IL23744A - Expand device for proportional escapement typewriters - Google Patents
Expand device for proportional escapement typewritersInfo
- Publication number
- IL23744A IL23744A IL23744A IL2374465A IL23744A IL 23744 A IL23744 A IL 23744A IL 23744 A IL23744 A IL 23744A IL 2374465 A IL2374465 A IL 2374465A IL 23744 A IL23744 A IL 23744A
- Authority
- IL
- Israel
- Prior art keywords
- lever
- unit
- escapement
- spacebar
- expand
- Prior art date
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J19/00—Character- or line-spacing mechanisms
- B41J19/18—Character-spacing or back-spacing mechanisms; Carriage return or release devices therefor
- B41J19/34—Escapement-feed character-spacing mechanisms
- B41J19/58—Differential or variable-spacing arrangements
Landscapes
- Transmission Devices (AREA)
- Accessory Devices And Overall Control Thereof (AREA)
- Ship Loading And Unloading (AREA)
- Types And Forms Of Lifts (AREA)
- Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)
- Portable Nailing Machines And Staplers (AREA)
- Mechanical Control Devices (AREA)
Description
PATENTS AND DESIGNS ORDINANCE SPECIFICATION Expand, device for proportional eecapement typewriters »ji»sn Bnn nana I (we) I$IBR TIQ L BOSISiSS HACHIftES CORPOSATION, a corporation organised tinder the laws of the State of Hew York, of Armonk, Hew York 10504, U.S.A. do hereby declare the nature of this invention and in what manner the same is to be performed, to be particularly described and ascertained in and by the following statement :- EXPAND DEVICE FOB PROPORTIONAL ESCAPEMENT TYPEWRITE This invention relates to spacing devices for use with proportional escapement typewriters and in particular to devices of this general type which provide variable amounts of spacing between the typed characters .
Currently, the spacing means with which most proportional escapement typewriters are provided are of two general types . The first type comprises one or more spacing keys , or "spacebars" as they are frequently termed. The spacebars are located on the keyboar and, when actuated by the typist, produce specified different units of carriage escapement or spacing between the characters . The number of spacebars and the amount of carriage escapement obtainable by depressing a particular one of the spacebars can vary depending on the construction of the particular typewriter. While such variation in spacing and number of spacebars is possible, by far the greatest number of typewriters in use are provided with only two spacebars which produce 2 units of space and 3 units of space, respectively. An example of such a machine is the IBM EXECUTIVE Typewriter - Mode C-4.
Summarizing, the first type of character spacing means widely used in proportional escapement typewriters comprises a pair of spacebars located on the keyboard. The depression of the spacebars produces either 2 units or 3 units of space depending on the particular spacebar depressed.
The second type of spacing means common to most types of proportional escapement typewriters is the "keyboard expand" feature.
This feature, often manifested by a bistable depressabi lever mounted ?· on the keyboard, permits the automatic insertion of an extra unit of space after each printed character and after each spacebar spacing 4 operation. For example, when the keyboard expand feature ia utilized, depression of the letter key designated "o" will produce a 4 unit carriage ή escapement of the usual 3 unit escapement characterxetic of the letter 7 ' o", an extra unit of spacing having been automatically added. The 6 same "expanded' action results from depression of a spaceba r, e . g. , 9 depression of the 3 unit spacebar produces a 4 unit carriage escapement.
Summarizing, the second spacing feature common to mcs* 1 1 proportional escapement typewriters is the keyboard expand means 12 which automatically adds an extra unit of escapement to all carriage 13 excapements whether they be due to the printing of a character o the 14 depression of one of the two spacebars .
While the provision of the two previously noted s acing . ea. s, £6 the spacebar spacing and keyboard expand features, has in gener l 17 been of aid to the typist, substantial deficiencies still exists in the i prior art typewriters . For example, often the typist finds it i:.eees~ 19 sary to maintain the normal character spacing, that is, to type with- 20 out adding an extra unit of spacing between characters, but desiras ?. l that the spacing be expanded between the words . Stated differently, 22 the typist desires the use of the keyboard expand feature only while 23 spacing using the spacebar, but desires normal, unexpanded spacing 2 between printed characters . Most frequently, this type of operation is encountered in statistical typing. Here the typist, who is typing 26 vertical columns of numbers, desires that there be normal spacing 1 1. 13 -2- between the digits comprising the numbers, but that th pacing between numbers, which in actuality is the intercolumn spacing be expanded. Another application where expanded spacebar spacing, but normal character spacing, is desired is in the preparation of material for subsequent printing wherein it is necessary that tha right hand margins be blocked.
This type of operation, i. e. , expanded spacebar spacing, while possible with the present spacing features found on con ent o a typewriters, can only be achieved with some inconvenience nd lcs? of typing speed. Specifically, if the typist desires normal spaci g for the characters, but expanded spacing for the spacebar operations, it would necessitate the actuation of the keyboard expand feature each time expanded spacebar spacing is desired, i. e. , when the s c bar is actuated, and deactuation of the keyboard feature each tin ¾: j-raai character spacing in desired, i. e. , when the character I ti l i e are actuated. This constant actuation and deactuation of the keyboard expand feature Is extremely time consuming. To leave the keyboard expand feature actuated for both the spacebar spacing and the character printing operations, while more convenient than periodically actuating and deactuating it, would result in added units of space being added to all operations and this is exactly what is not desired in a great many instances. Thus, it is readily apparent that when expanded spacing is desired, only for the spacebar spacing operations, it would be grossly wasteful om a standpoint of typing speed to have to actuate the keyboard expand feature each time it is desired to use the spacebar.
Summarizing, the proportional escapement typewriters of today 1 provide different degrees of carriage escapement when ujpr?;: t d, 2 and b) keyboard expand means which, when actuated, automatically 3 insert an extra unit of space into all carriage encape .crit3. Coilec- tively, these two spacing features, while being capable cf handling many of the commonly desired spacing operations, fail to c cle entl 6 provide for the situation where it is deeired to expand only trie space- 7 bar spacing while leaving the spacing between characters un nccted. 8 It is therefore an object of this invention to provide an improved ·? spacebar spacing mechanism for a proportional escapement typewriter which overcomes the above-mentioned shortcomings of the prior art. 1 1 It is another object of this invention to provide a new ar. ...sell 2 ful spacebar space expand mechanism for a proportional escapement li typewriter which once set permits expanded spacing for spacebar operations and normal spacing for character printing operations .
