US2163601A - Transfer article - Google Patents
Transfer article Download PDFInfo
- Publication number
- US2163601A US2163601A US170296A US17029637A US2163601A US 2163601 A US2163601 A US 2163601A US 170296 A US170296 A US 170296A US 17029637 A US17029637 A US 17029637A US 2163601 A US2163601 A US 2163601A
- Authority
- US
- United States
- Prior art keywords
- ribbon
- coating
- shield
- ink
- aluminum
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
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
- B41J31/00—Ink ribbons; Renovating or testing ink ribbons
- B41J31/05—Ink ribbons having coatings other than impression-material coatings
- B41J31/06—Ink ribbons having coatings other than impression-material coatings the coatings being directly on the base material, i.e. below impression transfer material; Ink ribbons having base material impregnated with material other than impression material
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T442/00—Fabric [woven, knitted, or nonwoven textile or cloth, etc.]
- Y10T442/20—Coated or impregnated woven, knit, or nonwoven fabric which is not [a] associated with another preformed layer or fiber layer or, [b] with respect to woven and knit, characterized, respectively, by a particular or differential weave or knit, wherein the coating or impregnation is neither a foamed material nor a free metal or alloy layer
- Y10T442/2041—Two or more non-extruded coatings or impregnations
- Y10T442/2098—At least two coatings or impregnations of different chemical composition
- Y10T442/2107—At least one coating or impregnation contains particulate material
Definitions
- the invention relates specially to improvements in typewriter ribbons modified to retard drying out of the ink or inking and soiling of the type. especially by the accumulation of lint thereon, as
- An important aim is to reduce the tendency of the ink from the ink side of a ribbon to offset on to the shielded side by contact incident to the winding of the ribbon on the spools or reels on which they are customarily sold and used.
- FIG. 1 is an enlarged sectional view of the fabric and coating of my ribbon
- Fig. 2 is a diagrammatic view of apparatus for producing the coated ribbon.
- Fig. 1 a section of ribbon fabric l0, which may be produced in strips of proper width and length for use in various machines as heretofore practiced, and the fabric and impregnating ink may be of any approved kind available.
- This coating material is applied while in such a state of viscosity and adhesiveness, and in such quantity and with such speed of movement of the ribbon and drying of the ribbon, that the threads of the ribbon are not impregnated or penetrated, but only the projecting fibers and extreme outer surfaces of the threads coated and bound together: but the coating is extended with suflicient continuity for the purposes intended, without occupying the interstices of the ribbon most suited to holding ink.
- the shield is exceedingly diaphanous as compared toprior coatings of equal toughness ordurability.
- Coating apparatus heretofore known and used for analogous purposes may of course be adapted to use in producing ribbons. embodying my invention, as will be understood from the following description of one possible apparatus and its manner of use in producing my ribbon. As a rule less extensive movement of the ribbon in driers is required with my invention, and the extent of prior drier structures may be materially reduced, with corresponding saving in investment and operating costs.
- FIG. 2 There is illustrated in Figure 2 a coating apparatus and system including a hopper l2, into which a liquid shield material I3 is introduced and maintained at a proper level to flow with uniformity from a discharge opening or slot in the bottom of the hopper.
- This slot I3 is extended transversely of the ribbon, and in practice has had a width of one-sixteenth of an inch longitudinally of the ribbon, and a length of approximately half an inch transversely of the ribbon being coated, when the ribbon is a half inch wide.
- the downwardly presented nozzle ll of the hopper is also extremely narrow on its lower face beside the slot in the direction of departure of the ribbon, so that there is a minimum of surface to move upon the ribbon after application.- of the coating, and a minimum tendency to press the applied material into the ribbon.
- the new and uncoated ribbon is carried upon a supply spool l5 which may be of any suitable tensioned type adapted to keep the ribbon under proper tension as it is drawn from the spool across the under side of the nozzle M to a winding reel l6 located at a suitable distance to permit sufficient drying of the applied coating before the ribbon is rewound.
