EP0585794B1 - Coating device - Google Patents

Description

The invention relates to a coating device with an application for applying a liquid layer on a band-shaped carrier material that is guided over an application roller.

The development in coating technology leads to ever more powerful units, i.e. to higher Processing speeds and thinner Coating films or higher concentrated solutions of the coating agent what is primarily from ecological and economic reasons becomes.

These demands can only be met by one essential one Increase the precision of the interacting Parts, especially by maintaining a uniform Coating gap between the application roller and application. For high coating speeds are smaller gap distances required, and compliance with precise distances is essential. Runout error of the application roller lead to periodic differences in layer thickness, which are undesirable in any case.

The storage of the application roller comes special Attention too because of a well executed Storage a high running accuracy in axial and radial direction is obtained. The running accuracy is used as a deviation from the ideal axis of rotation defined, the deviation being a sum error all interacting components on the application roller occurs. Rolling bearings with particularly high accuracy can have a deviation with a minimum value of 3 µm from the ideal axis of rotation. This minimal theoretical radial runout of such Rolling bearing is caused by further individual errors Application roller enlarged. When the application roller rotates can mistake the left side of the application roller to reduce the distance between Guide application roller and coating device, while at the same time there is a Increase the distance between the application roller and the coating device results.

The inevitably existing bearing play leads furthermore by the tensile forces of the band-shaped Backing material that is coated into one Deflecting the application roller, resulting in a Gap enlargement results, and can also different pulling forces on the right and left Side of the band-shaped carrier material to a wobble the application roller when operating the coating device result, making a consistent Distance between the application roller and the coating device is restricted.

Further deteriorations are for example in prolonged operation of the coating device Temperature fluctuations in the area of the application or due to wear in the bearing of the application roller expected.

Known application systems for applying a Coating on printing plates by Hoechst AG are manufactured, can be moved in parallel guides stored to the application roller. A change in the Distance between the application roller and the application lip to be brought about to apply different substrate thicknesses to the carrier material. Here are great efforts of a constructive nature were made to measure the gap precisely and the layer thickness in the narrowest over the entire width of the carrier material Keep tolerances in the µm range. It is for the accuracy of the layer thickness the radial stroke of the application roller and the play of the bilateral bearing and their radial runout is decisive. Even with the most careful selection of bearings and one precise processing of the application roller to achieve high concentricity can be caused by changed material tensions, increased clearance of the bearings and temperature influences, the set layer thickness is not kept constant. This leads to products of lower quality, higher reject rates, higher Testing effort or by exchanging and reworking the relevant parts high downtime and manufacturing costs.

From GB-A-993563 a coating device is known which contains an adhesive onto an endless strip of paper, for example cigarette paper. Of the For this purpose, paper strips move over a first roll, from which the adhesive is transferred to the paper strip. A second role by a pair of arms is worn, which can be pivoted about a suspension point, is in the narrow Contact with the first roller by a tension spring on the pair of arms and thus the second roll pulls towards the first roll. The second roll is two of the same size Equipped rings, the outer diameter of which is slightly larger than that Roll diameter. Due to the tensile force of the tension spring, the rings contact the Surface of the first roll, and this creates a gap between the two Roll through which the adhesive is applied to the first in a constant thickness Roll is applied. Inaccuracies of parts of the coating device, such as eccentricities of either role or a minor one Bending a roller shaft, can be compensated for because of the close contact always guaranteed between the first and second roller by the tension spring and thus a constant gap width is ensured.

The application device described in DE-A - 33 09 343 at least a pouring layer on a moving, sheet-like base has a Supporting rotating application roller. A caster is just through a crack arranged separately, near the application roller. The casting gap can be adjusted of the caster can be changed with a radial component. The caster can can also be adjusted in any other direction according to the numerous factors To be taken into account, which must be observed in operation, such as the material properties of the Emulsion and pouring solutions, the layer thickness the band-shaped carrier material, the area of the Casting speed and the like. However, there are no precautions are taken to avoid irregularities in the layer thickness due to radial runout Application roller and in the game of storage of the caster To take into account.