It is yet another object of this invention to provide a simple, 16 compact, and durable spacebar space expand mechanism for ro-\ 7 portional escapement typewriter. ii'i It is still another object of this invention to provide a spacebar 19 space expand mechanism in a proportional escapement typewriter which is independent of, compatible with, and supplements the exist- 21 ing spacing and expanding functions . 22 A still further object of this invention is the provision of a pro- 23 portional escapement typewriter with a spacebar space expand mechanism 24 which does not alter or modify the operation of the conventional key- 25 board expand and spacebar spacing mechanisms . 26 A still further object of this invention is the provision of a 1 spacebar space expand mechanism which does not directly actuate the 2 escapement mechanism. 3 Therefore, in accordance with one aspect of this invention, I 4 provide a novel combination comprising a bail actuating means and an expanding means, which permit selective expansion of the spa c ebar 6 spacing when used in conjunction with a conventional proportion l 7 escapement typewriter having a variable escapement median? : .-> ■. a plurality of moveable bails mechanically linked to the escapement 9 mechanism for producing varying degrees of eecapement when motion is imparted to them; and a first, second and third keylever mechanism. 1 1 The bail actuating means, which are connected between the \>?Alt: and 12 the first and second keylever mechanisms, respond to the actr ion -. 3 of at least one of the first or second keylever mechanisms to eelec-* i tively impart motion to at least one of the bails thereby producing a specified eecapement of the carriage. The expanding means, which 16 are connected to the bail actuating means and the third keylever 17 mechanism, are responsive to the actuation of the third keyleve 18 mechanism to alter the eecapement normally produced when the bails 19 are actuated by the first and second keylever mechanisms . 0 In accordance with a further aspect of this invention, I provide 1 a first and a second bail which are mechanically linked to the eecapement 2 mechanism of a proportional eecapement typewriter and which, when 3 actuated, produce specified different amounts of carriage e scapement . 4 Keyboard means including a first, a second, and an expand keylever 5 mechanism connected to the bails via a motion converting means are 6 further provided to actuate the bails . Specifically, actuation of the 1 1 1 - - i second keylever mechanism or the combined actuat ion of the fi rst I and expand keylever mechanisms is converted to motion of the first 3 bail; and the combined actuation of the second and expand keylever 4 mechanisms is converted to motion of the second bail.
In accordance with a still further aspect of this invention, I a provide the movel combination of an expand means and an expand 7 keylever mechanism which permit selective expansion of spacebar 8 spacing when used in conjunction with a proportional escapement type- 9 writer having a variable escapement mechanism and first and second bails mechanically linked thereto for producing specified different I degrees of escapement; a driving element mounted for limited raove- 12 ment in response to the actuation of a first or second keylever 13 mechanism connected thereto; and, a first element disposed in mo- 14 tion imparting' relationship to the first bail and which receives its motion from the driving element for actuating the first bail i» response 16 to the second keylever- The expand means includes a bail actuating 17 means which is disposed in motion-imparting relationship to the first 38 and second bails and in motion- receiving relationship with the first 19 element and the driving element. The expand keylever mechanism is connected to the expand means and is operative to effect the move- 21 ment of the first and second bails in response to the combined actuation 22 of the first and expand keylever mechanisms and the second and expand 23 keylever mechanisms,, respectively. 24 In accordance with yet another aspect of this invention, I provide a novel combination of elements and means for selectively actuating 26 the bails of a proportional eecapement typewriter having first and second 1 1 136 -6- keys and having first and second bails mechanically linked to a vari-able escapement mechanism for producing different degrees of carriage escapement. The novel combination comprises a first eie-ment having first and second motion-imparting extensions) thereon.
This element is mechanically linked to the keys and movable in response to the actuation thereof. The second element of the combination is disposed in motion-imparting relationship with the first bail and has a third motion- imparting extension thereon. In addition to the first and second elements, the combination also includes means linked to the second key which is selectively interposable between the second and third extensions in roaponse to the actuation of the second key.
Thic interposable means transmits motion between the second and third extensions thereby imparting motion to the second element and the first bail. Alao provided are third and fourth elements disposed in motion-imparting relationship with the first and second bails* respectively, and having fourth and fifth motion- receiving extensions, respectively. An expand means mechanically linked with the third and fourth elementa selectively positions them in motion- eceiving relationship with the first and third motion- imparting extensions, respectively, in response to the combined actuation of the first key and expand means and the second key and the expand means, respectively, to thereby impart motion to the first and second bails, respectively.
One of the many advantages flowing from this invention is that the spacebar space expand feature can be incorporated into proportional escapement typewriters equipped with the conventional spacebar and keyboard expand features without mechanical interference therewith.
- - Another advantage its that the spacebar space expand mec ani c rn is simply constructed and does not require the use of parts manufactured to extremely high tolerances . In addition to the above two advantages, o. further advantage of the invention is that it is relatively trouble* free over extended periods of use and requires an a solute minimum of maintenance. Still another advantage is that the typist is provided with a machine having greater flexibility without compromising speed. The foregoing and other objects, features and advantage s of the invention will be apparent from the following more particular descrip- tion of a preferred embodiment of the invention, as illustrated in the accompanying drawings .
In the drawings wherein like numerals indicate like elements, FIG . 1 depicts a schematic in perspective as viewed from be- neath the machine of the spacebar spacing mechanism found currently on many proportional escapement typewriters to which may be added the spacebar epace expand mechanism of this invention.
FIC. 2 depicts an exploded view taken from the left side of the machine looking toward the front, in perspective, of the conventional spacebar mechanism provided with the spacebar space expanding mechanism constructed in accordance with this invention.
FIGS. 3 (a) -3(e) depict the 3 unit spacebar space expand mechan- - ism of the invention in various operative positions as viewed from f, the left side of the machine .
FIGS. 4(a)~4(e) depict the 2 unit spacebar space expand mechan- iem of the invention in various operative positions as viewed from the left side of the machine .
PRIOR ART: Spacebar Spacing Feature A thorough understanding of a typical spacebar mechanism in wide- spread use today is deemed useful as an aid to understanding applicant's opacebar space expanding mechanism. Henc -, with this in mind, a brief explanation of the structure and operation of the prior art spacebar mechanism will presently follow . However, it will be understood by those skilled in the art that the exemplary prior art spacebar mechanism depicted in FIG. 1 is only one variety of spacebar mechanisms to which applicant's spacebar space expanding mechanism may be added. Therefore, it is understood that applicant does not intend to limit the application of his expanding mechanism to use only with the spacebar mechanism depicted in FIG. 1, but intends that it be used with other spacebar mechanisms having similar structural and operational characteristics.