- a supply spool l5 which may be of any suitable tensioned type adapted to keep the ribbon under proper tension as it is drawn from the spool across the under side of the nozzle M to a winding reel l6 located at a suitable distance to permit sufficient drying of the applied coating before the ribbon is rewound.
- the reel I5 is located so that the ribbon extends downwardly to the nozzle, and after passing the nozzle, it is carried over an idler roll I! at a level above the nozzle.
- the coated ribbon may be passed over one or more idler rolls I8 permitting the winding reel to be located closely adjacent the hopper, where the same person attending the
- the formula by which the shield material is produced is such that winding the ribbon at the rate of about five inches per second, it will dry sufiiciently for rewinding after a travel of about six feet in the open air at summer temperatures. It is rewound in such direction that the coated side of the ribbon is the outer side of the ribbon on the spool.
- the shielding material includes a substantial quantity of metal such as very fine aluminum powder, which, by the overlapping of the minute flake-like particles I9, forms a substantially continuous metal layer on the ribbon, through which the volatile elements of the ink of the ribbon cannot penetrate or evaporate.
- the ribbon is thereby virtually sealed at its outer face, without requiring the use of tin foil or other metal foil as a wrapper, as is the common practice, but may be packaged in the customary metal boxes which the goods are retailed in and which serve to protect the carrying spool from damage, or they may be packed in other containers without the individual foil wrappings, the metal in the ribbon coating, in conjunction with the sides of the reel or spool, being an equivalent closure.
- This second mixture is highly fluid, the rosin causing the aluminum to remain well in suspension in this preliminary mixture, and in the final product increasing the adhesion of the body of the medium to the aluminum, and increasing the viscosity and surface tension of the mixture while fluid.
- This second mixture is now added slowly with constant stirring to the heavy lac formed as above.
- camphorated spirit prepared according to the U. S. P. or the National Formulary, is stirred into the main body of the mixture, this serving to increase the gum value of the product and flexibility of the finished dry product as well as causing better suspension of the aluminum and improving the flowing quality and adhesiveness of the coating.
- the Celluloid affords high flexibility and toughness in the body of the medium when dry.
- the shield material applied as described, using the product of the formula given, results in an extremely diaphanous film on the surface of the ribbon with the metal uniformly distributed throughout, and giving the coated side of the ribbon a steel color.
- contact with the ink of the ribbon may be avoided by folding the ribbon to form loops with the inked face at the inner side, and grasping the ribbon with the fingers at the outer sides of the loops, whereby only the coated side is touched.
- camphor and the aluminum produces a certain degree of ink-repellant effect, limiting the tendency of ink to offset from the paper side of the ribbon to the type side thereof while wound on the spool.
- the metal content reduces the tendency of the shield to become disrupted by blows of the type in typewriters, so that the permeation of the shield by the ink and evaporation through the shield is minimized in a large degree.
- the metal particles afford a positive bar to the passage of ink or its volatile elements, although the Celluloid would also be similarly effective in a much less degree for a given thickness.
- the Celluloid and gum content of the body of the shield to hold the metal particles in place, and consequently the quantity of the viscous material is greatly reduced as compared to prior practices where the latter was solely depended upon for the various qualities.
- metals than aluminum may also be used in the shield material with good efiect, especially bronze powder, which is possibly tougher than aluminum, but aluminum is preferred because of its lightness, freedom from liability of corrosion, and its susceptibility to very'flne subdivision, as well as its capability of remaining in suspension for long periods in such solutions as indicated.
- the quantity of aluminum may be varied to some extent, but is believed best kept below two per cent by weight of the aggregate of the shield material, and the specific formula given has been practiced with the best result up to this time.
- the composition of the shield material on the ribbon as finally. marketed will be approximately as follows when the specific formula for the coating as given above is used, by weight:
- a typewriter ribbon comprising a fibrous foundation having on one side a transfer material for transferring visible impressions under pressure, and having on its other side a shield material consisting of a non-absorbent cementitious material and a suspension therein of fine metal particles.
