|Publication number||US3159464 A|
|Publication date||Dec 1, 1964|
|Filing date||Feb 16, 1961|
|Priority date||Feb 16, 1961|
|Publication number||US 3159464 A, US 3159464A, US-A-3159464, US3159464 A, US3159464A|
|Inventors||Early Harold C, Miller David B|
|Original Assignee||Meredith Publishing Company|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (3), Referenced by (9), Classifications (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Dec. 1, 1964 H. c. EAR
LY ETAL 3,159,464
T D WEBS Mid E@ ATTORNEYS.
United States Patent 3,159,464 METHQD 0F DRYENG PRNTED' WEES Harold C. Early and David il. Miller, Ann Arbor, Mich.,
assignors to Meredith Publishing Company, a corporation ol' Iowa Filed Feb. 16, 1961, Ser. No. 89,756 4 Claims. (Cl. 343-4) This invention relates to a method for drying printed webs. Modern web-fed rotary presses operate at web speeds in excess of 1000 feet per minute, and in some cases at speeds in excess of 1500 feet per minute. One of the problems in connection with the operation of high speed presses of this type involves the drying of the ink. At the present time the webs are passed through an oven in which hot air at about 609 F. is circulated over the web. In order to dry the ink thoroughly the web must remain in the oven for a comparatively long time, which greatly increases the size of the oven and the press assembly. The solvent to be evaporated from the ink during drying forms an insulating barrier lover the surface which impedes the drying, Multicolor rotary presses are alreadyV enormous and require considerable plant space. Consequently, it is highly desirable to reduce as much as possible the space which is now utilized for drying the webs. ltlore seriously, however, at these drying temperatures the paper is substantially weakened due to exposure to heat. The npaper reaches a temperature of about 300 F. Cellulose, -when exposed to ternperatures in this range, becomes considerably weakenedl and this frequently causes breakage of the web` which,
of course, is very aggravating as well as expensive in shut-down time While the web is being mended.
Another serious disadvantage which results from heating the web at these elevated temperatures is the considerable shrinkage which occurs. The shrinkage results in uneven web tension which causes difficulty in obtaining intracolor register on the multicolor rotary presses. Furthermore, the dehydrated ypaper subsequently reabsorbs the moisture lost in drying. Where the printed sheets are formed into magazines which are securely stitched along one edge, the re-absorption of moisture from the air causes expansion, .which results in wrinkled pages and difficulty in opening the magazine.
Another disadvantage in shrinkage` is the waste of paper which necessarily results. Y r n The primary object of this invention is to obviate these difficulties by drying the ink without heating more than the very surface of the web.l
Another object is to provide a methodv for drying a nantlylin the blue and-ultraviolet portion offthe specs" trum having a wavelength of, say, between.` 3000 and 50G() angstroms. Furthermore, the intensity of the radiationmust exceed one kilowatt ,per square inch of printed surface. Preferably, the intensityvwill average between one and three klowatts per square inch. Utilizing radia` tion of this wave A'length and intensity permits drying of multicolored printed matter` on high speed webs in Black absorbs substantially all of the.
)inV order, to dry the yellow ink in the v 3,15%,464 Patented Dec. l, 1964 ICC a few milliseconds. High intensity radiation of this type would normally burn the web but where the web is traveling at speeds in excess of 1000 feet per minute, only the solvent-containing ink attains elevated temperature in the drying range while the paper, except for the very surface, remains relatively cool. The solvent in the inks evaporates instantaneously.
Carbon arcs are preferred as the source of radiant energy for use in this invention. Carbon arcs utilizing a current in the range of 200 to 500 amperes have an eiiciency of about '70% as compared with about 2'1/2% for arcs utilizing low currents such as those commonly found in welding apparatus and in motion picture projectors. A voltage in the range of 50 to 100 volts may be used, depending upon the distance between the electrodes. One or more pairs of electrodes may be used as required by the width or the web. y
In addition to the use of arcs as the source of radiant energy, we have found electronic flash tubes which emit intensive pulse radiation suitable for purposes of the invention. The tube may be tlled with an emitter gas which increases the percentage of radiation in the visible blue and ultraviolet range which, as pointed out above, is necessary to insure drying of the yellow ink.'v At the present time the life of these tubes is relatively short due to crazing of the quartz tube enclosing the electrodes, but apart from this objection they do serve well as a source of radiant energy. l
The time of exposure conveniently may be regulated Vby providing means for controlling the width of the radiant beam striking the moving web. Exposure time of between one and three milliseconds at an intensity of about two kilowatts per square inch has proved to'be effective. When using a radiant lamp which emits radiation in the range of 3506 to 410() angstroms wave length, yellow ink absorbed 9G to 93% of the incident radiation. This is approximately the same'absorption as the black ink in this range and higher than the blue and red inks. A high pressure, mercury are lamp emitting rays in this` preferred range (General Electric type All-6) was found to be capable of drying heavy yellow ink very rapidly when the rays were concentrated by means of a suitable optical system. This lamp had a quartz envelope and a quartz water jacket through which cold Water was passed during operation. The heating of the ink under such conditions was effected exclusively by radiation, and not by conduction or convection through the air. Lamps of similar intensity and having a tungsten filament which emits rays predominantly in the optical and infrared range of wave lengths burned the unprinted portions of the paper without drying the yellow colored ink.
