WO2006134052A1 - Vorhangbeschichter mit grenzschichtablösevorrichtung - Google Patents
Vorhangbeschichter mit grenzschichtablösevorrichtung Download PDFInfo
- Publication number
- WO2006134052A1 WO2006134052A1 PCT/EP2006/062978 EP2006062978W WO2006134052A1 WO 2006134052 A1 WO2006134052 A1 WO 2006134052A1 EP 2006062978 W EP2006062978 W EP 2006062978W WO 2006134052 A1 WO2006134052 A1 WO 2006134052A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- substrate
- boundary layer
- curtain
- curtain coater
- pressure roller
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C5/00—Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work
- B05C5/005—Curtain coaters
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H23/00—Processes or apparatus for adding material to the pulp or to the paper
- D21H23/02—Processes or apparatus for adding material to the pulp or to the paper characterised by the manner in which substances are added
- D21H23/22—Addition to the formed paper
- D21H23/46—Pouring or allowing the fluid to flow in a continuous stream on to the surface, the entire stream being carried away by the paper
- D21H23/48—Curtain coaters
Definitions
- the present invention relates to an arrangement and method for curtain coating for applying thin films to moving substrates. More particularly, the present invention relates to a curtain coater having a barrier release device with a nip roll. Such devices are used, for example, in the coating of paper, plastic films (eg for adhesive tapes) or even in the coating of photographic films.
- a corresponding coating liquid for example a dispersion or solution or else (for example for cleaning purposes) a solvent
- a corresponding coating head By means of a correspondingly shaped casting gap, a pouring lip or a cascade, the coating liquid is formed into a free-falling curtain which impinges on a substrate moving transversely to the direction of the fall of the curtain.
- Typical speeds for the movement of the substrate are for example in the paper coating in the range of some 100 m / min.
- EP 0 440 279 A1 discloses a curtain coater for coating photographic elements, in which an "air shield" and a brush construction are arranged in the substrate movement direction before the line of impact of the liquid coating curtain on the substrate surface
- the construction shown has the disadvantage that the air shield and the brush construction cause air turbulence on the substrate surface immediately before the liquid coating curtain impingement line , which may induce additional inhomogeneities in the coated film
- brushes themselves may contribute to impurities on the substrate surface as contaminants readily accumulate in brushes can, which then z. T. again detached from the brush and can get between the substrate and film.
- EP 0 489 978 A1 discloses an "air shield", which additionally comprises means for reducing the air pressure between the air shield and the substrate surface, thereby removing the air boundary layer from the substrate surface, also from EO 0 0704 752 A1
- EP 0 906 789 B1 and US Pat. No. 4,842,900 disclose corresponding devices in which the air boundary layer on the substrate surface can be influenced by appropriate suction just before the coating curtain impinges.
- EP 0 704 752 A1 has, for this purpose, a suction device fixedly connected to a curtain generator and having an edge which removes the air boundary layer from the substrate surface by means of a vacuum pump immediately before the coating curtain impinges.
- EP 0 906 789 B1 proposes a device in which the air entrained by the moving carrier is conveyed via two layers of porous material and a supply and a suction device is influenced such that forms over the substrate surface, a parabolic velocity profile of the entrained air layer.
- US Pat. No. 4,842,900 moreover has a device firmly connected to a curtain generator, which exchanges the air boundary layer on the substrate surface immediately before the impingement line of the coating curtain with a higher solubility in the coating liquid compared to air having.
- a disadvantage is that usually not only a coating-side boundary layer on the substrate surface has a negative effect on the layer quality, but also a boundary layer entrained on the opposite side.
- an air cushion is usually entrained between the substrate and the conveying or pouring shaft, which causes the substrate to "float" on the roller, and also this floating, which leads to an undefined distance between substrate and casting shaft, and to a possible lateral displacement of the substrate the casting shaft, can influence the coating quality during curtain coating.
- a further problem is that the devices known from the prior art for removing the air boundary layer are usually either operated in contact with the substrate or, as for example in the case of EP 0 704 752 A1, in a position immediately above the substrate surface. Thus, many of the devices mentioned are operated at a distance from the substrate surface of approximately 0.4 mm. Such small distances, however, lead to safety and quality problems in large-scale curtain coating. Thus, with continuous substrates, for example films or webs, it can happen that the substrate, which is under considerable tension, breaks. If such a sheet break occurs, the broken substrate may wrap around rollers of the conveyor, form other thickenings, and eventually destroy or severely damage the prior art devices for removing the air boundary layer. This problem is often associated with considerable expense and security risk, especially at high substrate speeds, for example substrate speeds above 1000 m / min. Substrate cracks can often cause production losses of several hours.