- the said shield consists of, by weight, Celluloid 7.52%; acetone 76.50%; aluminum powder 0.82%; spirits of camphor 10% solution, 14.97%; rosin 0.19%; applied as an extremely attenuated coating attached by adhesion only to the extreme surface fibers of the fabric.
- the said shield consists of, by weight: cellulose-like material, approximately 88 per cent: aluminum powder, approximately 9.6 per cent; rosin, approximately 2.3 per cent; camphor, approximately 0.1 per cent.
Landscapes
- Impression-Transfer Materials And Handling Thereof (AREA)
Description
June 27, 1939.
TRANSFER ARTICLE Filed Oct. 21, 19:57
J. T. HUMES I N VEN TOR. .flames,
Patented June 27, 1939 UNITED STATES PATENT OFFICE TRANSFER. ARTICLE James Thomas Humes, Harrisonburg, Va.
Application October '21, 1937, Serial No. 170,296
4 Claims.
, The invention relates specially to improvements in typewriter ribbons modified to retard drying out of the ink or inking and soiling of the type. especially by the accumulation of lint thereon, as
well as to enable typists to handle the ribbon without soiling their hands. to inking fabrics for other machines and purposes where similar ends are desirable. It is an important object of the invention to 1Q enable the attainment of production of a ribbon ,having these advantages in a high degree while aobviating many objections to prior attempts in this direction. Thus, it is an aim to enable the production of a shielding, sealing and protective coating including cellulose-like material on one side of the ribbon with the use of a much smaller quantity of such medium than has usually been required under prior practices to attain an equal effectiveness and durability for the several purposes in view. Another important object is to minimize the stiflening of the ribbon by'such protective coating where a high degree of imperviousness with durability in that respect is attained.
It is a further object to enable the last 'mentioned improvement while at the same time avoiding use of materials which would have a deteriorating effect on the fabric of the ribbon, or on the ink therein, or on machine parts and containers.
An important aim is to reduce the tendency of the ink from the ink side of a ribbon to offset on to the shielded side by contact incident to the winding of the ribbon on the spools or reels on which they are customarily sold and used.
Incident tothe production of a ribbon having the advantages above indicated, and others, it is an object of the invention to evolve a method of production by which an extremely thin metallic coating may be formed on a ribbon, using a minimum quantity of metal and of a carrying and binding medium. It is also an involved aim to embody a coating medium in which infinitely small metal particles are securely held in the dried medium with a minimum likelihood of being It is also applicable general application besides its special value here involved, especially for use on glass.
Additional objects, advantages and features of invention reside in the steps, materials combined, and structures involved in the embodiment of the invention, as will be understood from the following description and accompanying drawing, wherein Fig. 1 is an enlarged sectional view of the fabric and coating of my ribbon,
Fig. 2 is a diagrammatic view of apparatus for producing the coated ribbon.
There is illustrated in Fig. 1 a section of ribbon fabric l0, which may be produced in strips of proper width and length for use in various machines as heretofore practiced, and the fabric and impregnating ink may be of any approved kind available.
In my practice of the invention a stock ribbon, inked and ready for use in a typewriter in ordinary practice, is mounted in' a reeling, coating and drying device of appropriate, construction,
in which an extremely thin shield or coating ll of adhesive-protective material is applied to one side, the coating dried and the ribbon rewound on a spool with the coated side outward, when it is ready for packing, shipment, sale, and use.
This coating material is applied while in such a state of viscosity and adhesiveness, and in such quantity and with such speed of movement of the ribbon and drying of the ribbon, that the threads of the ribbon are not impregnated or penetrated, but only the projecting fibers and extreme outer surfaces of the threads coated and bound together: but the coating is extended with suflicient continuity for the purposes intended, without occupying the interstices of the ribbon most suited to holding ink. At the same time the shield is exceedingly diaphanous as compared toprior coatings of equal toughness ordurability.