In European patent EP-B - 0 168 986 is a sliding film coating with negative pressure at tangential application of the coating solution. The sliding film flows on a vertical one Wall down and reaches the through a gap tape to be coated. The tape is at this point deflected over a roller so that the coating film is tangent to the tape. The Coating device is around the axis of the coating roller rotatably adjustable, and the The angle of the slideway is adjusted within a range of 20 ° to 120 ° Horizontal. This is the case of the coating device supported by arms on each side, around the axis of the coating roller are rotatable. The support arms allow the Coating device in any position to be arranged along the circumference of the coating roller. Also in this known coating device no precautions are taken to run or run Bearing errors that indicate the constancy of the layer thickness affect the substrate to be coated, to compensate.

The object of the invention is errors in the storage the application roller of a coating device, such as e.g. Rolling fault, due to the eccentricities of the Inner rings, shape and dimensional errors of the individual Rollers as well as bearing play, temperature fluctuations and changes in tensile force of the band-shaped to be coated Carrier material and the related Layer thickness fluctuations on the carrier material to balance the applied liquid layer.

This object is achieved according to the invention solved that near the two end faces of the Coating device one skid is attached, which presses against the application roller.

In an embodiment of the invention, the two runners via pivots on the housing of the coating device pivoted. Each is the both skids as a skid with a sliding surface fitted.

In a further development of the invention, each runner is as Roller skid equipped with two rollers and lie the Roll up on the outer surface of the application roller.

The runners are expediently on the lateral surface the application roller or on the edges of the band-shaped carrier material.

In further developing the invention, practice prestressed Compression springs with their ends against the back the coating device and a counter bearing are present, the compressive force on the coating device out their runners against the Application roller or the edges of the over the Press on the application roller guided carrier material.

Instead of pressure springs, pneumatic elements can also be used Pressure forces on the back of the Exercise coating device and this with their Skids against the application roller or the edges of the press on the application roller of the substrate. The pneumatic elements are expedient low-friction bellows cylinders. The coating device is along easily movable, spherical or roller-bearing guides adjustable. Furthermore is the coating device over a Storage on the two outer sides with the two Guides rotatably connected.

The advantage of the invention is that a parallel and accurate distance between the Coating device for the application of a Liquid layer on a moving belt Backing material and the application roller ensured over which the carrier material band is guided. The runners create a constant gap between the coating device and the application roller complied with because of all bearing errors and also uneven thickness of the carrier material Approaching or moving away from the pretensioned Coating device can be compensated and thus the distance of the coating slot from the Backing material even over long operating times is kept constant.

Fig. 1

eine schematische Seitenansicht einer vorgespannten Beschichtungsvorrichtung mit drehbar gelagerten Kufen und einer Antragswalze, gemäß einer ersten Ausführungsform der Erfindung,

Fig. 2

eine schematische Seitenansicht einer vorgespannten Beschichtungsvorrichtung mit starr gelagerten Kufen und einer Antragswalze, gemäß einer zweiten Ausführungsform der Erfindung,

Fig. 3

eine Vorderansicht der ersten Ausführungsform nach Fig. 1,

Fig. 4

verschiedene Stellungen der Beschichtungsvorrichtung der ersten Ausführungsform nach Fig. 1 beim Auftreten von Lagerspiel und Lagerfehler der Antragswalze, und

Fig. 5

eine schematische Seitenansicht einer Beschichtungsvorrichtung mit Rollkufen, gemäß einer dritten Ausführungsform der Erfindung.

The invention is explained in more detail below with reference to exemplary embodiments illustrated in the drawings. Show it:

Fig. 1

2 shows a schematic side view of a pretensioned coating device with rotatably mounted runners and an application roller, according to a first embodiment of the invention,

Fig. 2

2 shows a schematic side view of a pretensioned coating device with rigidly mounted runners and an application roller, according to a second embodiment of the invention,

Fig. 3

2 shows a front view of the first embodiment according to FIG. 1,

Fig. 4

different positions of the coating device of the first embodiment of FIG. 1 when bearing play and bearing error of the application roller, and

Fig. 5

is a schematic side view of a coating device with roller skids, according to a third embodiment of the invention.

