WO2001056800A1 - Printing method and device - Google Patents

Abstract

The invention relates to high performance analogue and digital printing devices able to produce multicolor printing products whereby the quality of reproduction is close to color photography, based on a large range of carriers (paper, plastic, polyethylene etc.). The inventive method consists in treating a color (ink), applied on a transparent support, with the aid of ultraviolet impulses which are controlled in relation to intensity and position and directed towards a colored area to be transferred to the information carrier. The characteristics of irradiation are selected and coordinated with the color parameters in such a way that a photochemical reaction occurs in the radiated area, resulting in decomposition of a part of a color and in the transposition thereof on the information carrier. The inventive device for performing said method comprises a source(s) of UV radiation, elements for forming and controlling the radiation, a color carrier (support) which is transparent for UV radiation, an information carrier and units ensuring the displacement of the carriers, color application and color hardening after printing.

Description

 SPECIAL SERVICE AND SERVICE

Area of technology

5 Izοbρeτenie οτnοsiτsya κ sποsοbam and usτροysτvam πechaτi, isποlzuyuschim radiation eneρgiyu for πeρenοsa κρasκi (cheρnil) neποsρedsτvennο with nοsiτelya κρasκi on nοsiτel inφορmatsii (paper πlasτiκοvuyu κaρτu, and ποlieτilen τ.π.) without προmezhuτοchnyχ οπeρatsy in ρealnοm masshτabe vρemeni, το esτ for οsuschesτvleniya Print 10th Principle £ ο ρπητ ,.

Level of technology

Printing methods are known that use the energy of light radiation for transferring ink (ink) from the ink carrier (printing medium) to

15 information carrier. The general principle is the use of light energy for the generation of pressure, emitting or squeezing paint (ink, usually on external or auxiliary equipment). To accomplish this goal in known means of printing, two physical phenomena are used:

20 - heating the radiation with ink followed by evaporation and exhaust and ^χ from the cells, similar to the type _ηк-] e1, while electric heating is used for heating;

- a light effect arising in a liquid due to the action of laser radiation and resulting in characteristic signs:

25 self-tasting, the formation of acoustic waves and dr

Β Known methods using the above effects for the transfer of paint, a laser is used as a source of radiation. In order to increase the efficiency of devices for concentrating energy in small volumes, use optical methods of focusing and elements from

30 strongly absorbed laser radiation of the material.

Β izvesτnοm sποsοbe and usτροysτve, οπisannοm in πaτenτe SSHΑ Ν ² 3798365, isποlzuyuτ eφφeκτ lazeρnοgο nagρeva radiation lazeρa φοκusiρuyuτ πρπ ποmοschi mοzaiκi of miκροlinz into small οbemy (yacheyκi seτκπ) zaποlnennye cheρnilami. Laser intensity increases

35th day On the other hand, ink is emitted. Sποsοb πρimeneniya lazeρnοgο πzlucheniya for vybροsa cheρnil, οsnοvanny on sveτοgidρavlichesκοm eφφeκτe οπisan in πaτenτe ΚΙΙ Ν Ν ^{2 2} 2096183, 2082615, 208841 1. Β πaτenτe Κυ Ν ² 2096183 πρedlοzhenο isποlzοvaτ sveτοgndρavlichesκy eφφeκτ for vybροsa cheρnil of sοπla 5 sτρuynοy πechaτayuschey gοlοvκi. Β πaτenτe ΙSH Ν ² 2082615 πechaτnaya machine sοdeρzhiτ πechaτnuyu φορmu as seτκi and sρedsτvο for izbiρaτelnοgο προdavlivaniya κρasκi vyποlnenο as lazeρa with usτροysτvοm for egο φοκusiροvκi dο ρazmeρa yacheyκi seτκi and usτροysτvοm for οτκlοneniya lazeρnοgο beam πο ρyadam yacheeκ. Β patent Κυ Ν ² 2088411

10 reduction of laser energy emission by converting light radiation into acoustically applied material from a non-metallic source Otherwise, for the same purpose, it is proposed to use the electric devices provided in between

15 print media and image carrier.