Coating apparatus heretofore known and used for analogous purposes may of course be adapted to use in producing ribbons. embodying my invention, as will be understood from the following description of one possible apparatus and its manner of use in producing my ribbon. As a rule less extensive movement of the ribbon in driers is required with my invention, and the extent of prior drier structures may be materially reduced, with corresponding saving in investment and operating costs.
There is illustrated in Figure 2 a coating apparatus and system including a hopper l2, into which a liquid shield material I3 is introduced and maintained at a proper level to flow with uniformity from a discharge opening or slot in the bottom of the hopper. This slot I3 is extended transversely of the ribbon, and in practice has had a width of one-sixteenth of an inch longitudinally of the ribbon, and a length of approximately half an inch transversely of the ribbon being coated, when the ribbon is a half inch wide. The downwardly presented nozzle ll of the hopper is also extremely narrow on its lower face beside the slot in the direction of departure of the ribbon, so that there is a minimum of surface to move upon the ribbon after application.- of the coating, and a minimum tendency to press the applied material into the ribbon.
The new and uncoated ribbon is carried upon a supply spool l5 which may be of any suitable tensioned type adapted to keep the ribbon under proper tension as it is drawn from the spool across the under side of the nozzle M to a winding reel l6 located at a suitable distance to permit sufficient drying of the applied coating before the ribbon is rewound. To properly hold the ribbon against the nozzle I4, the reel I5 is located so that the ribbon extends downwardly to the nozzle, and after passing the nozzle, it is carried over an idler roll I! at a level above the nozzle. The coated ribbon may be passed over one or more idler rolls I8 permitting the winding reel to be located closely adjacent the hopper, where the same person attending the hopper and placing of new rolls may also tend the reel IS.
The formula by which the shield material is produced is such that winding the ribbon at the rate of about five inches per second, it will dry sufiiciently for rewinding after a travel of about six feet in the open air at summer temperatures. It is rewound in such direction that the coated side of the ribbon is the outer side of the ribbon on the spool.
The shielding material includes a substantial quantity of metal such as very fine aluminum powder, which, by the overlapping of the minute flake-like particles I9, forms a substantially continuous metal layer on the ribbon, through which the volatile elements of the ink of the ribbon cannot penetrate or evaporate. The ribbon is thereby virtually sealed at its outer face, without requiring the use of tin foil or other metal foil as a wrapper, as is the common practice, but may be packaged in the customary metal boxes which the goods are retailed in and which serve to protect the carrying spool from damage, or they may be packed in other containers without the individual foil wrappings, the metal in the ribbon coating, in conjunction with the sides of the reel or spool, being an equivalent closure.
In order to attain the proper viscosity of the coating for the processing described, to attain the necessary uniformity of distribution of the metal in the fluid shield material, and to assure the required adhesivenessboth of the coating to the ribbon and of the body medium of the shield material to the metal particles suspended thereinafter drying, the following formula has been employed:
By weight: Per cent Celluloid, clear, shreds 7.52 Acetone, C. P. (dimethyl ketone) 76.50 Aluminum, finest powder .82
Spirits of camphor (10% pure gum camphor in 95% alcohol) 14.97 Rosin, powdered, amber clear 19 The Celluloid is mixed with a part of the acetone until a very thick lumpless lac is obtained. The rosin is dissolved in the remaining acetone,
and to this mixture of acetone and rosin the aluminum is added. This second mixture is highly fluid, the rosin causing the aluminum to remain well in suspension in this preliminary mixture, and in the final product increasing the adhesion of the body of the medium to the aluminum, and increasing the viscosity and surface tension of the mixture while fluid. This second mixture is now added slowly with constant stirring to the heavy lac formed as above. Finally the camphorated spirit (prepared according to the U. S. P. or the National Formulary), is stirred into the main body of the mixture, this serving to increase the gum value of the product and flexibility of the finished dry product as well as causing better suspension of the aluminum and improving the flowing quality and adhesiveness of the coating. The Celluloid affords high flexibility and toughness in the body of the medium when dry.
