US3067299A

US3067299A - Combination-code signal-generating apparatus

Info

Publication number: US3067299A
Application number: US33519A
Authority: US
Inventors: Joseph J Saykay
Original assignee: Fairchild Camera and Instrument Corp
Current assignee: Fairchild Semiconductor Corp
Priority date: 1960-06-02
Filing date: 1960-06-02
Publication date: 1962-12-04
Anticipated expiration: 1979-12-04
Also published as: GB934595A

Description

1962 J. J. SAYKAY 3,067,299

COMBINATIONCODE SIGNAL-GENERATING APPARATUS Filed June 2, 1960 2 Sheets-Sheet 1 CODE SIGNAL P RFORAT R TYPEWRITER GENERATING ElxED 5 A PA'RATus ll COUNTER VARIABLE CODE I3 FIG. 1

Dec. 4, 1962 Filed June 2, 1960 J. J. SAYKAY 3,067,299

COMBINATION-CODE SIGNAL-GENERATING APPARATUS 2 Sheets-Sheet 2 FIG.2

3,67,299 Patented Dec. 4, 1962 3,0612% CGMBINATION-QQDE SIGNAL-GENERATING APPARATU Joseph .i. Saykay, Sea Clifi, N.Y., assignor to Fairchild Camera and instrument Qorporation, a corporation of Delaware Filed June 2, 1960, Ser. No. 33,519 It Ciaims. {61. 200- 36) This invention relates to combination-code signal-gencrating apparatus, sometimes referred to simply as an encoder, and, while it is of general application, it is particularly suitable for application to a key-operated device, such as a typewriter, utilized to impart to a continuous tape a coded representation of information written by the device.

Among the principal uses of such code tapes is the operation of automatic typesetting machines. In the operation of such machines, it is desirable to be able to set any of a number of different type fonts, the individual characters of which may have substantially different widths. It is also conventional to feed into such machines coded information for determining the intercharacter spaces and the inter-word spaces to provide justification of the lines of type. In prior mechanical types of typesetting machines, the change of one type font to another involved the changing of bulky and costly magazines of mechanical coding elements including the justifying spacing elements. In more recent tape-controlled typesetting devices, such a change of fonts has generally required the changing of complex and delicate coding elements of the switch bank of the encoder, usually in the form of printed circuit boards and the most elaborate multiple-circuit electrical connectors.

The present invention comprises a combination-code signal-generating apparatus or encoding apparatus for use in such systems in which the code can be changed readily and quickly without changing any of the mechanical or electrical connections of the encoding apparatus. The invention comprises also an improved form of coding element which, while of general application, is particularly suitable for use in the encoder of the invention.

It is an object of the invention therefore to provide a new and improved combination-code signal generating ap paratus which overcomes the above-mentioned limitations of prior encoding apparatus.

It is another object of the invention to provide a new and improved combination-code signal-generating apparatus by means of which the co es generated may be readily and quickly changed Without the change of any bulky and costly mechanical or electrical coding mechanisms.

it is a still further object of the invention to provide a new and improved coding element which, while of general application, is particularly suitable for use in the encoding apparatus of the invention.

In accordance with the invention, a combinationcode signal-generating apparatus comprises a plurality of pivotally mounted similar contact assemblies, each including a vertical row of n contact elements, corresponding ones of the contact elements of the assemblies being in horizontal alignment, and a stationary code strip comprising n horizontal conductive strips and a superimposed insulating mask having a desired code perforated therethrcugh and comprising n horizontal rows of aligned perforations disposed in vertical groups and in alignment with the conductive strips but normally out of registry with the vertical rows of contact elements. The apparatus also comprises means for rotating each of the contact assemblies in response to a different informationrepresentative input, to register its contact elements with one of the vertical groups of perforations of the code strip, and a plurality of output conductors individually connected to the conductive strips. The terms vertical and horizontal are used herein and in the appended claims only as a simplified reference to two arrays which are substantially mutually perpendicular, irrespective of their actual orientation in space.

Further in accordance with the invention, in a combination-code signal-generating apparatus, a code-generating element comprises a pivotally mounted contact assembly including a vertical row of n elements and a stationary code element comprising n horizontal conductive strips and a superimposed insulating mask having a desired code perforated therethrough in the form of a vertical group of perforations in alignment with certain of the contact elements but normally out of registry there: with. The codegenerating element further comprises means for rotating the contact assembly in response to an information-representative input, to effect a wiping registry of its contact elements with the exposed portions of the conductive strips, and a plurality of output conductors individually connected to the conductive strips.

For a better understanding of the present invention, together with other and further objects thereof, reference is had to the following description, taken in connection with the accompanying drawings, and its scope will be pointed out in the appended claims.