In drying printed webs in accordance with the invention, the web is passed beneath the high intensity lamps which may be mounted in plural rows to increase the exposure time of the moving web.
y A suitable apparatus is illustrated diagrammatically in the single ligure of the drawing. The paper web W is passed over the impression cylinder 10 about which four printing cylinders 12, 14, 16, i8 are disposed.' Each printing-cylinder carriesrthe appropriate'plates to produce a four color printed web in black, yellow, red and blue. The multicolored` printed web is then passed beneath one or more yhigh intensity lamps 2li which emit' the desired wave lengths, described heretofore.v A concave mirror 22 maybe provided above the lamp to concentrate the rays on the printed'surface. The number of lamps mounted in series overftheweb' will depend upon their intensity and the `speed of the web.'k Morev will be required at low power or high web speed.
This application is a continuation-in-part. of ourfcopending application, Serial No. 673,436, tiled luly 22,
3 1957, now Patent No. 2,972,196. Other modications of the invention will occur to those skilled in the art. It is not our intention to limit the invention to the specie forms shown and described other than as necessitated by the scope of the appended claims.
What we claim as new and desire t0 secure by Letters Patent of the United States is:
1. A method yfor drying a printed sheet bearing both black and yellow solvent-containing inks which comprises, exposing said sheet to a source of intense radiant energy in excess of 1 kilowatt per square inch and having a wave length of 300C-5000 angstroms for 1-3 milliseconds, thereby drying both the black and yellow inks simultaneously by instantaneous evaporation of the solvent.
2. The method of claim 1 in which the wave length ranges from 3500 to 4100 angstroms.
3. A method for drying solventcontaining inks colored both light and dark which comprises printing said inks on a swiftly moving web, passing said web at a speed in excess of 1000 feet per minute immediately adjacent a source of intense radiation in excess of 1 kilowatt per square inch of web and having a wave length of 3000- 5000 angstroms, thereby drying both the dark and light colored inks simultaneously by instantaneous evaporation of the solvent.
4. A method for drying a swiftly moving web printed with black, red, blue and yellow solvent-containing inks which comprises passing said web at a speed in excess of about 1000 feet per minute immediately adjacent a source of radiant energy in the range of 1 to 3 kilowatts per square inch or web and having a Wave length predominantly in the range of 300050G0 angstroms, thereby drying both the yellow and the darker colored inks simultaneously by instantaneous evaporation of the solvent.
References Cited in the le of this patent UNITED STATES PATENTS 2,544,839 Klopfenstein Mar. 13, 1951 3,008,242 Sites Nov. 14, 1961 FOREIGN PATENTS 645,595 France June 27, 1928 OTHER REFERENCES Ink Drying by Ozone and Ultra-Violet Rays, by Robert A. Brown; September 1931, The American Pressman.
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|US2544839 *||Nov 1, 1946||Mar 13, 1951||Meyercord Co||Apparatus for effecting the hardening of deposits of ink and like compositions|
|US3008242 *||Oct 11, 1957||Nov 14, 1961||Miehle Goss Dexter Inc||Radiant energy means for indurating materials|
|FR645595A *||Title not available|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US3237314 *||Mar 4, 1963||Mar 1, 1966||Hupp Corp||Process of drying one or more materials impregnated in or on a traveling carrier|
|US3733709 *||May 6, 1971||May 22, 1973||Sun Chemical Corp||Reflector and cooling means therefor|
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|US4864145 *||Oct 31, 1986||Sep 5, 1989||Burgio Joseph T Jr||Apparatus and method for curing photosensitive coatings|
|US5634402 *||Oct 12, 1995||Jun 3, 1997||Research, Incorporated||Coating heater system|
|US5713138 *||Aug 23, 1996||Feb 3, 1998||Research, Incorporated||Coating dryer system|
|US5901462 *||Jan 16, 1998||May 11, 1999||Research, Incorporated||Coating dryer system|
|US5953833 *||Jan 30, 1998||Sep 21, 1999||Research, Incorporated||Coating dryer system|
|US6256903||Mar 9, 1999||Jul 10, 2001||Research, Incorporated||Coating dryer system|
|U.S. Classification||34/275, 101/416.1|
|International Classification||B41F23/04, B41F23/00|