Again referring to FIG. 1, the inputs to the spacing mechanism, comprising a pair of spacebars 2 and 3, are illustrated. The spacebars 2 and 3 are mechanically linked, in a manner to be hereinafter described, to a carriage escapement mechanism (not shown) oo as to produce 2 and 3 units of carriage escapement, respectively, when depressed by the typist. The 2 unit spacebar 2 is supported by brackets 6 and 8 which are fastened to the bottom surface of the spacebar by conventional screw fasteners. Each of the brackets 6 and 8 is provided with an extension which is adapted to grip an equalizing rod 10. The equalizing rod 10 has an offset at each end and is adapted to rotate in the typewriter frame generally indicated as element 12. The right hand bracket 8 supporting the 2 unit spacebar 2, in addition to being connected to the equalizing rod 2, is also connected by suitable screw fasteners to a lever 14- The lever 14, provided at its one end with a hole, is mounted on the type riter frame 12 for pivotal motion about a rod 16. A teneion spring 18 connected to the lever 14 and a station-ary portion of the typewriter frame (not shown) biases the pivotal lever 14 in an upward direction. The spacebar 2, through the bracket 8, is also biased in an upward direction by the spring 18. The equal -izing rod 10, which, as has already been noted, is mounted for rota-tional motion, is biased in the clockwise sense also by the spring 18. The spring 18 acts through the supporting brackets 6 and 8, which grip the equalizing rod 10, to thereby transfer the biaeing motion of the lever 14 to the rod.
Summarizing, the 2 unit spacebar 2 is supported and i sed / upwardly by a pair of brackets 6 and 8. The brackets 6 and 8 are connected to and biased upwardly by a lever 14, the lever it t lf being pivotally mounted at its one end and having its other end upwardly biased by the tension spring 18. The spacebar 2, acting through the brackets 6 and 8, is adapted to rotate the equalizing rod in a counter-clockwise sense when it is depressed by the typist.
The other spacebar 3 is a 3 unit spacebar, and like the 2 unit spacebar 2, is mechanically linked to a carriage escapement mechan-ism (not shown) . However, actuation of the 3 unit spacebar 3 produces, in a manner to be described hereinafter, 3 units of carriage escape-ment. The 3 unit spacebar 3 is fastened to a transverse lever 20.
The transverse lever 20 is mounted on the frame for pivotal movement about a rod 22, and when the spacebar 3 is depressed, it pivots .
Fastened to the transverse lever 20 is another lever 24. Lever 24, like lever 14, has at its one end a hole and is pivotally mounted to the typewriter frame 12 and adapted for movement about a rod 26. Lever 24, which is normally biased upwardly by a tension spring 30 attached to the typewriter frame, has an extension 28. When the 3 unit spacebar 3 is depressed overcoming the tension of the spring 30, both levers 20 and 24 pivot about their respective rods 22 and 26 with the result that extension 28 is lowered. Also connected to the' lever 24 is an interposer link 34 the purpose of which will be diecussed hereinafter. For the meantime, all that is necessary is knowledge of the fact that when the 3 unit spacebar 3 is depressed, the interposer link 34 is lowered.
Summarizing, the conventional proportional escapement typewriter is provided with two spacebars 2 and 3. Depression of the 2 unit spacebar 2 causes the rotation of the equalising rod 10. Depression of the 3 unit spacebar results in the lowering of extension 28 and the interposer link 34.
Adapted to respond to the motion of the equalizing rod 10 and the extension 28, is a lever 32. Lever 32, like levers 14 and 24, has a hole at one end and is mounted on the frame 12 for pivotal movement about the rod 36. The lever 32, which ie upwardly biased by a spring 38, pivots downwardly in response to the downward motion of extension 28 and equalizing rod 10 caused by depression of the spacebars 3 and 2, respectively. A cam release link 40 is attached to the lever 32 and is urged downwardly each time lever 32 is caused to pivot under the action of one of the spacebars 2 or 3.
Attached to the lower end of the cam release link 40 is a camming mechanism generally indicated by the numeral 44. The camming mechanism 44 comprises a cam holder 46 which supports a cam 48 on a pin 49· The cam holder 46 is mounted to a portion of the type-writer frame (not shown). The mounting comprises a rod 42, which passes through a hole in the cam holder 46, and permits the camming mechanism 44 to pivot about the rod 42 in response to the camming motion, to be described presently, which is initiated by the downward motion of the cam release link 40. As indicated previously, downward motion of the cam release link 40 occurs each time one of the spacebars 2 or 3 is depressed.
A continuously rotating power roll 52 is mounted transversely of the typewriter and in close proximity to the cam 48. When one of the spacebars is depressed causing the cam release link 40 to be actuated, the element 41 to which the link 40 is connected, pivot about a pin 43 supported by the sides of the cam holder 46. The other end of the lever 41 pivots out of engagement with the cam 48 permitting the cam, which is biased by a spring (not shown), to rotate counter- J clockwise urging the cam lobe into contact with the power roll 52. The power roll then drives the cam through an angle of approximately 180°. Following this rotation of the cam, the cam once again is out of contact with the power roll 52 and in engagement with the end of the lever 41 which has returned to its initial position due to the return of elements 32 and 40. It will be understood by those skilled in the art that the means shown for imparting motion to the links 60 and 54 in response to the actuation of the spacebars is merely illustrative of - - one type of a variety of means which could be used and which forme no part of this invention.
Due to the configuration of the cam surface, the cam holder pivots about the rod 42 imparting motion in the direction of the arrow 55 to the link 54. Motion is also imparted to a 2 unit escapement link 60. It is this movement, the rearward movement of the 2 unit escape-ment link 60 in the direction of the arrow 61, which causes the pro* portional escapement mechanism (not shown) to escape 2 units . The link 60, which it will be remembered is operated each time either of the spacebars 2 or 3 is actuated, is mechanically linked to a propor-tional escapement mechanism in a manner well known in the art to produce a 2 unit carriage escapement.
Summarising to this point, a pair of spacebars 2 and 3 are pro-vided, which when actuated, cause a lever 32 to pivot about its end imparting downward motion to a cam release link 40. The downward motion of the link 40 causes lever 41 to pivot about pin 43 releasing the spring-biased cam 48 and allowing it to engage the power roll 52 which in turn causes the cam holder 46 to rotate about rod 42. This motion is then transmitted to a 2 unit escapement link 60 connected to the carriage escapement mechanism (not shown) which produces a 2 unit carriage escapement in any well-known manner. The particular carriage escapement mechanism selected to perform the 2 unit carriage escapement in response to the motion of link 60 is of no consequence herein and forms no part of this invention.
