• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Method for cleaning a printed web (195) of flexible material with printing ink on at least one side thereof and removing the printing ink using a device (100) comprising a cleaning member. The method comprises - contacting the at least one side of the web (195) which comprises printing ink with a cleaning fluid (599), - removing the printing ink which has been brought into contact with the cleaning fluid (599) with the cleaning member delivering a cleaned web (195) of flexible material, and - removing adhering cleaning fluid (599) from the cleaned web (195) of flexible material; For efficient cleaning, the printed web (195) - is led into a bath (121) with cleaning fluid (599), and - is stripped of the printing ink in the bath (121) by means of the cleaning member; and the cleaned web (195) is led out of the bath (121) and stripped of the adherent cleaning fluid (599).
    公开号:NL2018631A
    申请号:NL2018631
    申请日:2017-04-01
    公开日:2017-04-11
    发明作者:Van Kesteren Harmen;Mark Van Wijhe Christiaan
    申请人:Polymount Int B V;
    IPC主号:
    专利说明:

    Method for cleaning a printed web of flexible material, as well as a device therefor
    The present invention relates to a device for cleaning a printed web, which device comprises - a frame, - a motor for passing the printed web through the device, and - a cleaning device for removing printing ink from the printed job.
    A device according to the preamble is known in the art.
    To this end, a device according to the preamble is characterized in that the device comprises an auxiliary frame, which auxiliary frame comprises at least one guide roller for determining a path of the printed web; and the device is arranged so that the auxiliary frame is in a relatively high first position and a relatively low second position; can be; wherein on each of i) a first side of the auxiliary frame, and ii) an opposite second side of the auxiliary frame, at least one flexible element is provided which - is passed over a suspension point, and - comprises a section extending downwards ; and the auxiliary frame can be carried from the second position to the first position by exerting a downward force on said sections.
    Thus, prior to cleaning the printed web, the printed web can be brought into the first position in the auxiliary frame, and for cleaning the auxiliary frame can be brought into the second position, the printed web being passed through a bath of cleaning fluid.
    By means of the flexible element and suspension point as described in the main claim, the height of the device at the location of the auxiliary frame can be kept limited. More specifically, no hoist installation is required that protrudes above the auxiliary frame in its first position. A further advantage is the improved accessibility around the auxiliary frame, whereby a printed web can be introduced more easily into the auxiliary frame when it is in the first position for cleaning of said printed web. The flexible element will preferably be attached to the lower half of the auxiliary frame, advantageously at less than 25% of its height. As a result, the top of the auxiliary frame can protrude above the suspension points and the printed path can easily be introduced into the auxiliary frame. Most preferably, a flexible element is attached near each corner of the auxiliary frame. The flexible element is, for example, a chain, toothed belt, belt or a cable. The suspension point is advantageously in the form of a gear or a pulley. The flexible elements are preferably coupled for uniformly lifting the auxiliary frame. Advantageously, cables are wound around an axis, more advantageously around an axis with an external pitch; wherein the axis is displaced longitudinally by rotation of the axis. The latter can easily be achieved by rotatably mounting the shaft in a through hole with internal pitch. This also prevents angular rotations of the flexible elements, and a very even lifting of the auxiliary frame can be achieved.
    A favorable embodiment is characterized in that the auxiliary frame comprises the cleaning member.
    Thus, the placement of the auxiliary frame in the bath becomes less critical, and the printed web can be efficiently cleaned with increased reliability. The cleaning member, such as a scraper member, is preferably displaceable and lockable relative to the auxiliary frame.
    A favorable embodiment is characterized in that the device comprises a support for a bath with cleaning liquid, wherein the flexible elements that run to the opposite second side extend below the support.
    The bath can thus be removed without being bothered by the auxiliary frame and the structure for carrying it to the first position. The support is advantageously in the form of rails, for example in the form of gutters in which the wheels of a mobile bath are guided, for easy positioning of the bath so that the auxiliary frame can be brought to the second position without hindrance.