- the substrates used do not necessarily have a uniform thickness.
- the substrate surface relief structures here is to mention in particular the case, in which two substrate webs are joined together.
- Conventional substrates are wound on rollers, wherein, in order not to interrupt the production, the next substrate roll is used immediately at the end of a roll and the next substrate is connected to the preceding substrate. For example, in this case substrate webs are glued together.
- This process is also referred to as a "flying splice.”
- substrate thicknesses that correspond to, or even exceed, two to three times the usual substrate thickness are frequently encountered, with substrate thicknesses of usually 60 to 100 ⁇ m, plus adhesive thicknesses of 100 to 300 ⁇ m, the gap spacings between a suction device and the substrate of 0.4 mm are thus reached quickly, which means that a corresponding device known from the prior art for removing the boundary layer at the substrate surface can also be easily damaged by this process.
- a device is to be specified, which is not damaged even in unforeseen events such as substrate cracks and which can be operated at a higher gap distance to the substrate, yet a good coating quality is achieved even at high substrate speeds.
- a curtain coater is proposed for coating a substrate surface of a moving substrate by means of a liquid coating curtain.
- the curtain coater has a curtain generator for producing the liquid coating curtain.
- this curtain producer can be, for example, a single-layered curtain generator or also a single-layered curtain generator multilayer curtain producers, for example by means of a cascade coating act.
- Other embodiments are possible and do not affect the gist of the invention.
- liquid material is a high flexibility.
- dispersions or even different solutions or other liquids can be used for curtain coating.
- curtain coaters can be used which have a plurality of curtain producers, which are connected, for example, in series.
- the substrates are preferably flexible substrates, such as moving film webs or paper webs. Alternatively or additionally, however, rigid substrates can also be used.
- the coating of several substrates at the same time is conceivable.
- substrates of relatively small size for example rectangular plates, or also "large” substrates, for example “endless substrates” (for example film webs or paper webs) can be used.
- the coating curtain should impinge on the substrate surface of the moving substrate along a line of impact.
- this impingement line is arranged perpendicular to the direction of movement of the substrate, but also deviations from the vertical are permissible, for example deviations of not more than 20 °.
- the curtain coater has a substrate conveying device which can set the substrate in motion relative to the curtain generator or relative to the impact line.
- the substrate conveying device is advantageously arranged spatially fixed to the curtain generator or to the impingement line during the coating process.
- the substrate conveying device can be, for example, a conveyor belt, a roller system or other systems which, in particular, can advantageously be adapted to the type of substrate.
- the substrate conveying device has a casting shaft, wherein advantageously the impingement line is arranged such that it lies on the substrate surface at a location of the substrate at which the substrate is in contact with the casting shaft.
- the curtain coater according to the invention has a boundary layer removal device arranged in the direction of movement of the substrate in front of the impact line.
- This boundary layer release device in turn comprises a vacuum device and at least one pressure roller, which together form an integral unit. tet are.
- the components of the boundary layer release device may be integrally connected to each other mechanically as a unit.
- the vacuum device serves to locally influence a gas boundary layer over the substrate surface. This influencing should take place within an area of influence (which, mutatis mutandis, can also be several contiguous or separated areas of influence).
- the vacuum device is arranged in the direction of movement of the substrate in front of the impingement line of the liquid brushing device.
- the vacuum device may, for example, be one of the mentioned devices of the prior art. It can be done analogously not only applying a simple negative pressure. Alternatively or additionally, for example, a targeted exchange of air for another gaseous medium or a targeted adjustment of a flow profile of a gaseous medium over the substrate surface can take place. In principle, all of the devices described above can be used.
- the at least one pressure roller is designed to press the moving substrate against the substrate conveying device in at least one pressing position.
- the at least one pressure roller can be designed as a roller of small diameter, which presses the substrate against a larger casting shaft from the periphery.
- the pressure roller can also be configured as a deflecting roller, which changes the direction of movement of the substrate. In this case, preferably flexible substrates are used.