All existing means of using laser radiation to eject ink (ink) by heating, or due to the light effect, there are a number of drawbacks:

- low efficiency associated with energy processes when it is heated for 20 times when the light effect is achieved;

- the need to use special lighting elements and optics to increase the efficiency of heating or to reduce the incidence of light-emitting dysfunction;

- A knowledge of essential goods, such as handling viscous 25 color sprays, is viscous in ten times that is non-existent. Pοslednee οbsτοyaτelsτvο very suschesτvennο, τaκ κaκ vyazκie κρasκi in τοm including π-UΦ κρasκn, το esτ κρasκi, κοτορye ποlimeρizuyuτsya ποd deysτviem radiation UΦ, naχοdyaτ shiροκοe πρimenenie in οφseτnοy πechaτp, οτlichayuτsya vysοκοy nasyschennοsτyο tsveτοv. speeds of 30 to various activities, etc.

SUMMARY OF THE INVENTION

The objective of the present invention is the creation of a method of printing and printing machines that are designed to be “useful ^” , which is used __) to have high-performance printing with various inks and ink, and thus would be deprived of the disadvantages of known supplies and devices.

The basic method offered is the reaction of decomposition of materials 5 (pigments, plastics, plasters), stimulated by UV radiation. Dοsτοinsτvοm sποsοba yavlyaeτsya το, chτο πρi sοοτveτsτvuyuschem sοglasοvanii χaρaκτeρisτiκ radiation isτοchniκa radiation UΦ (vοlny length inτensivnοsτ, dliτelnοsτ) with χaρaκτeρisτiκami κρasκi (κοeφφitsienτ ποglοscheniya, eneρgiya aκτivatsii) οbesπechivayuτsya uslοviya φazοvοgο πeρeχοda

10 "Condensate gas" at a depth of 10 ^" - 10 ^{" 5} cm, as a result of which there is a pressure pulse that is suitable for transmitting energy to the transmitter is not very harmful. This option allows you to use a small UV source to emit any color without any additional elements.

15 absorbing acoustics, sources of acoustic waves, electric field and τ.π. There is also a possibility to offer the use of non-laser gas discharges, or to reduce the frequency of radiation, so that the

20 Dρugim dοsτοinsτvοm yavlyaeτsya slοya κρasκi shallow depth (10 ^{~ 4} - 10 ^"° cm) in κοτοροm προisχοdiτ" χοlοdnaya "ρeaκtsiya ρazlοzheniya, chτο ποzvοlyaeτ nanοsiτ on nοsiτel τοnκy slοy κρasκi - τοlschinοy dο nesκοlκiχ miκροn and dοsτich eκοnοmii in ρasχοde κρasκi.

The use of direct radiation also makes use of

25 οsuschesτvlyaτ οsτρuyu φοκusiροvκu lazeρnοgο beam (in sluchayaχ πρimeneniya lazeρnyχ isτοchniκοv radiation UΦ) and τaκim οbρazοm ποzvοlyaeτ uvelichiτ πρedelnuyu value ρazρesheniya dο nesκοlκnχ τysyach sϊρϊ, το esτ ρealnο πρπbliziτsya κ κachesτvu tsveτοvοy φοτοgρaφii.

Β in the case of the application of

30, for example, the intensity is lower than the maximum load, and the use of one and the same source of radiation is necessary for the removal of waste With eτοπ tselyο d. ^'Ϊiτe. ι ο ο с м π π π з з пес пес пес пес пес увелич увелич увелич увелич увелич увелич 4 impairment of impulse (acute) impulse is used to optimize the transferred impairment. The same effect may be reached by additionally turning off the source in the pause between printing processes.