    Finally, the present invention relates to a method for cleaning a printed web of flexible material, wherein the web comprises printing ink on at least one side and the printing ink is stripped off using a device for cleaning the printed web of flexible material which device comprises a cleaning member, and which method comprises the steps of - bringing into contact the at least one side of the web which comprises printing ink with a cleaning liquid, - removing the printing ink which has been brought into contact with the cleaning liquid with the cleaning member yielding a cleaned web of flexible material, and - removing adhering cleaning fluid from the cleaned web of flexible material.
    When printing a web of flexible material, generally a plastic film, unusable printed film is created when the printing process is set. The setting includes registering colors with multi-color printing and / or adjusting a color until it has the desired shade. Since the transfer speed of film along the printing machine is relatively large (e.g. 1 m / sec) and the adjustment takes relatively much time, large quantities of rejected printed film are released. It is known in the art to clean the printed web, for example from US 5289774.
    A problem is that the cleaning can fall short, i.e. ink residues remain on the web.
    The present invention aims to reduce this problem. For this purpose, a method according to the preamble is characterized in that a device according to one of claims 1 to 3 is used, wherein the printed web is - guided into a bath with cleaning liquid, and - in the bath is removed from the printing ink by means of the cleaning member, with delivery of the cleaned job; and the cleaned web is led out of the bath and the adhering cleaning fluid is stripped.
    By passing through a bath, intensive contact with the cleaning fluid can be achieved and detached ink particles from the web can be brought into a relatively large volume of cleaning fluid. A more efficient cleaning is thus achieved.
    The cleaning member is, for example, an ultrasonic cleaning member or is a scraper member such as, for example, a brush or a sponge roller. Removing adherent cleaning fluid may include the use of various means such as wiper blades, air knives, a drying cabinet, or a combination thereof. The cleaning member generally extends transversely to the longitudinal direction of the flexible web, generally over its entire width.
    Usually, the cleaned web will be processed into granulate, but preferably reused (re-printed). For the latter, the cleaned web will be rolled up or possibly directly fed to a printing press. A drying step will be carried out for reuse as printing foil.
    A favorable embodiment is characterized in that the cleaning member is a rotating scraper member that rotates at a speed that is coupled to the speed at which the cleaned web leaves the bath.
    Thus, the speed at which the scraper member scrapes over the surface of the printed web can be adjusted and the film can be adequately stripped of ink even at higher throughput speeds of the printed web. Coupling can be achieved by coupling the rotary scraper with a motor with which the printed web is passed through the bath, or by coupling the rotary scraper with a guide roller used for passing the printed web through the bath. Use can herein be made of a mechanical coupling such as by means of gears, a chain or the like. Instead, the rotating scraper member can be driven by its own motor, the speed being controlled depending on the feed speed of the printed web.
    A favorable embodiment is characterized in that the direction of rotation of the rotating scraper is such that it moves against the direction of movement of the printed path at the place where the scraper is in contact with the printed web.
    Thus, the speed with which the scraper member moves over the surface of the printed web can be increased, so that the printed web can be better removed from ink.
    A favorable embodiment is characterized in that the printed web is cleaned with a device which comprises a frame and an auxiliary frame, which auxiliary frame comprises - at least one guide roller; - can be in a relatively high first position and a relatively low second position; wherein for cleaning the printed web - the printed web is brought into the first position in the auxiliary frame, and - the auxiliary frame is brought into the second position, and the printed web for cleaning thereof is passed through the auxiliary frame.
    With the auxiliary frame in a relatively high position, wherein the auxiliary frame is partially or entirely above the bath and above any cleaning fluid present therein, the printed web can easily be introduced. The frame will comprise a drive for passing the printed web through the device. The first leading part of the printed web will not be cleaned. However, when a printed web is coupled ("splicing", with tape as is known in the case of film printing) to a trailing end of a printed web that still has to be at least partially subjected to cleaning, this disadvantage is only very limited. Being able to move from the second position to the first position is also useful in the case of maintenance, repair and cleaning of the device and / or the replacement of the liquid from the bath.
    A favorable embodiment is characterized in that the auxiliary frame comprises the cleaning member.