The schematic side view shown in Fig. 1 a pneumatic or spring loaded coating device 1 points near the two end faces each of the coating device 1 has a runner 4, designed as a skid with a sliding surface 2 is. The runners 4 lie on the outer surface of one Application roller 3 on. On the back of the coater 1 a pressure force F is exerted, whereby the runners 4 are pressed against the application roller 3 and be biased. The support themselves two runners 4 on the opposite surface line the application roller 3 from.

The coating device 1 is for example, systems with the same or opposite directions Rolling around a slot nozzle or around a Slip caster. The coating device 1 carries a liquid layer on a band-shaped carrier material 9, which forms the coating web, which is guided over the application roller 3.

The two runners 4, 4 are on pivot 7, 7 on the housing 13 (see FIG. 3) rotatably articulated. At the coating device follows the rotation of the application roller 3 1 the significant changes in opposite surface line of the application roller 3, this surface line also being the contact line between the runners 4, 4 and the application roller 3. With this arrangement, the distance between the Application roller 3 and the coating device 1 kept constant so that an always parallel and dimensionally accurate coating gap of the coating device 1 to the opposite surface line is guaranteed, and the sum error Individual errors, such as bearing play, out of roundness Application roller, runout, form errors of bearings and application roller 3 and pendulum and springs of Application roller 3 with different and changing Tensile forces in the band-shaped to be coated Carrier material 9 by the respective descendants of the Coating device is corrected and thereby Layer thickness differences in the coating largely avoided.

As a rule, the runners 4, 4 lie on the circumference of the Application roller 3 on. But it is also conceivable that at smooth and abrasion-resistant carrier material that coats the skids on the outer edges of the Support material 9 rest. That’s what it is possible that thickness differences of the band-shaped Carrier material 9 are corrected. Independently whether the skids 4, 4 on the lateral surface of the Application roller 3 or on the outer edges of the band-shaped carrier material 9, they serve each as a spacer between the coating device 1 or the application of Coating device and the application roller 3.

The coating device 1 is along to guides arranged on both sides 6, on a Carrier 8 are attached, moved. This movement will preferably executed as a pendulum, but can also be strict be linear. With the oscillating movement it is Coating device 1 via storage to the two outer sides, as described in more detail later will be rotatable with the two guides 6 connected so that the coating device 1 or the skids 4, 4 not only in the direction of the guides can make a movement, but also one Pendulum movement around the longitudinal direction of the guides. If the storage is omitted, the movement takes place along the coating device purely linear the guides.

The one shown schematically in Figures 2 and 3 second embodiment of the invention is similar to designed the first embodiment according to FIG. 1.

The coating device 1 is also with a fine adjustment 5 equipped so that the height of the application, i.e. the slot nozzle or Lubricator set very precisely or that Process the application in very small steps can be. From Figure 3 it can be seen that each of the two guides 6 on their own carrier 8 sits on. The same components as in the first embodiment according to Figure 1 are in the second Embodiment with the same reference numerals busy. Your description will not be repeated. As Sliding surface 2 for the runners 4 can be, for example Plain bearing pads can be used for dry running. This can receive a solid lubricating film, e.g. Grease, or lubricated with drip lubrication using oil will. A reduction in the frictional forces and a Cooling the skids can be done in a manner not shown with the help of compressed air or water or through Cooling the application roller 3, especially in the Sliding zones of the runners can be achieved.

In Figure 4 are different positions of the coating device 1 of the first embodiment the invention of Figure 1 when occurrence of Bearing play and bearing errors of the removal roller 3 shown. The runners 4, 4 can occur Application roller 3 eccentricity and rotation the same by means of pendulum movements, as already mentioned above was mentioned to follow the guides 6, 6, making for smooth transitions between the maximum Deviations of the axis of the application roller 3 from the ideal axis direction is taken care of.