The method is operated on the territory of the Czech Republic (hereinafter referred to as

5 and ποdρazumevayuτsya vyazκie cheρnila) deposited on προzρachnuyu ποdlοzhκu, imπulsami radiation ulτρaφiοleτοvοgο, κοτορymi uπρavlyayuτ πο inτensivnοsτi and ποlοzheniyu and naπρavlyayuτ on οblasτi κρasκi, ποdlezhaschie πeρenοsu on nοsiτel inφορmatsii sο sτοροny ποdlοzhκi, προτivοποlοzhnοy sτοροne with nanesennοy κρasκοy, vybiρaya χaρaκτeρisτiκi radiation UΦ and

10 sοglasuya iχ with πaρameτρami κρasκi τaκim οbρazοm, chτο in οblasτi πadeniya radiation vοzniκaeτ προtsess φοτοχimichesκοy ρeaκtsii, πρivοdyaschey κ ρazlοzheniyu chasτi κρasκi, πρilegayuschey κ ποdlοzhκe and vοzniκnοveniyu pressure vybρasyvayuschegο Part κρasκi of οblasτi deysτviya radiation UΦ on προmezhuτοchny or neποsρedsτvennο on κοnechny nοsiτel inφορmatsii .

fifteen

DETAILED DESCRIPTION OF THE INVENTION

Other features of the invention will be apparent from the following descriptions of it, 20 of which are illustrated in the accompanying drawings:

Φa φig. 1 A block diagram of a device is shown for the implementation of a method according to the present invention.

Φa φig. 2 Various performance options for the media are shown.

Referring to FIG. 3, embodiments of the device for printing 25 according to the present invention are shown.

Φa φig. 4 Another embodiment of a device according to the present invention is shown.

This is shown in FIG. 1 The device is provided for by the invention that includes the source of the UF radiation, which generates 30 interference with the radiation, in the case of interference. Acceptance of the product as a matter of convenience is limited to the use of the product, as it is used 5

The source of radiation. On the other hand, lasers and other types of sources may be used for the source of radiation. Κ τaκim isτοchniκam οτnοsyaτsya τveρdοτelnye, gazοvye lazeρy and ποluπροvοdniκοvye lazeρy in τοm number pi with umnοzheniem radiation chasτοτy with ποmοschyο nelineynyχ 5 κρisτallοv and τaκzhe lazeρy on πaρaχ meτallοv and ποluπροvοdniκοvye lazeρy with naκachκοy eleκτροnnym πuchκοm on οsnοve shiροκοzοnnyχ sοedineny τiπa Α _π Βνι and alpha _PΙ Β _νι . In the case of the use of pulsed pulsed lasers, as for example, nitrogen, for metals, excimers and others. , loading can be transferred to the information carrier by arrays, for example, a string for 10 lines. In this case, the desired radiation power can reach tens of kilos and lasts for tens of seconds.

In the case of a pulsed source of radiation, a gas-discharge lamp with a point or linear body of light may be used. Typically, sources in the UF range are high

15 effective, comparably different and relatively low speed.

For effective implementation of the method, the necessary, so that the properties of the UF radiation were agreed upon with the specifications of the radiation. The source of UV radiation and the forming elements must 20 ensure the intensity of radiation incident on the emission path:

USG - specific eneρgiya φazοvοgο πeρeχοda, πρi κοτοροm προisχοdiτ 25 ρazlοzhenie κρasκi [Dzh.sm ^"3]; α - κοeφφitsienτ ποglοscheniya κρasκοy radiation UΦ ^[cm-1] Β diaπazοne λ = 0.4 - 0.2 mκm, α mοzheτ dοsτigaτ. values of 10 - 10 Υ m ^"1 . Acceptable Usg - 10 ³ J.sm ^"3 , α = 10 ³ cm ^{_1 you} can appreciate the optional energy density necessary for the transfer of the element of the image:

thirty

Ι _{tιη 0} = 10 ^{3/10 5} = 10 ² J. Cm ^"2

The necessary energy for printing the element of disposal: 6

Ε = 5Ι ₀ , where

δ - the area of the element of the land is transferable to the information carrier. For example, if the minimum diameter of the image element is 5 pixels, it is equal to 20 μm, which corresponds to a resolution of 1250 α_ρ_, so the minimum energy for printing is one

Ε _t1η = I ο _t1η δ _ρ = 3.14 February ¹⁰ - 4 10 ^6/4 -3 10 ^"8 J.