    Thus, the placement of the auxiliary frame in the bath becomes less critical, and the printed web can be efficiently cleaned with increased reliability.
    A favorable embodiment is characterized in that the cleaning liquid in the bath is subjected to a filtration for removing ink particles.
    Thus, the concentration of ink particles in the cleaning fluid is lowered and can be used longer before it needs to be replaced. Filtration is effected, for example, by circulating the cleaning fluid through a filter, preferably continuously.
    A favorable embodiment is characterized in that the cleaning liquid in the bath is subjected to a distillation to obtain cleaning liquid that has been stripped of ink particles and is introduced back into the bath.
    A cost saving on cleaning fluid can thus be achieved.
    A favorable embodiment is characterized in that the cleaned web after being stripped of adhering cleaning liquid and is subjected to a drying step.
    The post-drying step may include the use of wiper blades, air knives, and a drying cabinet or a combination thereof.
    Thus, the cleaned web can be stripped of adhering liquid even more efficiently. The air knives are arranged in such a way that they will blow air against the direction of movement of the cleaned web.
    A favorable embodiment is characterized in that the cleaned web is rolled up after the cleaning fluid has been removed.
    It is thus ready for re-printing, for example for setting up a printing process.
    A favorable embodiment is characterized in that the web obtained after removal of cleaning fluid with wiper blades is again brought into contact with further fluid on both sides.
    The further liquid is, for example, cleaning liquid. The contacting can be carried out, for example, by spraying or by guiding the path through a second bath (including a compartment of the previous bath). This second bath contains, for example, cleaning liquid as the further liquid, which is relatively clean. This cleaning fluid can be supplied continuously or discontinuously to the upstream bath from which fluid with a high ink content is then discharged. Thus, the contamination of cleaning fluid in the first bath is considerably less important, and the concentration thereof may be higher. This makes disposal cheaper and / or filtering easier. Furthermore, the consumption of cleaning fluid can thus be limited while excellent cleaning is achieved.
    After contact with the further liquid, the cleaned web with further wiper blades is again stripped of adhering liquid.
    A favorable embodiment is characterized in that the further liquid is at least 96 vol./vol.% water, preferably 98.5 vol./vol.% water and more preferably 99.8 vol./vol.% water.
    A better drying is thus achieved because fewer low-volatile components will be present and thus faster / better drying can be achieved and / or fewer chemicals will remain on the resulting film after drying.
    Preferably, the further liquid is calcium depleted water such as descaled water, demineralized water, reverse osmosis water or distilled water.
    A favorable embodiment is characterized in that wiper blades selected from a pair of wiper blades and / or from a pair of further wiper blades are located at a location where the web moves at an angle of at least 20 ° to the horizontal and for each pair the wiper blades of each are arranged at a distance of at least 2 cm from each other in the conveying direction and extend beyond the track, the track being first passed along the upper wiper blade and then along the lower wiper blade of a pair.
    Thus, cleaning fluid can be removed more efficiently from the film. For the first pair of wiper blades, this also means that more efficiently soiling of a second bath that is located downstream of the first pair of wiper blades is delayed.
    The distance in the direction of transport of the wiper blades and / or further wiper blades is preferably at least 2 cm and more preferably at least 4 cm (this distance is the distance between the contact lines of the wipers of a pair with the foil). A greater distance makes it possible to avoid problems such as one or more of i) stretching of the web, ii) creasing, and iii) tearing of the web, while nevertheless liquid on the surface of the web in question can be very effectively removed. The angle with the horizontal is preferably at least 40 °.
    A favorable embodiment is characterized in that the wiper blades selected from wiper blades and / or from further wiper blades are located at a location where the web is at an angle of at most 87 °, preferably at most 82 °, and more preferably at most 75 ° with the horizontal between the wiper blades.
    Thus the chance is reduced that liquid is brought from one side of the web through the wiper blade to the other side. Thus, liquid is effectively removed from the web on both sides of the web.