As noted above, each time a spacebar is depressed, the cam-ming mechanism 44 rotates pulling link 60 to cause a 2 unit carriage escapement. However, in addition to this, there is also another im-portant result: an actuating lever generally indicated by the numeral 56 is pivoted about a fixed shaft 62. This pivotal motion is due to the movement of the link 54 in the direction of the arrow 55 which overcomes the force of the tension spring 58 to swing the actuating lever 56. The actuating lever has two legs 64 and 66. The first noted leg 64 is connected to the link 54 and receives motion therefrom in the manner indicated previously. The second leg 66 is provided with an ear 68 at its free end. When the composite actuating lever 56 swinge under the urging of the link 54 in response to the depression of either of the spacebars, ear 68 swings in an arc toward the rear of the ma* chine. However, the motion of the ear 68 is only of consequence when the 3 unit spacebar 3 is depressed.
From the previous discussion it will be remembered that the depression of either spacebar actuated link 60 producing a 2 unit carriage escapement. Therefore, it is apparent that a 2 unit carriage escapement can be obtained irrespective of the presence or absence of link 54 and its associated lever 56 because the 2 unit escapement is produced by the action of link 60 which occurs each time a space -bar is depressed.
But, the production of a 3 unit escapement is obtained in a different manner. It was indicated previously that depression of the 3 unit spacebar 3 caused lever 24 to pivot about its end on the rod 26, and that this pivotal motion urged the interpose r link 34 downward. What was not indicated, though, was the function of the interpose r link 34 because it was not necessary for the production of a 2 unit escapement inasmuch as it did not move when only the 2 unit spacebar was depressed. This interposer link 34 has its lower end connected to an interposer lever 70, which in turn is pivotally connected to a bail actuating element 72. When the depression of the 3 unit spacebar 3 pivots lever 24 lowering link 34, the net result is that interposer lever 70 swinge downwardly positioning its forward end in the path of ear 68. Now, when the ear 68 swinge rearwardly, it imparts motion to the interposed lever 70. The motion imparted to the lever 70 causes the bail actuating lever 72 to swing rearwardly actuating the 3 unit bail 74, which, through suitable linkage β to be described presently, causes the carriage to escape three units . '' The 3 unit bail 74, of course, is simply a horizontal rod transversely disposed in the typewriter. The rod has its ends offset and mounted in a pair of bail plates 76 (only one bail plate shown). Also, mounted in the bail plates are two other bails: a 4 unit bail 78 and a 5 unit bail 80. All three of the bails are mechanically linked to the carriage escapement mechanism (not shown) by three links 82, 84 and 86. When actuated, the 3, 4 and 5 unit bails produce 3, 4 and 5 units of carriage escapement, respectively. It will be remembered that a 2 unit escapement is produced without the aid of a bail by actuation of link 60, also connected to the escapement mechanism (not shown It is to be understood that the particular escapement mechanism is not critical and may, for example, be one similar to that disclosed in U. S. Patent 2, 05, 303 to Palmer et al. and assigned to the assignee of this application.
While only one of the bails, bail 74, is actuated by the spacebar bails 78 and 80 are provided to produce 4 and 5 unit spacing in response to the depression of certain of the character keys. Therefore, their function will not be further explained inasmuch as they are not perti-nent with respect to the spacebar spacing operations currently found in contemporary typewriter spacing mechanisms like the prior art one illustrated in FIO. 1.
Summarising, one of the spacing mechanisms that proportional escapement typewriters of today are provided with, comprises the, 2 unit and 3 unit spacebar spacing me chanism depicted in FIQ. 1. This mechanism, it was indicated, provides a 2 unit carriage escapement when either spacebar ia depressed and the 2 unit escapement is pro* duced without actuating a bail. Furthermore, it was indicated that regardless of what spacebar we,« depressed, ear 68 (twinge rearwardly, If the 2 unit spacebar was depressed, ear 68 would pass under inter-poser lever 70 performing no function, the 2 unit escapement produced by link 60 resulting. But, if the 3 unit spacebar was depresood, ear 68 in its rearward swing would urge interposed lever 70 re&rwardly actuating the 3 unit bail 74 via lever 72 thereby obtaining a 3 unit carriage escapement.
PRIOR ARTi Keyboard Expand Feature The other spacing feature that was noted earlier as being pre-sent on contemporary proportional escapement typewriters comprises the keyboard expand feature. Since it is felt that an understanding of this feature is useful as an aid to understanding applicant's spacebar space expanding mechanism, a brief description thereof will follow. This feature it will be remembered, when actuated, functions to insert automatically an extra unit of escapement into every operation whether it be a spacing operation or a character printing operation. The operation of the keyboard expand mechanism need be understood only to the extent that it is clear that such a feature operates directly on the escapement mechanism and not on the bails . Stated differently, the actuation of the bails is in no way changed or modified when the keyboard expand feature is being utilized. For example, depression of the "o" key actuated the 3 unit bail and only that bail whether or not the keyboard expand feature is used. As just noted, ordinarily, actuating the 3 unit bail produces 3 units of escapement. Howeve , if the keyboard expand feature is being used, actuating the 3 unit bial produces 4 units of escapement. Likewise, actuating the 4 and 5 unit bails produces 5 and 6 units of escapement, respectively. The added unit of space produced by the escapement mechaniern in response to the baile can be accomplished in any number of ways and forms no part of this invention. U. 5. Patent 2, 547, 449 to E . D. Dodge die -closes one such way to produce an extra unit of eecapement by by-passing the bailc and operating directly on the escapement rnechan-ism. Another method is disclosed in U. S. Patent 2, 905, 303 to L. E. Palmer et al. Both of these patents are assigned to the assignee of this application.
PREFERRED EMBODIMENT: Detailed Description With an understanding of the operation of the two conventional spac-ing features commonly found on proportional escapement typewriters clearly in mind, a description of a preferred embodiment of a space-bar space expand mechanism constructed in accordance with the applicant' invention will follow . Now referring to FIG. 2, an exploded view in perspective of a preferred embodiment of the spacebar space expand mechanism constructed in accordance with the principles of this in-vention is depicted. This figure shows much of the structure depicted in FIG. 1. Specifically, the prior art 2 unit and 3 unit spacebar epac-ing mechanism depicted in FIG . 1 and described in detail hereinbefore is substantially reproduced in FIG. 2 except for the camming mechan-ism 46. Therefore, for the purpose of orientation, the elements com-mon to both FIG. 1 and FIG. 2 will be described first.
