their associated electromagnets, means for moving the cam of said machine function linkage system into operative contact with said power roll each time one of said type bar linkage systems is operated, an armature knock-01f bail, and means under control of said machine function linkage system for operating said knock-off bail each time said last named linkage system is actuated.
7. In combination with a power operated typewriter having a power roll, type bar linkage systems and a machine function linkage system adapted for operation when coupled with said power roll, and a power cam carried by each of said systems in spaced relation to said power roll and mounted fOfll'lOVGlllSllt into driving relation therewith, a control mechanism comprising an electromagnet associated with each of said type bar linkage systems between which and said power roll said cams are interposed, an armature for each of said magnets mounted for movement toward and away from said power roll, an operating rod extending between each of said type bar linkage systems and its associated armature, said rods being guided for movement into operative contact with their associated cams whereby the same are moved into operative contact with said power roll upon energization of their associated electromagnets, a rock shaft, a bail associated with said shaft, means for rocking said bail whenever a typebar is operated, means connecting said bail to said machine function cam for tripping the same into contact with said powerroll, and means connecting said machine function linkage system to said rock shaft whereby the latter is rock-ed when said machine function linkage system is operated.
8. In combination with a power operated typewriter having a power roll, type bar linkage systems and a machine function linkage system adapted for operation when coupled with said power roll, and a power cam carried by each of said systems spaced relation to said power roll and mounted for movement into driving relation therewith, a control mechanism comprising an electromagnet associated with each of said type bar linkage systems between which and said power roll said cams are interposed, an armature for each of said magnets mounted for movement toward and away from said power roll, a mechanically independent operating rod extending between each of said type bar linkage cams and its associated armature, said rods being guided for longitudinal movement into operative contact with their associated cams whereby the same are moved into operative contact with said power roll upon energization of their associated electromagnets, means for moving the cam of said machine function linkage system into operative contact with said power roll each time one of said type bar linkage systems is operated, an armature knock-oil" bail, a rock shaft, means under control of said machine function linkage system for operating said rock shaft each time said last named linkage system is actuated, and means interconnecting said rock shaft .and said knock-oil bail whereby the latter is rocked whenever said rock shaft is operated by said machine function linkage system.
References Cited in the file of this patent Lin-an
US201898A 1950-12-21 1950-12-21 Magnet unit for operating typewriters Expired - Lifetime US2687199A (en)

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2919004A (en) * 1958-03-12 1959-12-29 Henatsch Reynold Typewriters
US2919003A (en) * 1955-11-25 1959-12-29 Ibm Consecutive serial numbering device
DE1110183B (en) * 1954-10-25 1961-07-06 Adlerwerke Kleyer Ag H Device for changing the key stroke on power-driven typewriters and similar machines
DE1130454B (en) * 1958-11-04 1962-05-30 Oskar Vierling Dr Electric typewriter that can be used either as a transmitter or receiver machine
US3115620A (en) * 1959-04-09 1963-12-24 Ibm Sequential typewriter magnetic tape recording and checking apparatus
DE1203803B (en) * 1963-04-10 1965-10-28 Olympia Werke Ag Selection device for type lever drives on power-operated typewriters
US3372788A (en) * 1966-07-22 1968-03-12 Dura Corp Printer functional operation control means
US3452852A (en) * 1966-05-27 1969-07-01 Kienzle Apparate Gmbh Remote controlled operating arrangement for typewriters
DE1561254B1 (en) * 1966-05-27 1971-12-23 Kienzle Apparate Gmbh DEVICE FOR THE AUTOMATIC TYPING OF INFORMATION BY ADDITIONAL CONTROL OF THE MODEL LEVER DRIVES IN AN ELECTRIC TYPEWRITER

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Publication number Priority date Publication date Assignee Title
US1420311A (en) * 1922-06-20 Cash-register system
US1945836A (en) * 1931-05-23 1934-02-06 Electromatic Typewriters Inc Typewriting machine
US2079425A (en) * 1933-12-18 1937-05-04 Ibm Typewriting machine

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1420311A (en) * 1922-06-20 Cash-register system
US1945836A (en) * 1931-05-23 1934-02-06 Electromatic Typewriters Inc Typewriting machine
US2079425A (en) * 1933-12-18 1937-05-04 Ibm Typewriting machine

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1110183B (en) * 1954-10-25 1961-07-06 Adlerwerke Kleyer Ag H Device for changing the key stroke on power-driven typewriters and similar machines
US2919003A (en) * 1955-11-25 1959-12-29 Ibm Consecutive serial numbering device
US2919004A (en) * 1958-03-12 1959-12-29 Henatsch Reynold Typewriters
DE1130454B (en) * 1958-11-04 1962-05-30 Oskar Vierling Dr Electric typewriter that can be used either as a transmitter or receiver machine
US3115620A (en) * 1959-04-09 1963-12-24 Ibm Sequential typewriter magnetic tape recording and checking apparatus
DE1203803B (en) * 1963-04-10 1965-10-28 Olympia Werke Ag Selection device for type lever drives on power-operated typewriters
US3452852A (en) * 1966-05-27 1969-07-01 Kienzle Apparate Gmbh Remote controlled operating arrangement for typewriters
DE1561254B1 (en) * 1966-05-27 1971-12-23 Kienzle Apparate Gmbh DEVICE FOR THE AUTOMATIC TYPING OF INFORMATION BY ADDITIONAL CONTROL OF THE MODEL LEVER DRIVES IN AN ELECTRIC TYPEWRITER
US3372788A (en) * 1966-07-22 1968-03-12 Dura Corp Printer functional operation control means

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