    The present invention will now be explained with reference to the drawing, in which
    FIG. la shows a longitudinal section through a device according to the invention;
    FIG. 1b is a perspective view of the device according to FIG. 1A shows in a state wherein the device is provided with a web of foil;
    FIG. 1c shows a cross-section through the device of FIG. 1B;
    FIG. 2 shows a detail of wiper blades of the device of Fig. 1A;
    FIG. 3 a detail of a drying cabinet of the device of FIG. IA shows;
    FIG. 4A a detail of the longitudinal section of FIG. IA shows;
    FIG. 4b is a perspective view of the detail of FIG. 4A;
    FIG. 5a shows a detail in longitudinal section of a bath of the device according to the invention;
    FIG. 5b corresponds to FIG. 5A and the brush roller drive in the bath of the device according to the invention;
    FIG. 6 shows a detail in longitudinal section of a bath of an alternative device according to the invention; and
    FIG. 7A and FIG. 7B show a section through a profile provided with a wiper blade in a first rest position and a second position of use.
    FIG. 1A-1C show a device 100 according to the invention for cleaning a printed web 195 of flexible material, in short foil 195.
    In the embodiment described here, the device 100 comprises a first section 110 for supplying film 195 to a second section 120 which is a cleaning section 120 and comprises a bath 121 that can be filled with a cleaning liquid. After cleaning in the bath 121, the ink-stripped foil 195 is dried in a third section 130 and then rolled up in a fourth section 140 to yield a roll 195b of cleaned foil 195 'suitable for use in balancing of the printing parameters when printing foil.
    More specifically, the device 100 comprises a frame 101. In the first section 110, the frame 101 is adapted to rotatably place a roll of printed foil 1S5 to be stripped of printing ink.
    The second section 120 comprises, in addition to the bath 121, an auxiliary frame 150 which can be in a relatively high first position (Fig. 1B and Fig. 1C) and in a relatively low second position (Fig. IA), wherein the auxiliary frame 150 is located in the bath 121.
    The auxiliary frame 150 is provided with guide rollers 153 and rotating scraper members 152. The guide rollers 153 define a path of the foil 195 through the auxiliary frame 150 and therefore also through the bath 121. The rotating scraper members 152 rid the printed foil 195 of the printing ink, thereby assisted by the cleaning fluid. Loosened ink particles end up in the cleaning fluid, and can be fed to a filter 124 by means of a pump 123, after which the cleaned fluid returns to the bath 121. The filter 124 is, for example, a filter candle (Type VB-H-52, Firma Van Borselen, Zoetermeer, the Netherlands). The cleaning fluid is, for example, Polywash 3000 (Polymount International BV, Nijkerk Netherlands), a cleaning fluid based on 4-hydroxy-4-methylpentan-2-one. The scraper members 152 are, for example, rolls (diameter 8 cm) covered with nylon plush (Pental Eterna Brushes & Tools Making Co., Ltd., Shanghai, China). The plush material is advantageously arranged on the rollers in the form of a strip and spirally, so that a more efficient cleaning of the film 195 can be effected.
    When the foil 195 'stripped of printing ink leaves the bath 121, liquid is present on the surface of the foil 195'. This is removed using a pair of rubber wiper blades 127, which are placed on either side of the film 195 'and press against the film 195' which is passed between them. For efficient stripping of adherent liquid, the wiper blades 127 protrude beyond the web of foil 195 '. The wiper blades are preferably made of EPDM rubber.
    The film 195 'is passed at an angle of 55 ° with the horizontal along the wiper blades, first along the wiper blade at the top at a distance 280 of 10 cm followed by a wiper blade at the bottom of the foil 195'.
    In the third section 130, the film 195 'is dried in a drying cabinet 131 using air knives 132. The film 1S5' is created through a long path with guide rollers 133 through the drying cabinet 131, air being supplied to the drying cabinet 131 by means of a fan 135. is supplied. The dried film 195 'is rolled up in the fourth section 140. The roll 195b film 195 'is driven by a motor 141 and pulls the film 195 through the device 100.