After the complete mixture of the ingredients as described, it is important to allow the product to stand for a time before use, and it should of course be securely enclosed to reduce loss of volatile elements.
The shield material applied as described, using the product of the formula given, results in an extremely diaphanous film on the surface of the ribbon with the metal uniformly distributed throughout, and giving the coated side of the ribbon a steel color.
When a ribbon so produced is stored, especially in a spool with closed sides, it preserves its freshness over a very long period, even without being wrapped in foil. The ink 20 retains its color unaffected by the shield material, and the fabric is also preserved without detriment after long standing.
In the handling of the ribbon by the user, contact with the ink of the ribbon may be avoided by folding the ribbon to form loops with the inked face at the inner side, and grasping the ribbon with the fingers at the outer sides of the loops, whereby only the coated side is touched.
I am aware that viscous coatings have been applied to such inking fabrics with the purpose of sealing one side, but these have the objections before enumerated, and where a single application is employed to produce an adequate shield, it results in excessive impregnation of the fabric so as to limit the ink holding and feeding capacity and flexibility thereof, and also does not form as effective a seal against evaporation as I attain by a very thin application. A ribbon lacking flexibility will produce heavy face characters, where a properly flexible ribbon will produce fine lines.
The inclusion of the camphor and the aluminum produces a certain degree of ink-repellant effect, limiting the tendency of ink to offset from the paper side of the ribbon to the type side thereof while wound on the spool.
The metal content reduces the tendency of the shield to become disrupted by blows of the type in typewriters, so that the permeation of the shield by the ink and evaporation through the shield is minimized in a large degree.
In the product the metal particles afford a positive bar to the passage of ink or its volatile elements, although the Celluloid would also be similarly effective in a much less degree for a given thickness. There is required only a small amount of the Celluloid and gum content of the body of the shield to hold the metal particles in place, and consequently the quantity of the viscous material is greatly reduced as compared to prior practices where the latter was solely depended upon for the various qualities.
Other metals than aluminum may also be used in the shield material with good efiect, especially bronze powder, which is possibly tougher than aluminum, but aluminum is preferred because of its lightness, freedom from liability of corrosion, and its susceptibility to very'flne subdivision, as well as its capability of remaining in suspension for long periods in such solutions as indicated. The quantity of aluminum may be varied to some extent, but is believed best kept below two per cent by weight of the aggregate of the shield material, and the specific formula given has been practiced with the best result up to this time.
Since the solvent will evaporate rapidly, and the camphor also to a considerable extent, although the latter will be largely retained by enclosure in the shield material, the composition of the shield material on the ribbon as finally. marketed will be approximately as follows when the specific formula for the coating as given above is used, by weight:
Per cent Celluloid 88.00
Aluminum powder 9.60
Rosin 2.30
Camphor 0.10
Final evaporation of the camphor will make an immaterial effect, as may be understood from the statement of its purpose in the coating material.
I claim:
1. As a new article of manufacture a typewriter ribbon comprising a fibrous foundation having on one side a transfer material for transferring visible impressions under pressure, and having on its other side a shield material consisting of a non-absorbent cementitious material and a suspension therein of fine metal particles.
2. The structure, of claim 1 wherein the said shield consists of, by weight, Celluloid 7.52%; acetone 76.50%; aluminum powder 0.82%; spirits of camphor 10% solution, 14.97%; rosin 0.19%; applied as an extremely attenuated coating attached by adhesion only to the extreme surface fibers of the fabric.
3. The structure of claim 1 in which the said shield includes by weight, cellulose-like material 88 per cent; aluminum powder 9.5 per cent.
4. The structure of claim 1 in which the said shield consists of, by weight: cellulose-like material, approximately 88 per cent: aluminum powder, approximately 9.6 per cent; rosin, approximately 2.3 per cent; camphor, approximately 0.1 per cent.