Referring now to the drawings:

FIG. 1 is a schematic block diagram of an encoding system to which the combination-code signal-generating apparatus of the invention is particularly applicable;

FIG. 2 is a schematic representation of a combinationcode signal-generating apparatus embodying the. inven tion;

FIGS. 3a and 3b are detailed perspective views of one of the contact assemblies embodied in the apparatus of FIG. 2; while FIG. 4'is a schematic representation of an embodiment of an alternative form of the invention.

Referring now to FIG. 1 of the drawings, there is represented schematically a general code-generating and code-operated system to which the present invention is particularly applicable. This system comprises a keyoperated device, such as a typewriter 10, and a codesignal generating apparatus 11 having a plurality of code elements mechanically connected to be actuated by the individual keys of the typewriter 10. The apparatus 11 controls two devices, the first a perforator of a fixed code, such as is used in Selecting the keys or characters of a typesetting machine, and a counter or variable code device 13 which is used to determine the inter-character and inter-word spacing of the typesetting machine for the purposes of line justification. It will be understood that the several apparatuses of FIG. 1 are conventional, with the exception of the code-signal generating app-aratus 11, which is represented schematically in FIG. 2.

Turning now to FIG. 2, the combination-code signalgenerating apparatus there represented comprises a plu rality of pivotally mounted similar contact assemblies, one for each key of the typewriter device 10. For the sake of clarity, only three, 14, 15, and 16 are shown. As shown more clearly in FIGS. 3a and 3b, each of the contact assemblies comprises an elongated housing 17 having a longitudinal slot 17a therein and an elongated conductive strip 18 in a substantially tubular form disposed therein. The strip 18 has a vertical row ofn integral resilient contact elements 181;, 18a projecting through the slot 17a, Where n is equal to the number of digits in the code to be utilized.

Disposed adjacent the

contact assemblies

14, 15, and 16 is a stationary code strip comprising a rigid strip of insulation material 19, which may be a thermosetting plastic material, having disposed thereon n horizontal conductive strips 20, one for each of the contact elements 18a of the vertical contact assemblies. Superimposed on the conductive strips of the code strip 19 is an insulating mask of thin insulation sheet material, such as paper strip 21, which, for the sake of clarity, has been shown substantially displaced from the insulation strip 19 but, in practice, will be disposed in contact therewith or immediately adjacent thereto. The paper strip 21 has a desired code perforated therethrough in the form of n horizontal rows of aligned perforations 22 disposed in vertical groups, the horizontal rows being individually in alignment with the conductive strips 20 but normally slightly out of registry with the respective vertical rows of contact elements, as shown in the case of the

contact assemblies

14 and 16.

The combination-code signal-generating apparatus of FIG. 2 also comprises means for rotating each of the contact assemblies in response to an information-representative input, for example in response to actuation of a key of the typewriter 10, to effect a wiping registry of its contact elements with the portions of the conductive strips 20 exposed through one of the vertical groups of perforations of the paper masking strip 21. As represented schematically in FIG. 2, each of the

contact assemblies

14, 15, 16 is pivotally mounted in the supporting frame, one portion 23 of which is shown, and each of the contact assemblies is provided with an actuating pin, such as the actuating pin 17b projecting from the housing 17 and connected by a mechanical linkage, represented schematically at 24, to the operating mechanism of one of the keys of the typewriter 10. The arrangement is such that as a key of the typewriter is actuated, its respective contact assembly is rotated clockwise, as represented in FIG. 2, so that it effects a wiping action of the conductive strips 20 as they are rotated. In the final rotated position, as represented by the contact assembly of FIG. 2, the contact elements 1811 make contactwith such of the conductive strips as are exposed through the perforations 22 of the masking strip 21.

The apparatus of the invention also comprises a plurality of output conductors 25 individually connected to 'the conductive strips 20 and interconnecting such strips with the actuating elements of an output device, shown as the variable code counter 13, having a series of actuating electromagnets 13a having a common electrical terminal connection 26. The contact elements 181: of the several contact assemblies are electrically interconnected through individual terminals 27 and the frame 23, having an electrical terminal connection 28 forming, with the terminal 26, the power supply terminals of the system.

The operation of the arrangement described will be readily apparent. As any key of the typewriter 10 is actuated, its respective contact assembly, such as one of the

assemblies

14, 15, 16, is rotated clockwise until its respective contact elements register with a vertical row of perforations 22 of the masking strip 21, thus completing electrical connections to the respective ones of the output conductors 25 and the actuating elements 13a of the device 13 to effect the desired space-counting operation. If it is desired to change the type font in the typesetting machine to one in which the characters are of different widths, it then only becomes necessary to replace the paper masking strip with a differently coded masking strip corresponding to the width count of the changed type font. It will be apparent that the interchange of the inexpensive, lightweight, and simple masking strip 21 may be accomplished with much greater facility than the more complicated printed circuitrboards or mechanical codingelements of prior encoding apparatus.