    FIG. 1A also shows pulleys 128 for seeing from the first position of the auxiliary frame 150 to the second position vv. This will be described below with reference to FIG. 4A and FIG. 4B.
    FIG. 1B shows a perspective view of the device 100 of FIG. 1A, however, in a state where the bath 121 is rolled over rails 125 to outside the frame 101. This is practical, for example, when cleaning the bath 121.
    Furthermore, the auxiliary frame 150 is in the first relatively high state, wherein the printed film 195 can easily be introduced into the auxiliary frame 150. Prior to cleaning the printed foil 195, the bath 121 will be rolled under the auxiliary frame 150, whereafter this will be brought to the relatively low second position (Fig. 1A).
    FIG. 1C shows a section through the device 100 in the embodiment shown in FIG. 1B where the bath 121 provided with wheels 126 is rolled over the rails 125 outside the frame 101; and wherein the auxiliary frame 150 is in the relatively high first state.
    FIG. 2 shows a detail of the device of FIG. 1A, and in particular, shows a pair of wiper blades 127, between which the web of foil 195 'is discharged from the bath 121 with cleaning fluid. Adherent cleaning fluid is thus removed from the web. However, this means that the sheet of film 195 'is not yet completely dry and it is also possible that drops of film 195' have remained behind.
    FIG. 3 shows a detail of the drying cabinet 131 of the device 100 of FIG. IA. The web of film 195 'is now passed between two wiper blades 327, which also ensure that the web of film 195' is guided between two air knives 132. The air knives 132 both stop any liquid droplets and promote their evaporation. In particular, the wiper blades 327 ensure that droplets blown through the air knives 132 of the film do not land on it again, but are guided away from the film to channels 328 for discharge of the removed liquid.
    For moving from the first position of the auxiliary frame 150 to the second position thereof in the embodiment discussed here, the auxiliary frame 150 is provided on the lower section (half) thereof with flexible elements 451, here in the form of cables 451. The cables 451 are attached to a shaft 452 (Fig. 4B) which can be driven by a motor 453 with angled transmission 454. As a result, the cables 451 are rolled up or unrolled on the shaft. The cables 451 are guided over pulleys 128. Thus, the auxiliary frame 150 can be lifted simply and reliably (to the first position) or can be lowered again.
    FIG. 4A shows that the cables 451 'for the opposite side of the auxiliary frame extend below the rails 125.
    FIG. 5A shows a longitudinal section through the bath 121 and the auxiliary frame 150 and illustrates how the printed web 195 for cleaning thereof is fed through guide rollers 133 through the bath 121 with cleaning fluid 599.
    In the present embodiment, the auxiliary frame 150 comprises two parallel steel plates 551 which are provided with windows 554 for inserting the printed web 195 into the auxiliary frame 150 when it is in the relatively high first position.
    FIG. 5B essentially corresponds to FIG. 5A, and illustrates how the printed web 195 for cleaning thereof is driven by guide rollers 153 and the scraper members 152 by means of a chain 560 provided with a chain tensioner 561, guide wheels 564, and a drive motor 562. To that end, the guide rollers 153 and the scraper members are 152 provided with gears 563, 563 'which are rotated by the chain 560. In the embodiment described here, the drive motor 562 is controlled depending on the speed at which motor 141 transports the web through the device.
    In the embodiment described here, the scraper members 152 are mounted so as to be movable in the horizontal direction and press them against the printed web 195. The gear wheels 563 'of the scraper members 152 press the chain 560 through a Teflon® plastic strip 565 against the gear wheels 563 of the guide rollers 153. More specifically, the plastic strip 565 is located between the links and against the bushes of the links of the chain 560. As a result, the chain 560 effectively drives the gears and the chain will not move away from the gears.
    FIG. 6 substantially corresponds to FIG. 5A, with the difference that a second bath 621 is provided with a further liquid. Further wiper blades 627 placed downstream will hardly contaminate and clean foil 195 'can be obtained very efficiently.
    The further liquid from the second bath 621 remains relatively clean and can, if it is cleaning liquid, be discharged to the first bath 121. This can be done continuously or in portions.