Now, referring to FIG. 2, two spacebar a 2 and 3 are provided. The 2 unit spacebar 2 is supported by a pair of supporting brackets 6 and 8. Each of tho brackets 6 and 8 gripe the equalizing rod 10 so that when the spacebar 2 is depressed, the equalising rod 10 will ro-tato. Adapted to be actuated by the rotating equalizing rod 10 io a lever 32. This lever 32, it will be remembered by referring to FIG. 1 , ie mounted for pivotal movement about a rod 36. Connected to the lever 32 ie a cam release link 40 which, when the 2 unit spacebar 2 ie depreeeed, actuates tho camming mochanlem 44 causing the cam 48 to engage tho power roll 52. This engagement actuates links 60 and 54 In the diroction of tho arrows 61 and 55, respectively. Link 60 produces the 2 unit escapement, while link 54, shown also in FIG. 2, ie pulled in the direction of the arrow 55. efe ri g to FIG. 2 it is soon that link 54, which is act uated everytimo one of tho spacebars 2 or 3 is depressed, is connected to the actuating lever generally indicated by the numeral 56. The actuating lever 56 h s the upper end of its one leg 66 mounted for pivotal movement about the shaft 62.
J. An ear 68 foimi- j a part ci the le 6 exte ds sidewardiy an , c ixv-i: 2 rear aruly each time lever 56 is swung about the nhaft c-2 in i-cspoxice 3 to the actuation of a cpacebar. If only the 2 unit spaceLar 2 has Loe. 4 depressed, tiie ear 63 will .acc beneath the interpose* icver 70 r.nd will perform no function, e 2 unit escapement caused by the motion 6 of the link 60 resulting, ' 7 referring again to FIG. 2, it ill be cbsex-ved that the motion of 8 tho 3 unit spacebar 3 is transmitted to levev 32 to produce a 2 unit ■ 9 escapement and to actuate li.uk 54 in a manr.er described in detail hereinbefore.. The downward motion of the 3 unit spacebar 3 is also 11 transmitted to tho link 34 to position the interposer lever 70 in motion- 12 receivi g relationship with the ear 66 of the lever 56. Tho interposer 13 lover 70 ic connected to the lover 72 a d adapted for pi o l move- 14 meat wit.) ronpect thereto.
Tho lever 72 in m ttf for pivot.il move.i-ont at itu u pe end 16 about tho shaft 62. Tho lower e d o lever 72 is hi otion im a ting 17 . relationship with tho 3 unit bail 74. Ac was seen previously, unices 10 the 3 unit spacebar has been depressed, the interposer lever 70 will 19 not be in its lower position and the rearward sv.i ^ of eat 6C will not cause the 3 unit bail to actuate. However, if the 3 unit spacebar ie 21 depressed* the rearward swing of the ear 68 will impart motion to 22 the interposer lever 70 positioned in its path. The motion of the 23 lever 70 causes the lever 72 to pivot actuating the 3 unit hail. Thus, 24 a 3 unit carriage escapement is produced.
Also appearing in FIG. 2 are the other two bails, the 4 unit 26 bail 73 and t e 5 unit bail 80. These two bails, as was described 11 136 -1 - previously, along with the 3 unit bail 74 have their ends offset and are mounted for rotation in a pair of bail plates 76. Connected to the bails are the linkages 82, 84 and 86, which are connected to the escapement mechanism (not shown) . Actuating the bails 74, 78 and 80 actuates the linkages 82, 84 and 86, respectively, thereby pro-ducing 3, 4 and 5 units of carriage escapeme nt, respectively. The elements of the preferred embodiment of the spacebar space expand mechanism common to the conventional spacebar spacing mechanism having been described, the description of the preferred embodiment will now focus on the additional elements providing the expand feature of the invention.
A spacebar space expand lever 90 is mounted on the keyboard and serves to control the expanding function. The lever 90 has two stable positions called herein the "expand" and'hormal" position.
The expand control lever 90 is mounted onto one end of a support lever generally indicatod by the numeral 92. The expand lever 90 and its associated support 92 are mounted onto the typewriter frame 12 for pivotal movement about a rod 94. The rod 94 passes through the frame 12, the forward end of the support lever 92, and the expand lever 90. When tho expand lever 90 is depressed, it pivots in a clock-wise sense about the rod 94 carrying with it the attached supporting lever 92 which also pivots about the rod. Attached to the midportion of the support lover 92 is a link 96. The link 96 is pulled in the direc-tion of the arrow 97 in response to the pivotal motion of the expand . lever 90 and the support lever 92. Also connected to the support lever 92 is a coil spring 98 which has its other end connected to the frame 12.
The coil spring 98 io dimensioned such that it has 2 stable positions . One of the ctable positions is when the expand control lever 90 is in the normal, up position and the other is when it io in the expand, down position. Thus, the combination of the Gpring 8 and support lever 92 serve to make the expand control lever bistable. Of course, it will be understood by those skilled in the art that other means could be employed for actuating the link 96 and that t o means described here are only illustrative of one such possibility.
The link 96, which io pulled in the direction of the arrow 97 in response to the actuation of the expand control lever 90, is connected to a four- sided pivoting fiame generally indicated by the numeral 100. Two opposing sides 102 and 104 of the frame 100 are mounted for pivotal movement about the shaft 62. A lcftwarclly extending cxten-sion 106 forme the front side of the member 100. The rearward side 1 10 of the member 100 is provided with a pair of forwardly extending tabs 112 and 114 the purpose of which will become evident hereinafter. Thio four- sided frame 100 pivots in a clockwioo oenno about the shaft 62 on which it io mounted in recponoe to a pull on link 96 caused by actuation of the expand control lover 90.
Two bail actuating lovers 1 16 and 1 18 arc further provided to furnish the spacebar space expand function. Lever 1 16 (FIGS. 2 and 3) has a U-shaped leg 120 extending from its lower portion which em-braces the 4 unit bail 78. The lever 1 16 has another U- shaped portion 122 which loosely embraces tho shaft 62. In addition to t e two U-shaped extensions 120 and 122 of the lever 1 16, there are two motion-receiving extensiono 124 and 126. Extension 124 terminates at the lower surface of side member 106. A tension spring 128 connected between the tab 12 and the lever 116 biases the lever 116 upwardly urging the motion receiving extension 124 into contact with the s ide member 106 of the pivoting frame 100. Extension 126. also a motion -receiving extension, is on the f ont portion of the lever 116 in a posi-tion to be described in mo re detail hereinafter.