It will be apparent, however, that the encoding apparar tus of the invention may also be used in connection with the fixed code perforator 12;of FIG. l, in which case the several output conductors 25 are individually connected to the perforating magnets of the unit. It will also be noted that, in contradistinction to most combinationcode signal-generating apparatus in which the code strip or card is movable while the sensing elements are stationary, in the present invention the reverse relationship obtains, that is, the code strip 19 and its superimposed masking strip 21 remain stationary in operation While the contact assemblies, which are much smaller and lighter and more readily controlled, are movable to perform the sensing operation.

It will also be understood that the tape produced by the perforator 12 generally has a series of sprocket feed holes in the center or on either boundary. As shown, the vertical groups of code perforations are spaced by two feed holes. When utilizing the present invention, an additional series of code perforations may be interposed between the perforations shown in FIG. 2 and separated therefrom by the distance of one feed hole of the resulting punched tape; By then merely shifting the masking strip 21 by the distance between adjacent feed holes of the punched tape, the resulting code signal generated by the apparatus may be shifted from one code to another. For example, one code may be representative of lower case letters and characters of a typesetting machine and the other code the upper case letters and characters of the machine. Then the appropriate codes for lower case and upper case characters may be selectively generated merely by shifting the masking strip 21 by the distance between adjacent feed holes. Such a shift of the masking strip 21 may be effected by the mechanism shown in 'FIG. 4, described hereinafter.

It will be understood that the fixed code perforator 12 and the variable code counter 13 of FIG. 1 may be entirely conventional and they are shown schematically since they form no part of the present invention. However, these devices may be of the types disclosed in Patent No. 2,059,250 to Krum.

Referring now to FIG. 4, there is represented a modification of the invention in which the signal-generating apparatus includes a movable masking strip 30 disposed immediately adjacent the code strip 19 and with its horizontal rows of perforations in alignment with the horizontal rows of contact elements of the

contact assemblies

14, 15, 16, etc. The masking strip 30 includes a plurality of different codes in sequence and the arrangement includes means for relatively moving the masking strip 30 and the code strip 19 to select a desired code. For example, there may be provided a pair of winding

reels

31 and 32 on which the masking strip 30 is disposed. The

reels

31 and 32 are provided with manually

operable knobs

33 and 34, respectively, for effecting movement of the masking strip '30 in either direction past the code strip. By suitably operating the

knobs

33 and 34, the

reels

31 and 32 may be rotated to bring a desired code in registry with the code strip 19. The modification of the invention represented in FIG. 4 is thus particularly suitable for generating a code signal for a variable code counter, such as the counter 13 of FIG. 1.

While there have been described what are at present considered to be the preferred embodiments of the invention, it will be obvious to those skilled in the art that various changes and modifications may be made therein without departing from the invention, and it is, therefore, aimed in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of the invention.

What is claimed is:

1. A combination-code signal-generating apparatus comprising: a plurality of pivotally mounted similar contact assemblies, each including a vertical row of n contact elements, corresponding ones of the contact elements of said assemblies being in horizontal alignment; a stationary code strip comprising n horizontal conductive strips and a superimposed insulating mask having a desired code perforated therethrough and comprising n horizontal rows of aligned perforations disposed in vertical groups and in alignment with said conductive strips but normally out of registry with said vertical rows of contact elements; means for rotating each of said contact assemblies in response to a different information-representative input to register its contact elements with one of the vertical groups of perforations of said code strip; and a plurality of output conductors individually connected to said conductive strips.

2. A combination-code signal-generating apparatus for actuation by a key-operated device comprising: a plurality of pivotally mounted similar contact assemblies, one for each key of the device, each of said assemblies including a vertical row of n contact elements, corresponding ones of the contact elements of said assemblies being in horizontal alignment; a stationary code strip comprising n horizontal conductive strips and a superimposed insulating mask having a desired code perforated therethrough and comprising n horizontal rows of aligned perforations disposed in vertical groups and in alignment with said conductive strips but normally out of registry with said vertical rows of contact elements; means for rotating each of said contact assemblies in response to actuation of a different key of the device to register its contact elements with one of the vertical groups of perforations of said code strip; and a plurality of output conductors individually connected to said conductive strips.

3. A combination-code signal-generating apparatus comprising: a plurality of pivotally mounted similar elongated conductive strips, each including a vertical row of n integral projecting resilient contact elements, corresponding ones of the contact elements of said assemblies being in horizontal alignment; a stationary code strip comprising n horizontal conductive strips and a superimposed insulating mask having a desired code perforated therethrough and comprising n horizontal rows of aligned perforations disposed in vertical groups and in alignment with said conductive strips but normally out of registry with said vertical rows of contact elements; means for rotating each of said contact assemblies in response to a different information-representative input to register its contact elements with one of the vertical groups of perforations of said code strip; and a plurality of output conductors individually connected to said conductive strips.