    However, the further liquid of the last bath is advantageously clean water, so that fewer chemicals remain on the film.
    In this embodiment the wiper blades 127a, 127b and further wiper blades 627a, 627b are placed in the conveying direction of the foil 195 for each pair at a distance of 10 cm from each other, which has the advantage that a relatively greater force can be exerted on the foil, whereby it can be effectively stripped of adhering liquid, resulting in a better quality, clean film 195 '.
    For both pairs of wiper blades, it holds that they are preferably situated at a location where the foil is at an angle of at least 40 ° with the horizontal, whereby gravity helps with the rapid discharge of the liquid in question. Preferably, the wiper blade 127a which removes the film from the top of fluid is positioned upstream with respect to the wiper blade which removes the bottom from fluid. Thus, liquid flowing from the side of the top of the film to the bottom of the film can still be removed by the wiper blade 127b located downstream (but with its contact edge higher) (the same applies to the further wiper blade 627b).
    FIG. 6 also shows an alternative cleaning member in the form of a brush plate 680. In order to be able to effectively exert force on the foil 195, a counter plate 681 is provided on the opposite side. In order to prevent damage to the foil 195, this counter plate 681 can be provided with relatively short, relatively flexible bristles, while the brush plate 680 will be provided with relatively long, relatively stiff bristles.
    FIG. 7A and FIG. 7B show a cross-section through a profile 770 which comprises a longitudinal groove 771 in which a wiper blade 127 is received, in particular a foot section 731 which is connected to the erasing section 733 via a flexible but form-retaining neck section 732.
    In use, the erasure section 733 will be carried by the foil 195 against which the wiper blade 127 is pressed, as a result of which the erasure section 733 tilts up to the erasure section 733 with a longitudinal edge 734 thereof against the profile 770. A fixed angle is thus achieved below which the erasure section 733 is positioned relative to the film 195.
    This embodiment allows the film 195 to be fed in the other way, which may be necessary if the web of film 195 is to be coupled to a next web of film 195.
    The method and device can be varied in various ways within the scope of protection as defined by the appended claims. For instance, for removing printing ink on an opposite side of the printed web, a further scraper member may be provided, as in FIG. 5Ά with the guide rollers on the right.
    权利要求:
    Claims (16)
    [1]
    A device (100) for cleaning a printed web (195), which device (100) comprises - a frame (101), - a motor for passing the printed web (195) through the device (100) and - a cleaning member (152) for removing printing ink from the printed web (195); characterized in that the device (100) comprises an auxiliary frame (150), which auxiliary frame (150) comprises at least one guide roller (153) for determining a path of the printed web (195); and the device (100) is arranged so that the auxiliary frame (150) is in a relatively high first position, and a relatively low second position; can be; wherein on each of i) a first side of the auxiliary frame (150), and ii) an opposite second side of the auxiliary frame (150) is provided with at least one flexible element which is - passed over a suspension point (128), and - comprises a section extending downward; and the auxiliary frame (150) can be passed from the second position to the first position by exerting a downward force on said sections.
    [2]
    The device (100) of claim 1, wherein the auxiliary frame (150) comprises the cleaning member (152).
    [3]
    The device (100) according to claim 1 or 2, wherein the device (100) comprises a support (125) for a bath (121) with cleaning fluid (599), the flexible elements (451) running to the opposite second side extend below the support (125).
    [4]
    A method for cleaning a printed web (195) of flexible material, wherein the web (195) comprises printing ink on at least one side thereof and the printing ink is stripped using a device (100) for cleaning the printed web web (195) of flexible material, which device (100) comprises a cleaning member (152), and which method comprises the steps of - bringing the at least one side of the web (195) into contact with printing ink with a cleaning fluid ( 599), - removing the printing ink that has been brought into contact with the cleaning fluid (599) with the cleaning member (152), yielding a cleaned web (195 ') of flexible material, and - removing adhering cleaning fluid (599) from the cleaned web (195 ') of flexible material; characterized in that a device according to any of claims 1 to 3 is used, wherein the printed web (195) is guided - into a bath (121) with cleaning fluid (599), and - into the bath (121) by means of the the cleaning member (152) is stripped of the printing ink to provide the cleaned web (195 '); and the cleaned web (195 ') is led out of the bath (121) and the adhering cleaning fluid (599) is stripped.