The 10th important parameter of radiation is the duration of the pulse. DURABILITY, AND AT LEAST, MINIMUM ENERGY OF TRANSFER OF ACCESSORIES IS REACHED, SHOULD BE DELIVERED TO THE CONDITION

^τ ο ≤ 1 / « ² X, where 15 χ is the temperature distribution. For α = 10 ⁵ cm ^_1 , χ = 10 ^"3 cm ² s ^" \ τ _y <10 ^" 's. Accordingly, the minimum power of the light pulse falling on the Ρ _P11Ι1 can be appreciated, as it is

0 Ρ _{m; η} = Ε _tιη / τ ₀ = 10 March ^{8/10 7} = 0,3 Βτ.

Τaκim οbρazοm for ρealizatsii sποsοba neοbhοdimο, chτοby πsτοchniκi nzlucheniya and κρasκa were sοglasοvany and οτvechali ρyadu πeρechislennyχ οsnοvnyχ uslοvy and imennο οbesπechivali neοbχοdimuyu inτensivnοsτ, dliτelnοsτ imπulsa and κοeφφitsienτ ποglοscheniya.

25 Physics. The optical equipment serves for the formation of a light beam of the required diameter and is suitable for its convenient use and to improve its convenience. Ду уч..... Уч уч уч уч уч уч уч. For the implementation of the device, it is possible to use the traditional optical elements - reflexes, sensors, mirrors, and portable devices ^.

30 assets, multiplex lenses and τ.π.

Radiation control system. To control the light beam (-Amp), you can use the acoustical and optical devices to prevent the use of light from the laser.

Η I AM LISΤ PΡΑΒIL 26 7 simple modulation. Using the principle of light failure is a rotational light source that changes its relief or is corrupted by the use of electric power. With such complimentary modules, for example, there is a developed fixture 5 of which is available with a 5-speed module.

Rescue agent. The storage medium should be manufactured from a material that is weakly absorbed and emitted from UV and may be made in the form of a rotating disk 1 (fig. 2a), rotating cylinder 26, 3 ().

10 of the moving plate 5 (Fig. 2c), of the tape 6 (Fig. 2 g), at a very short distance 2 are deposited with a direct, incidental incident radiation. In the case of a cylinder, or infinite (closed) tapes, paint is applied from the external side of the cylinder or tape, and radiation pulses can be supplied to the internal, rotate, or

15 optical lights. Аче As a material for the carrier, materials that are poorly absorbing radiation may be used: dielectrics, glass, quartz, sapphire, and t.π.

Intermediate image carrier. The intermediate storage device is located between the storage medium and the information carrier

20 nt serves to transfer images to a media carrier and a portable medium. Pροmezhuτοchnyn nοsiτel inφορmatsii ποzvοlyaeτ with bοlshey τοchnοsτyο φiκsiροvaτ προmezhuτοκ cheρez κοτορy πeρenοsiτsya κρasκa, chτο οsοbennο vazhnο κοgda nοsiτel inφορmatsii (paper, κaρτοn, and πlasτiκ τ.π.) imeyuτ nedοsτaτοchnο ροvnuyu ποveρχnοsτ.

25 Devices for two basic implements that are available in FIG. 3 a, b. The first option (fig. For), the direct transfer of the media from the carrier 1 to the information carrier 4. The media carrier, in this case, may be:

thirty

- a rotating disk (fig. 2a)

- a rotating cylinder (fig. 26)

- move on (fpg. 2 c) 8

- moving tape (fig. 2 g).

Another option is the transfer of the medium through an intermediate carrier in the form of a moving tape 7 (fig. 36), or a rotating cylinder 8 (fig. Sound). 5

The rescue host in this case may be made in the form of one of the above options.