- the integral unit of the boundary layer release device may be configured in various ways.
- the vacuum device and the at least one pressure roller may have a common, substantially gas-tight cover. This cover may terminate the boundary layer release device on the side of the boundary layer release device facing away from the substrate surface.
- the integral unit can also be formed in that the boundary layer separation device has an at least partially solid block, in which, for example, one or more cavities of the vacuum device are embedded and which also encloses or at least partially adjacent to the at least one pressure roller.
- the at least one pressure roller may be arranged on the side of the vacuum device facing away from the impact line. On this side, the boundary layer release device with the substrate conveying device then forms an inlet gap for insertion of the substrate. If the pressure roller in the at least one Pressing moved, it is advantageously this inlet gap is substantially sealed by the pressure roller.
- the curtain coater according to the invention has numerous advantages over the curtain coaters known from the prior art.
- the vacuum device and the pressure roller cooperate to remove the gas boundary layer from the substrate surface.
- the use of the pressure roller also guarantees that a gas boundary layer on the surface of the substrate to be coated opposite, d. H. can be effectively removed from the Substrat studyvorraum substrate surface facing.
- a suitably arranged pressure roller can thus be removed on both sides of a gas boundary layer of the substrate surface before the substrate ever passes the sphere of influence of the vacuum device.
- the vacuum device and the at least one pressure roller are formed as an integral unit ensures that the relative position between both devices can be kept constant. This is advantageously noticeable, for example, in a development of the invention, in which the entire boundary layer release device is movably mounted along a movement direction of the substrate.
- the boundary layer release device may be designed so that the at least one pressure roller and the vacuum device thereby do not change their relative distance, but are moved together.
- the substrate conveying device may have a casting shaft with a rotation axis, wherein the boundary layer separation device is rotatably mounted about the rotation axis. In this way, the influence of the gas boundary layer on the substrate surface can be optimally adapted to the substrate speed and the position of the impact line.
- the boundary layer detaching device can be adjusted accordingly.
- Such changes are advantageous, for example, to prevent a so-called “heeling effect” ("heeling").
- This heel-forming effect causes a bead of liquid to form at the impact line against the substrate movement.
- the boundary layer release device can be tracked accordingly.
- the integral design of the boundary layer release device also ensures that between the at least one pressure roller and the impact area of the
- Vacuum device can not create a gas boundary layer on the substrate surface again. In this way, the efficiency of the boundary layer removal greatly increase direction compared to conventional devices.
- the boundary layer releasing device can be made so compact that a segment of not more than 90 ° of the calf circumference, preferably not more than 80 °, is detected. This more compact design, made possible by the interaction of the at least one nip roll and the vacuum device, is associated simultaneously with an unreduced or even increased efficiency of delamination of the gas boundary layer on the substrate surface.
- the increased efficiency of the boundary layer stripping device also allows significantly higher substrate speeds to be used.
- the substrate speeds can be above 1000 m / min, sometimes even above 1500 m / min and in many cases even at 1800 m / min and more.
- the production problems mentioned above, which are caused by substrate cracks or irregularities in the substrate thickness, can be effectively reduced or completely avoided even at high substrate speeds.
- the at least one pressure roller closes the inlet gap of the boundary layer separation device, that is arranged inlet side to the vacuum device, now the vacuum device can be operated at a higher distance to the substrate surface, without the efficiency of the boundary layer release device is reduced.
- the at least one pressure roller in the at least one pressure position can be pressed against the substrate in such a way that even a short-term increase in the substrate thickness, for example by a splice, does not lead to failure of the curtain coater. In this case, the at least one pressure roller is simply pushed away from the substrate conveying device.
- the at least one pressure roller can be spring-mounted, for example by means of a spring element or by means of a corresponding hydraulic or preferably pneumatic device, which indeed ensure a constant pressure against the substrate, but can also compensate for substrate irregularities. Since at the same time the vacuum device can be arranged at a greater distance to the substrate surface, it is ensured that these are not damaged.
- the Anpressaktor should be designed to be able to adjust a distance of the pressure roller relative to the substrate surface or alternatively set or change a contact pressure of the pressure roller on the substrate surface.
- the Anpressaktor can be used to reciprocate the pressure roller between a rest position and the pressure position.
