DE19542097A1 - Device for coating metal bands with fluid material - Google Patents

Abstract

A chamber (4) with a coating blade acts as a supply reservoir, and a corrugated section (16) is fitted on the cylindrical circumferential face of the dosing roller (5). The direction of rotation of the dosing roller, during the coating process, may be orientated in the same sense as the direction of rotation of the coating application rollers (6,17). The corrugated section can have a thread-form lead and with single entry, and one groove is rounded in cross-section. The dosing roller and coating rollers can be adjustable independently of each other.

Description

The invention relates to a device for coating of metal strips with a flowable mass with a Applicator roller for applying the mass to the metal belt and one in a storage container for the flow capable mass engaging metering roller for coating the application roller.

Such devices are well known and are used for coating steel strips, for example a plastic or lacquer coating. The metering roller is therefore arranged so that with its underside in a Reaches into the tub. The tub is with the flowable Filled coating compound so that the metering roller with immersed in this mass in its lower section. With the Dosing roller cooperating is an application roller on  ordered with which the coating material on the Steel tape is applied. The surfaces of the two Rollers are usually smooth. While the Metering roller generally has a metal surface points, is the effective for coating the steel strip Outside of the application roller to compensate for irregularities gummed rubber.

The rollers are driven by an electric motor, the Direction of rotation of the application roller depending on the Type and thickness of a coating to be made either in the same direction or in the opposite direction to the tape running direction of the steel strip is oriented. It is also dependent of the viscosity of a coating seen mass the direction of rotation of the two rollers same or opposite in relation to their respective Direction of rotation provided, with an opposite Operation between the rollers set a gap can or is created by the fluid dynamics.

Dosing and opening run especially with thin coatings support roller in opposite directions, since only in this mode of operation an even coating of the coating agent done on the applicator roller. This leads to the end formation of a bath of coating agent before Line of contact of the two rollers, but not through the gap removed coating agent to the rollers ends flowing and as a result of the sometimes high revolution speeds of the rotating rollers is sprayed. It is therefore common for the coating devices capsule or appropriate stripping on the rollers to provide directions.

When operating such coating devices when changing the coating mass, for example with a Color change, the rollers and those below the dosing  the tub located on the roller can be completely cleaned. Even if this is on the respective roller surfaces is relatively quick and easy to do, so berei cleaning the other contaminated ones Roll areas such as shafts, bearings or wipers directions, difficulties. The cleaning work therefore require a correspondingly high amount of time. Thorough cleaning is necessary, otherwise contamination of the following used Be layering mass would be feared. Especially at use of colors is undesirable because a non-homogeneous color coating of the steel strip The consequence would be an unnecessary committee.

The invention is therefore based on the object Device for coating a metal strip with a to create flowable mass that is not just one clean, low-pollution operation and easy Guaranteed cleaning of the device, but with the even avoiding the disadvantages of metal tapes that have a smaller or an alternating width than the effective width of the rollers coated are cash.

This object is achieved in that a chamber doctor blade is provided as a storage container and that in the cylindrical peripheral surface of the metering roller a circumferential crease is introduced, the Direction of rotation of the metering roller during the coating process in the same direction as the direction of rotation of the applicator roller is.

This is possible because the dosage of the Be layering agent through the chamber doctor blade in connection with the scoring of the metering roller when applied to the Application roller takes place.  

The use of a chamber doctor known per se ensures a clean coating of the metering roller with the flowable mass to be applied without the Coating agent runs down the rollers or is thrown away due to the rotation of the rollers.

Furthermore, a color change in the device according to the Invention quickly and cleanly by rinsing the chambered doctor blade possible. The metering roller engaging in the chambered doctor blade takes up detergent with its creasing, is therefore cleaned at the same time and transmits this further on the applicator roller. It is therefore only necessary that Stop flow of coating agent through this to replace a detergent and the device a short To let time run.