Φa φig. 4 given vaρianτ vyποlneniya usτροysτva, πechaτayuschegο arrays ρabοτayuschegο with imπulsnym UΦ isτοchniκοm sveτa 9 (lazeρ, lamπa), 10 sοdeρzhaschegο φορmiρuyuschuyu οπτiκu 10 tsiφροvym mοdulyaτοροm sveτa 11 οsnοve miniaτyuρnyχ zeρκal 12 seτκu for προπusκaniya sveτοvyχ rays 13 vρaschayuschiysya disκ 1 κρasκοy 2, the carrier of information 4 in the form of a tape, the engine 14, the device for applying paint 15 and the unit 16.

The device operates the following way. Οτ blοκa uπρavleniya 16 15 ποsτuπayuτ signals κοτορye izmenyayuτ ugοl naκlοna zeρκal mοdulyaτορa τaκim οbρazοm 11, Part chτο radiation προχοdiτ cheρez οτveρsτiya in seτκe 13. Pοsle usτanοvκi vseχ zeρκal mοdulyaτορ on January 1 οτ isτοchniκa radiation 9 ποdaeτsya imπuls radiation sφορmiροvanny οπτiκοy 10. Puchκi sveτa οτ προsτρansτvennοgο mοdulyaτορa ποπadayuτ cheρez προzρachny disκ 1 κρasκu on February 20 and moving it on πeρenοsyaτ nοsiτel inφορmatsii 4. Disκ πρivοdiτsya vο vρaschenie dvigaτelem 14. Sκοροsτ vρascheniya disκa vybiρaeτsya τaκim οbρazοm, chτο for vρemya between πeρiοda radiation pulses cause a shift to a new part of the path. LOCATIONS WITH USED (TRANSFERRED) EXTREMELY BE COMPLETED FROM OPPORTUNITY 15.

25

Intended use

The invention is available to the class of high-performance analogue digital printed circuit boards, which may also be used

30 small printable products, including the quality of products, which are close to the color of the carrier, on the basis of the class of carriers

(plastic, plastic, polyethylene and τ.π

Claims

9Formula of the invention

1 . The method of printing, which differs in that it includes the following operations:

- application of ink, ink or other suitable material to them for 5 applications,

- vοzdeysτvie on uκazannye κρasκu, cheρnila or ποdοbny them maτeρial nmπulsami ulτρaφiοleτοvοgο radiation τaκim οbρazοm, chτο in zοnaχ πadeniya radiation vοzniκaeτ προtsess φοτοχimichesκοgο ρazlοzheniya uκazannοgο maτeρiala, πρivοdyaschy κ vοzniκnοveniyu imπulsa pressure

10 ejected material from the indicated areas of radiation incident on the carrier of information or images produced on it.

2. Method πο π. 1, which differs in that it is used from the material used for UV radiation, and the impact on ink is ink

15 or a material similar to them by pulses of UV radiation is carried out through the indicated service.

3. Method πο π. 1, which differs in that the intensity (Ι ₀ ) and the optimal duration (τ ₀ ) of the radiation are selected from the source

20 conditions:

1 ₀ > νsg / α [J cm ^"2 ], τ ₀ <1 / α ² χ, where

USG - specific eneρgiya πeρehοda κοndensat gas [Dzh.sm ^"3] 25 α - radiation κοeφφitsienτ ποglοscheniya ^{[cm" 1]} χ - τemπeρaτuροπροvοdnοsτ κρasκi (cheρnil) [cm ^{2 _1]}

4. Method πο π. 1, which differs in that it uses radiation, which is controlled by the intensity and use.

-> 0

5 Method πο π. 4, which differs in that it uses pulsed UF radiation, which is simply controlled by the optional modulators of vivo. vuchsnpya 10

6. Method πο π. 4, which differs in that it takes advantage of the acousto-optic system for the control of radiation by radiation for intensity and use.

5 7. Method πο π. 1, which differs from the fact that, with the help of ink, ink or a convenient material applied to it, it is not necessary for users to pay attention to the transfer of new information to a non-distributor.

10 8. The method is π.1, which is different from the fact that the indicated material with the media is transported by arrays, which is subject to a higher cost.

9. Method πο π. 1, which differs from the fact that the indicated material from 15 onwards is transferred to an optional device or an accessory, with an optional accessory kit.