- the Anpressaktor can be used to set a defined contact force or simply press the pressure roller with a predetermined force against the substrate.
- this Anpressaktor have a pneumatic or hydraulic actuator.
- Other types of actuators are conceivable or combinations of multiple actuators.
- very fast responding actuators can be coupled with actuators with high contact pressure.
- Other suitable actuators are, for example, threaded actuators or other types of actuators.
- the curtain coater in one of the embodiments described above has a high robustness to variable substrate thicknesses and also to events such as substrate cracks. Even with the embodiments described above, due to the combination of the at least one pressure roller with the vacuum device, even in the case of a substrate tear damage to the boundary layer release device is rarely given.
- the curtain coater can be further advantageously designed to also effectively counter unexpected events such as substrate cracks and to improve the overall handling safety of the curtain coater.
- the curtain coater may include a main actuator configured to vary a distance of the boundary layer release device relative to the substrate surface.
- the Anpressaktor which may be part of the main actuator, thus causing the main actuator not only a movement of the at least one pressure roller, but the entire unit of the boundary layer release device.
- the main actuator may have a coating position and a maintenance position, wherein in the coating position, the boundary layer release device is driven close to the substrate surface by means of the main actuator. In this way, for example, a substrate can be easily inserted while the interfacial stripping device is in the maintenance position. Maintenance work, such as cleaning of the boundary layer release device, can be carried out in this position.
- the main actuator may preferably again comprise a pneumatic actuator.
- the actuators are locked in one position.
- the main actuator may be locked in a coating position so as to prevent inadvertent change of position. This locking can be done analogously for the Anpressaktor.
- a lock can be used.
- a lock can also be automated, so that, for example, from a certain substrate speed automatically locking of the main actuator and / or the Anpressaktors is performed.
- the curtain coater can also have an emergency automatic system.
- This automatic emergency can serve in particular for the purpose of detecting irregularities in the coating process, in particular a substrate tear.
- the emergency control system actuates the main actuator in such a way that the boundary layer separation device is moved to a safety position.
- the safety position can ensure a sufficient distance between substrate surface or substrate conveying device, the shape that even loose substrate ends can not wrap around the boundary layer release device or components thereof.
- the distance between Grenz Mrsablinatevorides and substrate surface or substrate conveying device can be several millimeters to centimeters.
- the safety position can be identical to the maintenance position, so that the main actuator essentially has a coating position and a maintenance and safety position.
- the curtain coater and in particular the emergency automatic system can also have a substrate tension meter.
- the substrate tension meter should be designed to measure mechanical stresses of the substrate.
- Such substrate tension meters are known from printing technology.
- the emergency automatic system can in particular be designed such that an irregularity in the coating process is detected when a substrate voltage measured by the substrate voltage meter falls below a predetermined minimum value for at least a predetermined time.
- a method according to the invention has proved successful in which initially only the at least one pressure roller of the boundary layer stripping device is used up to a predetermined limit speed of the substrate. Accordingly, the curtain coater is controlled so that at low speeds, for example speeds below 100 to 300 m / min, only the pressure roller is pressed against the substrate conveyor or against the substrate surface, whereas a vacuum pump of the vacuum device is not operated. The pressure roller alone is sufficient to detach or to keep away gas boundary layers from the substrate surface (on both sides) at these low speeds. Only from the predetermined limit speed, the vacuum device is additionally switched on in order to remove additional gas boundary layers, which create again on the substrate surface despite the use of the pressure roller. This connection of the vacuum device can for example be done automatically by an electronic control device.
- the curtain coater can also be used in other ways, for example by using both vacuum device and the at least one pressure roller from the beginning.
- FIG. 1 shows a cross section through a casting shaft and a boundary layer release device of a preferred exemplary embodiment of a curtain coater
- FIG. 2 shows the arrangement according to FIG. 1 with changed angular position of the boundary layer detachment device
- FIG. 3 shows the device according to FIG. 1 with raised pressure roller
- Figure 4 is a perspective view of the device according to Figure 1;
- FIG. 5 shows the device according to FIG. 1 with boundary layer release device in safety position
- FIG. 6 shows an embodiment of a curtain coater with emergency automatic.
- FIG. 1 shows a cross-section through a preferred embodiment of a curtain coater 110 with a casting shaft 112 and a boundary layer release device 114.