The second of the bail actuating levers, lever 118, has many features similar to those found on the lever 116. Referring to FIGS. 2 and 3, it has a lower U-shaped extension 130 and an upper U-shaped extension 132. The upper extension 132, like its counterpart 122, loosely embraces the shaft 62. The lower U- shaped extension 130, while it too embraces a bail like its counterpart 120, it embraces a different bail. The extension 130 embraces the 3 unit bail 74. The two motion-receiving extensions 136 and 138 are also similar to the extensions 1 4 and 126, respectively, of the lever 116. Extension 136 contacts the under surface of side member 106 as a result of the biasing action of tension spring 140 connecting the lever 118 and the tab 1 14. The other motion- receiving extension of lever 1 18, exten-eion 138, is positioned on the front portion of the lever in a position to be described in detail hereinafter.
The last two elements comprising the spacebar space expand mechanism are a pair of actuating arms 150 and 152. Referring to FXQ. 2, arm 150 forms a portion of lever 56 and moves therewith. At its othe end, the arm 150 is mounted for pivotal movement about the shaft 62. Carried by the arm 150 and located Intermediate its ends is a motion- imparting tab 154. When lever 56 swings rearwardly, it also carries with it the arm 150. Hence, the tab 154 on the arm 150 swinge in a downwardly and rearwardly arc as the lever 56 pivots under the action of link 54. When the expand control lever 90 is in its "normal" position the frame 100 is substantially horizontal and the levers 116 and 1 18 are urged into their uppermost position by the springe 128 and 140 (FIGS. 3(a) and 4(a)). The motion- receiving extension 138 on the lever 118 is located slightly above the path of travel of the tab 154 permitting the tab 154 to pass beneath the motion-receiving extension 138 when the lever 56 swings through its arc (FIG. 4(b)) . Stated in terms of results, when the expand control lever is in the "normal" position, tab 154 passes beneath motion- receiving extension 138 imparting no motion to the lever 118. However, when the expand control lever is depressed, i. e. , in the "expand" position, the frame 100 has rotated in a clockwise sense about the shaft 62 urging the levers 116 and 118 downward (FIG. 3(c) and 4(c)) . The downward motion of the lever 118 positions the motion- receiving extension 138 in the path of the tab 154 (FIG. 4(c)) . Now with the extension 138 in the path of the tab 154 due to the depression of the expand control lever 90, the swing of the tab 154 due to the depression of the 2 unit spacebar 2 imparts motion to the lever 118 actuating the 3 unit bail (FIG. 4(d)) .
The other actuating arm 152, referring to FIG. 2, has its one end mounted for pivotal movement about the shaft 62 and its other end connected to the lever 72 for movement therewith. Intermediate the ends of the arm 152 is positioned a motion- imparting tab 160. It will be remembered that the lever 72 swings in a clockwise sense when the 3 unit spacebar 3 is actuated. Hence, the tab 160 on the arm 152 will also swing in a clockwise sense when the 3 unit spacebar 3 is actuated. Whether or not the tab 160 imparts motion to its associated lever 116 depends on whether or not the motion- receiving extension 126 has been positioned in the path of the tab 160. From the previous discussion, it will be remembered that the levers 116 and 118 are both lowered by the action of the pivoting frame 100 (FIGS. 3(c) and 4(c)) . Thus, if the expand control lever 90 is in the "normal" con-dition, i. e. , the frame 100 has not tilted depressing the levers 116 and 118, the tab 160 will pass beneath the extension 126 when the 3 unit spacebar is depressed imparting no motion to the lever 116 (FIG. 3(b)) . However, if the expand control lever 90 has been depressed (FIG. 3(c)), the extension 126 is positioned in the path of travel of the tab 160 and each time the tab 160 swings in response to the 3 unit spacebar 3, motion is imparted to the lever 116 actuating the 4 unit bail (FIG. 3(d)) .
Summarizing, the preferred embodiment of the spacebar space expand mechanism comprises a frame 100, which when tilted in response to the expand control lever 90, lowers a pair of levers 116 and 118 into the path of tabs 154 and 160. The tabs impart bail-actuating motion to the levers thereby expanding the spacing ordinarily obtained when levers 116 and 118 are in their uppermost position, i. e. , the position obtainingwhen the expand control lever 90 is in its normal position.
PREFERRED EMBODIMENT: Operation Normal Two Unit Carriage Escapement - A normal two unit carriage escapement is produced by the depression of the 2 unit spacebar 2, the expand control lever 90 being in its no rmal position, i. e. , not depressed. -Referring to FIG. 1, the depression of the 2 unit spacebar 2 rotates the equalizing rod 10 via the brackets 6 and 8. The equaliz-ing rod, when rotated, depresses the end of the lever 32 which then i pivots about the rod 36. The downward swing of the lever 32 lowers the cam release link 40 which is attached to the camming mechanism 44. The downward motion of the cam release link 40 causes the lever 41 to pivot about pin 43 disengaging the cam 48 and allowing it to be biased into contact with the power roll 52. The cam 48, when it ro-tates under the action of the power roll 52, pivots the camming mechan-ism 46 in a counterclockwise sense about the rod 42. The effect of this pivoting is twofold: a) link 54 is pulled in the direction of the arrow 55, and b) link 60 is pulled in the direction of the arrow 61 .
The motion of the link 54 is transmitted to the lever 56 through the leg 64 swinging the lever 56 in a counterclockwise sense about the shaft 62. However, since the interpose r lever 70 is in its uppermost position, it not having been positioned in the path of the ear 68 by the actuation of the 3 unit spacebar 3, the ear 68 on the leg 66 swings rearwardly passing beneath the interposer lever 70 and imparts no ' motion to it.
The other link actuated by the pivoting camming mechanism 44, the link 60, is mechanically linked to the escapement mechanism (not shown) and functions to produce a 2 unit carriage escapement. As was discussed previously, the particular manner in which the lever 60 produces a 2 unit carriage escapement and the particular escape-ment mechanism utilized can be any of the well-known types and forms Thus, depression of the 2 unit spacebar 2 when the expand control lever 90 is in its normal position produces a 2 unit escapement via the link 60 and a pivoting of the lever 56, the latter having no effect since the interposer lever 70 was not lowered into motion-receiving position by the action of the 2 unit spacebar 2 and therefore does not move . During the 2 unit spacing operation, neither the bails 74, 78, 80 nor the bail-actuating levers 1 16, 1 18, 72 are actuated. This result must obviously follow if it is realized that the arm 152 carried by the lever 72 did not move and, therefore, could not impart motion to the lever 1 16 via the tab 160 to actuate the 4 unit bail 78; and the arm 150 carried by the lever 56, although it did not swing downwardly, can impart no bial- actuating motion to the lever 1 18 via the tab 154 because the expand control lever 90 not having been depressed leaves the lever 118 in its uppermost position allowing the tab 154 to pass unobstructed beneath the motion-receiving extension 138.