Since the metering roller is circumferential in the peripheral surface Has introduced grooving, which is in the chamber fills squeegee with the mass to be applied is one Defined filling of the scoring, therefore an even one Coating the application roller and thus a metal band, such as a steel band, possible. The be layers of the application roller is provided metering roller with respect to their direction of rotation in the same direction as the direction of rotation tion roller driven. The outside rubberized application roller presses through the employment Coating material from the grooves and takes over essentially the same direction drive of the two rollers lichen the entire, in the groove of the metering roller sensitive coating mass. The application roller is then evenly on the outside with that on the steel belt mass to be coated. Is now on a be narrower steel strip in relation to the effective roller width only a certain width of the coating from the on carrier roller applied to the steel belt, so it will located on the side of the steel belt on the application roller  coating agent not from the application roller removed, but runs with this up to the metering roller around. Here the coating agent is removed into the previously empty grooves of the metering roller and filled by the same direction rotation of the roller in the chamber doctor returned. A build-up of unused material is thus avoided.

In a preferred embodiment, the creasing is provided with a thread-like pitch. This is ensures that to strip off the excess Evenly measure the doctor blade provided on the doctor blade be worn, so that even after a long period of operation the device the filling volume of the grooves constant is.

It is useful if the grooves and their shoulders in the Cross section is rounded. One in cross section rounded formation of the grooves is appropriate so by engaging the rubberized applicator roller in are essentially completely empty and thus the Rubber coating of the application roller is not unnecessarily stressed becomes.

In an advantageous further development, these are chambers squeegee, the metering roller and the application roller against each other different and independent of each other, for example by swiveling, employable.

For coating a metal strip on both sides provided that two devices face each other are arranged so that the metal strip with one Side to the applicator roller of the first device and with its other side to the applicator roller of the second Device borders. In a device for bilateral Independent application is also possible  speed of the individual rollers can be used advantageously, ins especially if only with such a device should be coated on one side. Then the up support roller of the device, not for the coating device of the metal strip is provided as a counter-pressure roller serve for the coating application roller.

When using two devices on both sides Coating a metal strip, it is useful if these devices are arranged so that the metal pre-banded vertically between the two application rollers is attachable. However, the coating device is also for coating horizontally by running Tapes suitable.

The device is particularly suitable for loading layering of steel strip.

Further advantages and developments of the invention are Part of the subclaims and the following Description of an embodiment. Show it:

Fig. 1 is a schematic representation of an apparatus for coating both sides of metal strips,

Fig. 2 is a plan view of the device of Fig. 1 with one-sided coating of a steel strip and

Fig. 3 is a partially sectioned view of a metering roller.

The device shown in FIG. 1 for coating a metal strip on both sides consists of two individual coating devices 1 , 2 , which are provided opposite each other for coating a steel strip 3 on both sides. The coating devices 1 , 2 are structurally identical, so that only one of the two coating devices 1 , 2 is described in more detail below.

The coating device 2 essentially consists of a chambered doctor blade 4 , a metering roller 5 and an application roller 6 . The metering roller 5 and the application roller 6 are driven by an electric motor, the direction of rotation of the metering roller 5 is oriented in the same direction with respect to the direction of rotation of the application roller 6 . The metering roller 5 can be driven with respect to the applicator roller 6 at different speeds, so that in this way coating agents can be metered onto the applicator roller 6 and thus onto the steel strip 3 . As in comparison to the coating device 1 ersicht Lich, the doctor blade 4 , the metering roller 5 and the application roller 6 can be adjusted independently of one another.

The chambered doctor blade 4 is connected via a feed line 7 to a storage container 8 in which the mass 9 to be applied to the steel strip 3 is located. This mass 9 can be, for example, an acrylate with embedded chromates. To prevent differentiation processes or drying within the coating material 9 , the storage container 8 has a mixing device 10 which mixes the coating material 9 accordingly. Via a pump 11 , the chambered doctor blade 4 is supplied with the flowable coating compound 9 via the feed line 7 .