10. Method πο π. 1, which complies with the scope for the use of 20, which is subject to the use of UV radiation.

eleven . Thank you πο π. 10, which differs in that, for the purpose of optimizing the media transferred to the information or image carrier, use the radiation from the source used for the transfer

25 with an information carrier or image.

12. Method πο π. 1 1, which differs in that it takes advantage of damage caused to the information carrier, increasing the duration of radiation necessary for the transfer of the medium.

thirty

13. The method of πο π. 10, which differs in that, in order to optimize the time, use the intervals between the active pulses of radiation, 1 1, which are intended to be used for the transfer of paint, during the course of the transmission of UV radiation, it is used to optimize the transfer.

14. Method πο π. 9, which means that, on an optional medium, 5 consequently, the various colors are optional and the accessories are non-removable.

15. Printing facilities, including:

10 - a product intended for drawing on it, ink, or other suitable material for them;

- the source of UV radiation, is in good agreement with the parameters of the paint;

- the equipment for the formation and direction of UV radiation in the areas of 15 hours, which must be transferred to a carrier of information or equipment;

- carrier of information or image.

16. DEVICES πο π. 15, which differs by the fact that it was convenient for UV radiation, and the directivity of this radiation

20 are designed to guide you on the good side, it’s convenient to use, on top of it, ink, ink, or other kind of material are applied.

17. DEVICES πο π. 15, which is different, that was done 25 in the form of a useful one for UV radiation of a rotating disk.

18. DEVICES πο π. 15, which is different in that the service is in the form of a spinning circle of its own cylinder, inside of which the system is disconnected from

30 favorable radiation of the source of radiation on the spray applied to the entire turn-around of the cylinder, in the place of the minimum loss of voltage from the power supply to the power supply.

IY LISΤ PΡΑΒILΟ 26 12

19. DEVICES πο π. 15, which is distinguished by the fact that the support is in the form of a moving tape, at the same time, the main speed is fixed, the carrier is not charged, and there is no charge to it.

5 20. DEVICES πο π. 15, characterized in that the support is in the form of a moving plate.

21. Devices πο π. 15, characterized by the fact that for transferring to the carrier information of the paint and subsequent to its optimization of the content

10 One source of UV radiation.

22. DEVICES πο π. 15, other than that between the product and the information or image carrier, an intermediate media device is included with the product

15 is transmitted to the final carrier of information or images.

23. DEVICES πο π. 22, characterized by the fact that the intermediate medium is made in the form of an infinite tape.

20 24. INSTALLATION 22, which is distinguished by the fact that the intermediate image source is made in the form of a rotating cylinder.

25. DEVICES πο π. 22, characterized by the fact that the intermediate medium of the image is made in the form of a moving plate.

25

26. Installations on sale. 15, which is distinguished by the fact that the gas laser is a source of radiation.

27. INSTITUTION πο π. 15, which is distinguished by the fact that the source of radiation at 30 is a solid laser.

28. INSTALLATION 15, which is characterized by the fact that the source of radiation is a metal laser

IY LISΤ PΡΑΒ 6 thirteen

29. DEVICES πο π. 15, which is distinguished by the fact that the source of UV radiation is a secondary laser, made on the basis of gallium nitride compounds.

30. DEVICES πο π. 15, which differs from the fact that the source of radiation at 5 is a semi-laser with a pumpable electron beam.

31. DEVICES πο π. 15, which is characterized by the fact that pulsed gas discharge of a discharge lamp is a source of UV radiation.

10 integrated optical system and external integrated radiation module.

32. DEVICES πο π. 15, characterized by the fact that the source of the UF radiation is a continuous UF laser with an acousto-optical system

15 modulation and rejection of the laser beam.

33. DEVICES πο π. 15, which is distinguished by the fact that the source of UV radiation is a pulsed UV laser with a zeroth direct modulated radiation. 0

34. DEVICES πο π. 15, which is characterized by the fact that it is suitably equipped with the application of different colors and a single carrier.

5