The spring force F on the housing of the coating device is by prestressed compression springs 10, 10 exercised with one end against the Back of the coating device 1 and with the rest against the opposite bearing 15. The Guides 6, 6 are easily movable, ball or roller-bearing guides along which the Coating device 1 displaceable or adjustable is. The coating device 1 is over Bearings 11 on the two outer sides with the two guides 6, 6 rotatably connected, also it must be ensured that there is a lateral play unilateral displacement of the coating device 1 allows. The pressure springs 10, 10 on both sides acting prestress of the coating device 1 ensures a constant retraction of the coating device against the application roller 3. In Figure 4 is in full lines the position of the coating device 1 and the application roller 3, with ideal axis direction the application roller. Deviations of the axis the application roller 3 from the ideal axis direction are indicated with + A and -B. The different locations the application roller 3 to the coating device 1 are dashed when these deviations occur shown. So that the coating device 1 at Rotation of the application roller 3, or when the Deviations + A or -B of the opposite Surface line can follow the application roller 3, represent the guides 6, 6 and the bearings 11, 11th a smooth arrangement for the movements of the Coating device 1 in the direction of + A or -B for sure.

A third embodiment is shown schematically in FIG shown the invention in which instead of So-called roller skids 12 are used, each of which is equipped with two rollers 14, 14 is in pairs against two opposite Surface lines of the application roller 3 lie against or against the outer edges of the application roller 3 led carrier material 9. For the rest are the Roller skids 12 as well as the skids 4 via pivot pins 7 rotatable on the housing of the coating device 1 articulated. The compressive force F is at this third Embodiment, for example, by two pneumatic elements 16 exercised instead of the compression springs. At these pneumatic elements 16 are concerned For example, low-friction bellows cylinders that are on the one hand on the counter bearing 15 and on the other hand against the back of the coating device housing 1 support. It goes without saying that such pneumatic elements 16 and likewise Roller skids 12 instead of the compression springs 10 or Skids 4 in the first and second embodiment of the Invention can be used.

Smallest sum error of one of the two rollers 14, 14 with the roller skids 12, 12 over the pivot point, i.e. about the pivot 7, to half the amount reduced. The pressure from the pneumatic elements 16, 16 should be as directly as possible against the coating device 1 on the opposite surface line the application roller 3 take place to existing Game between the coating device 1 and Eliminate pivot 7 of the roller skids 12.

Claims (10)

1. Coating device comprising an application mechanism for applying a layer of liquid to a strip-form support material guided over an application roll, characterised in that a runner (4; 12) is mounted in the vicinity of each of the two end faces of the coating device (1) and rests under pressure against the application roll (3).
2. Coating device according to claim 1, characterised in that the two runners (4; 12) are coupled rotatably to the housing (13) of the coating device (1) by means of pivots (7, 7).
3. Coating device according to claim 1, characterised in that each of the two runners (4, 4) takes the form of a skid and is provided with a sliding lining (2).
4. Coating device according to one of claims 1 and 2, characterised in that each runner (12) takes the form of a roller runner and is provided with two rollers (14, 14) and in that the rollers (14, 14) lie against the outer surface of the application roll (3).
5. Coating device according to claim 1, characterised in that the runners (4; 12) rest against the outer surface of the application roll (3) or against the edges of the strip-form support material (9).
6. Coating device according to claim 1, characterised in that pre-tensioned compression springs (10, 10), which rest with their ends against the rear of the coating device (1) and an end support (15), exert the pressure F on the coating device in order to press the runners (4; 12) thereof against the application roll (3) or the edges of the support material (9) guided over the application roll.
7. Coating device according to claim 1, characterised in that pneumatic members (16) exert pressure on the rear of the coating device (1) and press it with its runners (4; 12) against the application roll (3) or the edges of the support material (9) guided over the application roll (3).
8. Coating device according to claim 7, characterised in that the pneumatic members (16) are low-friction expansion cylinders.
9. Coating device according to claim 1, characterised in that ball or roller bearing guides (6, 6) are provided, along which the coating device (1) may readily be moved.
10. Coating device according to claim 9, characterised in that it is connected rotatably at its two outer sides with the two guides (6, 6) by means of a mounting (11, 11).

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