Normal Three Unit Carriage Escapement - A normal 3 unit carriage escapement is produced by depressing the 3 unit spacebar 3 while leaving the expand control lever 90 in the normal (up) condition. Again referring to FIG. 1 , it is seen that depression of the 3 unit spacebar 3 causes the lever 20 supporting the spacebar to pivot about the mounting rod 22. When this occurs, the lever 24 which is pivotally mounted on the rod 26 and also connected to the lever 20, swings downwardly lowering the link 34. The link 34, in lowering, swings the interposer lever 70 into motion- receiving relationship with the ear 68.
In addition to positioning the interposer lever 70 in its operative position, the pivoting of the lever 20 resulting from depressing the 3 unit spacebar 3, also urges the extension 28 downward. The down-ward motion of the extension 28 overcomes the spring 38 to pivot the lever 32 about the rod 12. As was described previously with respect to the production of the normal 2 unit escapement, when the lever 20 swings downwardly, the camming, mechanism 44 is actuated by the link 40 with the result that the link 60 actuates the escapement mechanism producing a 2 unit escapement. Additionally, the link 54 is pulled in the direction of the arrow 55 swinging downwardly the lever 56 carrying the ear 68. However, unlike the normal 2 unit escapement situation, the inter poser lever 70 is positioned in the path of the ear 68 and is driven rearwardly imparting bail-actuating motion to the lever 72 to which it is connected. Thus, the 3 unit bail 74 is actuated. This motion of the bail 74 is transmitted to the escape-ment mechanism via the link 82. The escapement mechanism, oper-ating in a well-known manner, produces a 3 unit carriage escapement notwithstanding the link 60 was actuated.
Thus, depression of the 3 unit spacebar 3 when the expand con-trol lever is in its normal position causes the lever 70 to be inte rposed between the swinging ear 68 and the 3 unit bail -actuating lever 72 so that the swing of the ear 68 causes actuation of the 3 unit bail 74 by the lever 72. As with the normal 2 unit spacing operation motion is neither imparted to the levers 16 and 118 nor to the 4 unit and 5 unit bails 78 and 80. The levers 116 and 118 do not move because they have not been lowered by the actuation of the expand control lever 90. The tabs 160 and 154 pass beneath the motion- receiving extensions 126 and 138, respectively, imparting no bail-actuating motion thereto.
Expanded Two Unit Carriage Escapement - The expanded 2 unit carriage escapement mode of operation, in actuality a 3 unit escapement, is produced by the joint actuation of both the expand control lever 90 and the 2 unit spacebar 2. As was described with respect to the normal 2 unit spacing operation, actuation of the 2 unit spacebar causes the lever 56 to swing rearwardly. And, since neither the interposer lever 70 nor the lever 118 was lowered, the swinging ear 68 and the tab 154 imparted no motion to the bail-actuating levers 72 and 118, respectively. However, in the expanded 2 unit spacing mode, the situation is different: The lever 118 is lowered (FIG. 4(c)) by the tilting action of the frame 100 and the motion-receiving extension 138 is now in the path of the tab 154. It will be remembered that actuation of the expand control lever 90 pulls the link 96 causing the frame 100 to pivot about the shaft 62 resulting in a lowering of the levers 1 16 and 118 under the action of the front frame member 106. Now, when the lever 56 swings under the action of the link 54, the ear 68 still passes beneath the interposer lever 70, (FIG. 2 but the tab 154 carried by the arm 150 strikes the mo-tion- receiving extension 138 swinging the lever 118 about the shaft 62 (FIG. 4(d)) . This swinging motion actuates the 3 unit bail 74 pro-ducing a 3 unit carriage escapement. Since the lever 72 (FIG. 2) has not moved, the arm 152 is not swinging and the tab 160 does not strike the motion- receiving extension 126. Therefore, no motion is imparted to the 4 unit bail 78 by the leg 120.
Summarizing, the expanded 2 unit spacing operation produces the same motions of the elements as produced in the normal 2 unit spacing operation with one exception: e tilting of t e frame 100 by the lever 96, which depresses the levers 1 16 and 1 10, positions the extension 133 in the path of the tab 154 (FIG . 4(c)) thereby im-parting bail-actuating motion to the lever 1 13 (FIG. 4(d)) . Kence, the 3 unit bail 74 ia actuated producing a 3 unit carriage escapement.
Expanded Three Unit Carriage Escapement - An expanded 3 unit carriage escapement, in actuality a 4 unit escapement, is pro-duccd by depressing the 3 unit spacebar 3 when the expand control lever 90 is in the expand (down) condition. As vvae previously des-cribed with respect to the normal 3 unit carriage escapement operation, actuation of the 3 unit spacebar 3 causes both lever 24 and lever 32 to swing downwardly (FIG. 1) . Tlxe downward motion of the lever 24 positions the interposer lever 70 in motion- eceiving relationship with the swinging ear 68 on the lever 56. The downward motion of the lever 32 causes the cam 48 to engage the power roll 52 thereby producing two additional motions . The. link 60 which is connected to the escapement mechanism (not shown) is pulled causing a 2 unit carriage escapement; and the link 54 is pulled causing the lever 56 to swing (FIG . 2) . The swinging motion of the lever 56 is transmitted to the lever 72 via the ear 68 and the interposer lever 70. And, as noted previously, the lever 72, when it moves, actuates the 3 unit bail 74.
Referring again to FIG. Z, it will be observed that as levers 56 and 72 swing forwardly, the actuating arms 150 and 152, respectively, swing downwardly. Up to this point, the operation of the normal and expanded 3 unit carriage escapements is the same. However, in the normal 3 unit cpacing operation, the levers 116 and 1 IS were in their uppermost position (FIGS. 3(a) and 4(a)) and hence, when the tabs 160 and 154 carried- by the arms 152 and 150, respectively, swung do n-wardly, they passed beneath the extensions 126 and 133 (FIGS. 3(b) and 4(b)) respectively, and no motion was imparted to the levers 1 16 and 118 nor to their associated bails 78 and 74, respectively. V. hereas, now, in the expanded mode of operation the levers 116 and 118 are in their lowermost position (FIGS. 3(c) and 4(c)) due to the tilting of the frame 100 under the action of the depressed expand control lever 90 and when the tabs 160 and 154 swing they strike the extensions 126 and 138 (FIGS. 3(d) and 4(d)), respectively, imparting motion to their associated levers actuating the bails 74 and 78. Thus, a 4 unit carriage escapement is produced.