- the casting shaft 112 has a diameter of about 350 mm in this embodiment.
- the curtain coater 110 is equipped to coat a substrate 116, which in this exemplary embodiment is, for example, a paper web. The coating takes place by means of a liquid brushing curtain 118, which is produced by a curtain producer (not shown in FIG. 1).
- the coating curtain 118 impacts the surface 122 of the substrate 116 to be coated at a line of incidence 120 which translates at a substrate speed (indicated in Figure 1 by reference numeral 124, where reference numeral 124 is to indicate both the substrate speed and the direction of movement of the substrate) the casting shaft 112 moves.
- the casting shaft 112 is rotatable about an axis of rotation 126 and in this embodiment rotates counterclockwise 128.
- the casting shaft 112 is driven by a drive mechanism of the curtain coater 110, not shown in FIG. 1, and with remaining constituents of a substrate conveying device, which also includes the casting shaft 112 is synchronized.
- the casting shaft is in each case rotatably mounted at the ends on side parts 130.
- the boundary layer release device 114 has a vacuum device 132 and a pressure roller 134.
- the proofing ze 134 has a diameter of about 120 mm in this embodiment.
- Vacuum device 132 and pressure roller 134 are combined by means of a metal block 135 to form an integral unit.
- a cavity 137 is embedded, which is closed by a vacuum cap 152 and the casting shaft 112 toward a vacuum gap 139 approximately 0.4 mm wide.
- the cavity 137, the vacuum cover 152 and the vacuum gap 139 thus form in this embodiment, the central components of the vacuum device 132.
- other embodiments of the vacuum device 132 are conceivable.
- the metal block 135 thus completely encloses the vacuum device 132 and ends on the side of the pressure roller 134 immediately before the pressure roller 134.
- the pressure roller 134 is upstream, d. H. stored in the direction of movement 124 of the substrate in front of the vacuum device 132 and closes in the pressure position shown in Figure 1 an inlet gap 136 of the boundary layer release device 114, which is formed between metal block 135 and casting shaft 112 and substrate 116.
- the metal block 135 with the vacuum device 132 and the pressure roller 134 are connected to each other via a common side bracket 138. At each end of the casting shaft 112, one of these side brackets 138 is arranged in each case.
- this Anpressaktor 140 is in this embodiment, a pneumatic cylinder, by means of which the pressure roller 134 can be moved in a radially to the axis of rotation 126 of the casting shaft 112 extending pressing 142. In this way, the pressure roller 134 can be moved to the pressure position shown in Figure 1, in which the pressure roller 134 is pressed against the substrate surface to be coated 122 of the substrate 116. At the same time, the substrate 116 is thereby pressed against the casting shaft 112.
- the pressing force exerted by the Anpressaktor140 can be set defined. In this way it is ensured that even short-term thickening of the substrate 116 can be compensated.
- the pressure roller 134 is rotatably mounted about an axis 144 which runs parallel to the axis of rotation 126.
- the pressure roller 134 acts in this embodiment as a deflection roller and deflects at the contact point 146, the substrate 116 to the casting shaft 112.
- embodiments are also possible in which the pressure roller 134 does not deflect.
- the boundary layer release device 114 effectively removes gas barrier layers 148, 150 on the substrate 116 in duplicate.
- the gas boundary layers 148, 150 are separated from the strat york 124 moving substrate entrained on the respective surfaces.
- both the coating side gas boundary layer 148 and the casting shaft side gas boundary layer 150 are pushed away or stripped from the substrate 116.
- a gas boundary layer 148, 150 is formed, which acts after application of the pressure roll 134, or which should have remained on the substrate 116 even after application of the pressure roller 134, is removed by the vacuum device 132.
- the vacuum device 132 may be configured, for example, according to one of the above described prior art embodiments.
- the vacuum device 132 includes the vacuum cap 152, which is connected to a vacuum device, such as a vacuum pump (not shown in Figure 1 - see Figure 6, reference numeral 162 below) the cavity 137 with a Negative pressure can be applied. Via the vacuum gap 139, gas boundary layers 148 remaining on the substrate 116 and / or newly formed in this way can be removed from the substrate 116 ("sucked off").
- the vacuum device 132 and the pressure roller 134 which constitute essential constituents of the boundary layer release device 114, can be used individually or cumulatively.