JAMES THOMAS HUMES.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US170296A US2163601A (en) | 1937-10-21 | 1937-10-21 | Transfer article |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US170296A US2163601A (en) | 1937-10-21 | 1937-10-21 | Transfer article |
Publications (1)
Publication Number | Publication Date |
---|---|
US2163601A true US2163601A (en) | 1939-06-27 |
Family
ID=22619328
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US170296A Expired - Lifetime US2163601A (en) | 1937-10-21 | 1937-10-21 | Transfer article |
Country Status (1)
Country | Link |
---|---|
US (1) | US2163601A (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2694016A (en) * | 1950-06-01 | 1954-11-09 | Du Pont | Method of producing coated ceramic capacitor |
US2791312A (en) * | 1953-12-30 | 1957-05-07 | William E Coffman | Magnetic ribbon guide and ribbon for typewriters and the like |
US3010559A (en) * | 1959-05-14 | 1961-11-28 | Edgecraft Company | Printing ribbon |
US3102824A (en) * | 1961-04-12 | 1963-09-03 | Columbia Ribbon & Carbon | Pressure sensitive transfer elements and method for preparing same |
US3104980A (en) * | 1960-08-26 | 1963-09-24 | Ncr Co | Pressure sensitive record and transfer sheet material |
US3617328A (en) * | 1967-09-25 | 1971-11-02 | Columbia Ribbon & Carbon | Transfer elements and method of making same |
-
1937
- 1937-10-21 US US170296A patent/US2163601A/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2694016A (en) * | 1950-06-01 | 1954-11-09 | Du Pont | Method of producing coated ceramic capacitor |
US2791312A (en) * | 1953-12-30 | 1957-05-07 | William E Coffman | Magnetic ribbon guide and ribbon for typewriters and the like |
US3010559A (en) * | 1959-05-14 | 1961-11-28 | Edgecraft Company | Printing ribbon |
US3104980A (en) * | 1960-08-26 | 1963-09-24 | Ncr Co | Pressure sensitive record and transfer sheet material |
US3102824A (en) * | 1961-04-12 | 1963-09-03 | Columbia Ribbon & Carbon | Pressure sensitive transfer elements and method for preparing same |
US3617328A (en) * | 1967-09-25 | 1971-11-02 | Columbia Ribbon & Carbon | Transfer elements and method of making same |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2368140A (en) | Package and wrapper | |
US2163601A (en) | Transfer article | |
US2352865A (en) | Container for asphalt, tar, and like products | |
GB814002A (en) | Improved transfer sheet | |
US2828219A (en) | Floor and wall covering | |
US4276340A (en) | Cellulose packaging films for packaging soft cheeses | |
US1851811A (en) | Cleaning and polishing paper | |
US1962082A (en) | Typewriter ribbon | |
US1871687A (en) | Waxing of paper and wrapping of articles therein | |
US2916078A (en) | Apron taper | |
US1957611A (en) | Article of manufacture and process of coating absorbent base materials | |
US2235516A (en) | Plastic sheet material and process for making the same | |
US2157212A (en) | Impervious sheet material | |
US3053779A (en) | Printing inks containing styrenemaleic anhydride copolymer and carbon black | |
US2644766A (en) | Composition for reconditioning used typewriter ribbons | |
US2314797A (en) | Paper manufacture | |
JPS6136216B2 (en) | ||
US2267310A (en) | Soap package | |
US2321762A (en) | Article of manufacture | |
US2281589A (en) | Moistureproof wrapping material | |
US1617945A (en) | Coated paper and process of making the same | |
US1871842A (en) | Process of rendering paper moisture, grease and acid proof and solution therefor | |
US2036392A (en) | Moistureproof paper | |
US1997105A (en) | Moistproof composition | |
US3000751A (en) | Prevention of tarnish of bronze printing |