Summarizing, the expanded 3 unit spacing operation produces the same motions of the elements as produced in the normal 3 unit spacing operation with one exception: the tilting of the frame 100 by the lever 96, which depresses the levers 1 16 and 118, (FIGS. 3(c) and 4(c)) positions the extensions 126 in the path of the tab 160 (FIG. 3(d)) thereby imparting bail actuating motion to the lever 1 16. Hence, the four unit bail 78 is actuated producing a 4 unit carriage escape-ment. Additionally, the 3 unit bail is actuated. This, however, does not affect the production of a 4 unit escapement anymore than the actuation of the link 60 affected the production of a 3 unit escapement. The escapement mechanisms currently used produce an escapement corresponding to the bail actuated having the largest unit value.
- - The preferred embodiment of the spacebar space expand mechan-ism functions equally well regardless of whether lower case or upper case letters are being typed. When the typist strikes the shift key (not shown) the bail mounting plates 76 rise carrying therewith the bails 74, 78, and 80. The bail mounting plates 76 are generally mounted for vertical motion in guides in the typewriter frame provi-ded therefore. Referring to FIGS. 3(e) and 4(e) it is seen that when the bails have risen in response to the depression of the shift key (not shown), the respective bails 78 and 74 are still embraced by the U-shaped extensions 120 and 130, respectively. Hence, it is obvious that when the levers 116 and 118 are actuated, the associated bails are actuated regardless of whether the bails are in their upper or lower position.
While the invention has been particularly shown and described with reference to a preferred embodiment thereof, it will be under-stood by those skilled in the art that the foregoing and other changes in form and details may be made therein without departing from the ; spirit and scope of the invention.
I claim: _,r spi 23744/2
Claims (3)
1. » Expand device for proportional escapement typewriters with a plurality of spacebars linked to a variable eecapement mechanism and operative to produce different lengths of escapement between the paper and the printing station, and wi bails each mechanically linked to the escapement mechanism and associated each with a particular one of the lengths of escapement, characterised in that above the said bails a frame is mounted for pivotal movement between a normal and an active position by a bistable expand control lever and that bail actuating levers co-operating with said bails are provided which, when the said frame is in its active position, are displaceable into the path of movement of a plurality of arms operated by the actuation of selected spacebars*
2. * Expand device according to claim 1, characterized in that the bail actuating levers each have a U-shaped leg extending ; from their lower portion and embracing their associated balls, and that the levers with the frame being in its active pocition, are displaceable by means of a member forming part of said frame in the direotion of said ϋ-shaped legs against the force of springs*
3. * Bxpand device according to claim 1, characterized in that the bail actuating levers are mounted on a common shaft for longitudinal displacement by means of their 0-shaped upper extensions* For the Applicants DR. REINHQLD COHN & PARTNERS
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US378301A US3310148A (en) | 1964-06-26 | 1964-06-26 | Expand device for proportional escapement typewriters |
Publications (1)
Publication Number | Publication Date |
---|---|
IL23744A true IL23744A (en) | 1969-06-25 |
Family
ID=23492567
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
IL23744A IL23744A (en) | 1964-06-26 | 1965-06-16 | Expand device for proportional escapement typewriters |
Country Status (12)
Country | Link |
---|---|
US (1) | US3310148A (en) |
AT (1) | AT267555B (en) |
BE (1) | BE665971A (en) |
CH (1) | CH428794A (en) |
DE (1) | DE1436672B2 (en) |
DK (1) | DK126685B (en) |
ES (1) | ES314538A1 (en) |
FI (1) | FI44415B (en) |
GB (1) | GB1052574A (en) |
IL (1) | IL23744A (en) |
NO (1) | NO119683B (en) |
SE (1) | SE315608B (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3669236A (en) * | 1970-02-09 | 1972-06-13 | Varityper Corp | Keyboard for a printing machine |
US3759363A (en) * | 1971-12-22 | 1973-09-18 | Ibm | Letter space control mechanism |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2217159A (en) * | 1938-07-02 | 1940-10-08 | Ibm | Typewriting machine |
US2294722A (en) * | 1938-10-12 | 1942-09-01 | Ibm | Typewriting machine |
IT454197A (en) * | 1948-07-08 | |||
BE527166A (en) * | 1953-03-12 | |||
US2905303A (en) * | 1955-12-29 | 1959-09-22 | Ibm | Escapement pawl control |
DE1049879B (en) * | 1955-12-30 | 1959-02-05 | IBM Deutschland Internationale Büro-Maschinen Gesellschaft m.b.H., Sindelfingen (Württ.) | Switching device on office machines with type lever gears, in particular typewriters |
US2954861A (en) * | 1958-10-02 | 1960-10-04 | Sperry Rand Corp | Proportional spacing typewriter |
-
0
- GB GB1052574D patent/GB1052574A/en active Active
- BE BE665971D patent/BE665971A/xx unknown
-
1964
- 1964-06-26 US US378301A patent/US3310148A/en not_active Expired - Lifetime
-
1965
- 1965-06-16 IL IL23744A patent/IL23744A/en unknown
- 1965-06-19 DE DE19651436672 patent/DE1436672B2/en not_active Withdrawn
- 1965-06-21 AT AT560565A patent/AT267555B/en active
- 1965-06-22 FI FI1489/65A patent/FI44415B/fi active
- 1965-06-22 CH CH872865A patent/CH428794A/en unknown
- 1965-06-23 SE SE8357/65A patent/SE315608B/xx unknown
- 1965-06-23 ES ES0314538A patent/ES314538A1/en not_active Expired
- 1965-06-25 DK DK325465AA patent/DK126685B/en unknown
- 1965-06-26 NO NO158693A patent/NO119683B/no unknown
Also Published As
Publication number | Publication date |
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NO119683B (en) | 1970-06-22 |
DK126685B (en) | 1973-08-13 |
US3310148A (en) | 1967-03-21 |
SE315608B (en) | 1969-10-06 |
CH428794A (en) | 1967-01-31 |
AT267555B (en) | 1969-01-10 |
DE1436672A1 (en) | 1968-11-21 |
DE1436672B2 (en) | 1970-04-02 |
BE665971A (en) | |
GB1052574A (en) | |
ES314538A1 (en) | 1966-02-16 |
FI44415B (en) | 1971-08-02 |
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