    [5]
    The method of claim 4, wherein the cleaning member (152) is a rotating scraper member (152) that rotates at a speed that is coupled to the speed at which the cleaned web (195 ') leaves the bath (121).
    [6]
    The method of claim 5, wherein the direction of rotation of the rotary scraper (152) is such that, at the location where the scraper (152) is in contact with the printed web (195) against the direction of movement of the printed web (195) moves.
    [7]
    The method of any one of claims 4 to 6, wherein the printed web (195) is cleaned with a device (100) comprising a frame (101) and an auxiliary frame (150), which auxiliary frame (150) - at least one guide roller (153); - can be in a relatively high first position and a relatively low second position; wherein for cleaning the printed web (195) - the printed web (195) is brought into the first position in the auxiliary frame (150), and - the auxiliary frame (150) is brought into the second position, and the printed web ( 195) is passed through the auxiliary frame (150) for cleaning thereof.
    [8]
    The method of claim 7, wherein the auxiliary frame (150) comprises the cleaning member (152).
    [9]
    The method of any one of claims 4 to 8, wherein the cleaning fluid (599) in the bath (121) is subjected to a filtration to remove ink particles.
    [10]
    The method of any one of claims 4 to 9, wherein the cleaning fluid (599) in the bath (121) is subjected to a distillation to obtain cleaning fluid (599) that has been stripped of ink particles and returned to the bath (121) ) is being brought.
    [11]
    The method of any one of claims 4 to 10, wherein the cleaned web (195 ') after being stripped of adherent cleaning fluid (599) and subjected to a drying step.
    [12]
    The method of any one of claims 4 to 11, wherein the cleaned web (195 ') is rolled up after removing the cleaning fluid (599).
    [13]
    A method according to any of claims 4 to 12, wherein the web obtained after removing cleaning fluid with wiper blades (127a, 127b) is again brought into contact with further fluid on both sides.
    [14]
    A method according to claim 13, wherein the further liquid is at least for 96 vol./vol.% water, preferably 98.5 vol./vol.% water and more preferably is 99.8 vol./vol.% water.
    [15]
    The method of any one of claims 4 to 14, wherein wiper blades selected from a pair of wiper blades (127a, 127b) and / or from a pair of further wiper blades (627a, 627b) are located at a location where the web is at an angle of moves at least 20 ° with the horizontal and for each pair the wiper blades of each pair are arranged at a distance of at least 2 cm from each other in the conveying direction and project beyond the web (195 '), the web (195') first is passed along the upper wiper blade and then along the lower wiper blade of a pair.
    [16]
    The method of claim 15, wherein the wiper blades selected from wiper blades and / or from further wiper blades are located at a location where the web is at an angle of at most 87 °, preferably at most 82 °, and more preferably at most 75 ° is fed horizontally between the wiper blades.
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    同族专利:
    公开号 | 公开日
    NL2016720B1|2017-04-05|
    NL2016720A|2016-11-07|
    WO2016178570A2|2016-11-10|
    EP3288689A2|2018-03-07|
    JP6949005B2|2021-10-13|
    US20180264523A1|2018-09-20|
    WO2016178570A3|2017-01-19|
    EP3330010A1|2018-06-06|
    NL2018631B1|2017-07-27|
    JP2018514384A|2018-06-07|
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    法律状态:
    2018-01-10| PD| Change of ownership|Owner name: BOERS HOLDING B.V.; NL Free format text: DETAILS ASSIGNMENT: CHANGE OF OWNER(S), ASSIGNMENT; FORMER OWNER NAME: POLYMOUNT INTERNATIONAL B.V. Effective date: 20171115 |
    优先权:
    申请号 | 申请日 | 专利标题
    NL2014747|2015-05-01|
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