- the pressure roller 134 can be used alone, whereas the vacuum device 132 is not operated.
- Even gradations are possible, d. H.
- graduated pump powers of the vacuum pump for operating the vacuum device 132 are conceivable or a partial opening of the pressure roller 134th
- the Anpressaktor can be controlled so that, for example, from a certain substrate speed 124, the pressure roller 134 is automatically locked in the pressure position shown in Figure 1. From the contact point 146 to the foremost point of the metal block 135 of the boundary layer release device 114 facing the impact line 120, the boundary layer release device 114 detects an area of action, which is represented symbolically as angle ⁇ in FIG.
- the side holder 138 is designed such that it is rotatably mounted about the axis of rotation 126.
- this can be done by the side bracket 138 is fixedly connected to the side parts 130, wherein side bracket 138 and side members 130 are rotatably mounted together about the axis of rotation 126.
- the angular position of the boundary layer release device 114 which is shown symbolically in FIG. 1 as angle ⁇ to the horizontal, can be changed. Accordingly, this orientation ⁇ can be adapted to the position of the impact line 120 of the coating curtain 118.
- the position of the impact line 120 on the casting shaft 112 can be changed while the position ⁇ of the boundary layer release device 114 is carried, for example, to ensure a constant distance between the boundary layer release device 114 and the impact line 120.
- a gas boundary layer 148, 150 can not deposit again on the surface of the substrate 116.
- the boundary layer release device 114 is brought as close as possible to the impact line 120. This change in the orientation ⁇ of the boundary layer release device 114 is shown symbolically once again in FIG. 2, which shows the arrangement according to FIG. 1 in an altered orientation ⁇ 'of the boundary layer release device 114.
- FIG. 2 shows the arrangement according to FIG. 1, wherein, however, the pressure roller has been raised from the contact pressure point 146 by means of the contact pressure actuator 140.
- the inlet gap 136 of the boundary layer release device 114 is greatly enlarged.
- the rest position shown in Figure 3 allows insertion of a substrate 116 in the curtain coater 110 or maintenance or cleaning.
- An operation of the boundary layer separation device 114 solely by means of the vacuum device 132 is conceivable, but preferably the inlet gap 136 is made smaller than in the maintenance position shown in FIG.
- FIG. 4 is a perspective view of a section of the curtain coater 110 according to the exemplary embodiment in FIG. Again, the casting shaft 112 and the pressure roller 134 can be seen. Also, the vacuum cap 152, which is held in this embodiment with wing nuts is shown. Not shown again are the curtain generator for producing the coating curtain 118 and the vacuum device, which is connected to the vacuum device 132 of the boundary layer release device 114.
- FIG. 4 In the perspective view of Figure 4 can also be seen how the Anpressaktor 140 is connected to the side bracket 138. Furthermore, it will be appreciated that the side support 138 and the entire boundary layer release device 114 rest on a main actuator 154. This main actuator 154 serves to lift off or approach the boundary layer release device 114 against the casting shaft 112.
- FIG. 5 shows the curtain coater 110 with the boundary layer removal device 114 driven to a safety position 5
- the main actuator 154 which is arranged on the other side of the side parts 130 and thus is not visible in FIG. 5 itself, has removed the boundary layer release device 114 from the casting shaft 112. This creates a safety distance d between Grenzetzablinatevor- direction 114 and casting shaft 112, through which even broken substrate webs or irregularly thick substrates can easily pass without damaging the boundary layer release device 114.
- FIG. 6 shows an embodiment of a curtain coater 110 with an emergency automatic transmission 156.
- the automatic emergency can, for example, be integrated with a curtain coater 110 controlling computer system 158.
- the computer system 158 can control, for example, the drive of the casting shaft 112 and of the entire substrate conveying device, which can be configured in particular as described in FIG.
- the computer system 158 controls via control lines 160 the Anpressaktor 140 and the main actuator 154 (not shown in Figure 6), which may be configured, for example, as described above.
- the computer system 158 can control a vacuum pump 162 and a curtain generator 164 via the control lines 160 to generate the liquid coating curtain 118.
- the vacuum pump 162 is connected to the vacuum lid 152 of the boundary layer release device 114 via a vacuum line 166.
- the emergency automatic transmission 156 has a substrate voltage meter 168.