4. A combination-code signal-generating apparatus comprising: a plurality of pivotally mounted similar contact assemblies, each including a vertical row of n contact elements, corresponding ones of the contact elements of said assemblies being in horizontal alignment; a stationary code strip comprising a rigid strip of insulation material having disposed thereon n horizontal conductive strips and a superimposed insulating mask of thin insulating sheet material having a desired code perforated therethrough and comprising n horizontal rows of aligned perforations disposed in vertical groups and in alignment with said conductive strips but normally out of registry with said vertical rows of contact elements; means for rotating each of said contact assemblies in response to a different information-representative input to register its contact elements with one of the vertical groups of perforations of said code strip; and a plurality of output conductors individually connected to said conductive strips.

5. A combination-code signal-generating apparatus comprising: a plurality of similar contact assemblies, each including a vertical row of n contact elements, corresponding ones of the contact elements of said assemblies being in horizontal alignment; a stationary code strip comprising a rigid strip of insulation material having dis posed thereon n horizontal conductive strips; a movable masking strip disposed immediately adjacent said strip and including a plurality of different codes perforated therethrough, each code comprising n horizontal rows of aligned perforations disposed in vertical groups and in alignment with said conductive strips but normally out of registry with said vertical rows of contact elements; means 6 for moving each of said contact assemblies in response to a diflerent information-representative input to register its contact elements with one of the vertical groups of perforations of said code strip; means for relatively moving said masking strip and said code strip to select a desired code; and a plurality of output conductors individually connected to said conductive strips.

6. A combination-code signal-generating apparatus comprising: a plurality of similar contact assemblies; each including a vertical row of 11 contact elements, corresponding ones of the contact elements of said assemblies being in horizontal alignment; a stationary code strip comprising a rigid strip of insulation material having disposed thereon n horizontal conductive strips; a movable masking strip disposed immediately adjacent said strip and including a plurality of different codes perforated therethrough, each code comprising 11 horizontal rows of aligned perforations disposed in vertical groups and in alignment with said conductive strips but normally out of registry with said vertical rows of contact elements; a pair of winding reels on which said masking strip is disposed for movement past said code strip in either direction; means for moving each of said contact assemblies in response to a different information-representative input to register its contact elements with one of the vertical groups of perforations of said code strip; means for actuating said reels to bring a desired code in registry with said code strip; and a plurality of output conductors individually connected to said conductive strips.

7. In a combination-code signal-generating apparatus, a code-generating element comprising: a pivotally mounted contact assembly including a vertical row of n elements; a stationary code element comprising n horizontal conductive strips and a superimposed insulating mask having a desired code perforated therethrough in the form of a vertical group of perforations in alignment with certain of said contact elements but normally out of registry therewith; means for rotating said contact assembly in response to an information-representative input to efiect a wiping registry of its contact elements with the exposed portions of said conductive strips; and a plurality of output conductors individually connected to said conductive strips.

8. In a combination-code signal-generating apparatus, a code-generating element comprising: a contact assembly comprising an elongated conductive strip including a vertical row of n integral projecting resilient contact elements; a stationary code element comprising n horizontal conductive strips and a super-imposed insulating mask having a desired code perforated therethrough in the form of a vertical group of perforations in alignment with certain of said contact elements but normally out of registry therewith; means for rotating said contact assembly in response to an information-representative input to effect a wiping registry of its contact elements with the exposed portions of said conductive strips; and a plurality of output conductors individually connected to said conductive strips.

9. In a combination-code signal-generating apparatus, a code-generating element comprising: a contact assembly comprising a pivotally mounted elongated housing having a longitudinal slot therein and an elongated substantially tubular conductive element disposed therein having a vertical row of n integral resilient contact elements projecting through said slot; a stationary code element comprising n horizontal conductive strips and a superimposed insulating mask having a desired code perforated therethrough in the form of a vertical group of perforations in alignment with certain of said contact elements but normally out of registry therewith; means for rotating said contact assembly in response to an information-representative input to effect a wiping registry of its contact elements with the exposed portions of said conductive strips; and a plurality of output conductors individually connected to said conductive strips.

10. In a combination-code signal-generating apparatus, a code-generating element comprising: a contact assembly including a vertical-row of n elements; a stationary code element comprising a rigid strip of insulation material having disposed thereon n horizontal conductive strips and a superimposed insulating mask of thin insulating sheet material having adesired code perforated therethrough in the form of a vertical group of perforations in alignment With certain of said contact elements but normally out of registry therewith; means for rotating 8 said contact assembly in response to an informationrepresentative input to effect a wiping registry of its contact elements with the exposed portions of said conductive stripsg-and a plurality of output conductors individually connected to said conductive strips.

References Cited in the file of this patent UNITED STATES PATENTS 1,726,348 Haase Aug. 27, 1929