- This substrate voltage meter 168 is designed to permanently detect voltages in the substrate 116 and to transmit them via a signal line 170 to the computer system 158.
- the emergency automatic transmission 156 is designed such that the substrate voltage signals transmitted by the substrate voltage meter 168 are permanently evaluated. If the substrate voltage falls below a predetermined minimum voltage for a predetermined period of time, for example a substrate voltage (ie force per unit length of the web width of the substrate) of 30 N / m for a period of 1 s, then the emergency automatic system 156 detects an irregularity in the coating process. For example, this may be a crack of the substrate 116.
- the main actuator 154 is actuated virtually instantaneously by means of the emergency automatic transmission 156 in order to drive the boundary layer release device 114 into the safety position shown in FIG. At the same time, optionally, the vacuum pump 162 and the curtain generator 164 can be switched off.
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Abstract
Description
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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DE112006001484.6T DE112006001484B4 (de) | 2005-06-15 | 2006-06-07 | Vorhangbeschichter mit Grenzschichtablösevorrichtung |
Applications Claiming Priority (2)
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DE102005027700.4 | 2005-06-15 | ||
DE200510027700 DE102005027700A1 (de) | 2005-06-15 | 2005-06-15 | Vorhangbeschichter mit Grenzschichtablösevorrichtung |
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WO2006134052A1 true WO2006134052A1 (de) | 2006-12-21 |
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PCT/EP2006/062978 WO2006134052A1 (de) | 2005-06-15 | 2006-06-07 | Vorhangbeschichter mit grenzschichtablösevorrichtung |
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WO (1) | WO2006134052A1 (de) |
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US4842900A (en) | 1986-02-12 | 1989-06-27 | Fuji Photo Film Co., Ltd. | Method and apparatus for coating |
EP0440279A1 (de) | 1990-01-29 | 1991-08-07 | Agfa-Gevaert N.V. | Vorhangbeschichtungsvorrichtung für photographische Elemente |
EP0489978A1 (de) | 1990-12-12 | 1992-06-17 | Agfa-Gevaert N.V. | Vorhangbeschichter |
EP0704752A1 (de) | 1994-09-27 | 1996-04-03 | Ilford Ag | Verfahren und Vorrichtung zur Vorhangbeschichtung eines bewegten Trägers |
EP0906789A1 (de) | 1997-10-03 | 1999-04-07 | Troller Schweizer Engineering AG | Verfahren und Vorrichtung zur Vorhangbeschichtung eines bewegten Trägers |
US20040237885A1 (en) * | 2000-03-14 | 2004-12-02 | Voith Paper Patent Gmbh | Application device |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
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DE10358508A1 (de) * | 2003-12-13 | 2005-07-07 | Voith Paper Patent Gmbh | Auftragsvorrichtung |
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2005
- 2005-06-15 DE DE200510027700 patent/DE102005027700A1/de not_active Withdrawn
-
2006
- 2006-06-07 WO PCT/EP2006/062978 patent/WO2006134052A1/de active Application Filing
- 2006-06-07 DE DE112006001484.6T patent/DE112006001484B4/de active Active
Patent Citations (6)
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US4842900A (en) | 1986-02-12 | 1989-06-27 | Fuji Photo Film Co., Ltd. | Method and apparatus for coating |
EP0440279A1 (de) | 1990-01-29 | 1991-08-07 | Agfa-Gevaert N.V. | Vorhangbeschichtungsvorrichtung für photographische Elemente |
EP0489978A1 (de) | 1990-12-12 | 1992-06-17 | Agfa-Gevaert N.V. | Vorhangbeschichter |
EP0704752A1 (de) | 1994-09-27 | 1996-04-03 | Ilford Ag | Verfahren und Vorrichtung zur Vorhangbeschichtung eines bewegten Trägers |
EP0906789A1 (de) | 1997-10-03 | 1999-04-07 | Troller Schweizer Engineering AG | Verfahren und Vorrichtung zur Vorhangbeschichtung eines bewegten Trägers |
US20040237885A1 (en) * | 2000-03-14 | 2004-12-02 | Voith Paper Patent Gmbh | Application device |
Also Published As
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DE102005027700A1 (de) | 2006-12-21 |
DE112006001484A5 (de) | 2008-06-05 |
DE112006001484B4 (de) | 2015-06-18 |
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