The chambered doctor blade 4 in turn has a hollow chamber 12 into which the pumped coating composition 9 flows. The hollow chamber 12 is delimited with respect to the metering roller 5 by two doctor blades 13 , 14 . Two return lines 15 leading back from the Hohlkam mer 12 in the reservoir 8, so that a constant flowing circulation is ensured between the located in the reservoir 8 coating composition 9 and By locating union in the hollow chamber 12. The coating composition. 9

The metering roller 5 engages in the hollow chamber 12 of the doctor blade 4 . For the defined absorption of a certain amount of the coating composition 9 , as can be seen from FIGS . 2 to 4, a grooving 16 is introduced into the metering roller 5 . The groove 16 surrounds the cylindrical outer surface of the metering roller 5 circumferentially.

In the embodiment shown in Fig. 1, the metering roller 5 is driven counterclockwise.

The metering roller 5 cooperates with the application roller 6 in a correspondingly rotating manner. The application roller 6 has a rubberized cylindrical surface. The application roller 5 also acts with a certain pressure on one side of the steel strip 3 . By rotating the application roller 6 in the same direction, the coating mass 9 located in the groove 16 of the metering roller 5 is transferred to the application roller 6 . By rotating the support roller 6 , the coating mass 9 now located on the outside on the support roller 6 is brought up to one side of the steel strip 3 . The illustrated in Fig. 1 counter-rotational direction of the contract roller 5 with respect to the direction of movement of the steel band 3 is achieved that substantially the whole, located on the applicator roller 6 coating composition is supplied to the steel strip 3 9. If, on the other hand, the steel strip is to be coated with a thin coating, the coating process takes place with the support roller 6 being driven with respect to the strip running direction of the steel strip 3 .

In the illustrated one-sided coating, the application roller 17 of the coating device 1 serves as a counter-pressure roller.

Processing apparatus from the position shown in Fig. 2 plan view of the Beschich 2 is the grooving 16 recognizable. The groove 16 has a certain slope in the illustrated embodiment. This ensures that the scraper edge 18 of the doctor blade 13 is worn uniformly, so that even after prolonged operation it is possible to fill the groove 16 with a constant volume.

From Fig. 2 it can also be seen that the steel strip 3 has a smaller width than the effective width of the metering roller 5 or the applicator roller 6th In operation, essentially the entire coating composition 9 located in the grooves 16 is transferred to the application roller 6 . The grooving 16 is emptied in the union union. In the areas in which the application roller 6 does not interact with the steel strip 3 , the application roller 6 is also unable to deliver any coating composition 9 . As a result, the lower region of the applicator roller 6 shown in FIG. 1 then has a central region in which there is no longer any coating compound 9 and two edge regions which still carry the coating compound 9 . By further rotation of the applicator roller 6 , this then again comes into contact with the metering roller 5 . As the grooving 16 of the metering roller 5 is, however, discharged at this stage to take this remaining on the application roller 6 Beschich power Mass 9 again and lead it to the chamber doctor blade. 4 In the hollow chamber 12 of the doctor blade 4 there is a renewed mixing with fresh coating compound 9 , so that drying is avoided. It is also clear that a build-up of unused loading coating material 9 between the rollers 5 , 6 is prevented.

Fig. 3 shows a partly sectional enlarged plan view of the metering roller 5 with the adjacent thereto the squeegee blade 13. It is clear that by wiping excess coating compound 9 on the doctor blade 13, the filling volume of the groove 16 is the same at all times. The groove 16 is rounded in the embodiment shown in FIG. 3.

Reference list

1 coating device
2 coating device
3 steel band
4 chamber doctor blades
5 metering roller
6 applicator roller
7 supply line
8 storage containers
9 coating compound
10 mixing device
11 pump
12 hollow chamber
13 doctor blades
14 doctor blades
15 return line
16 creasing
17 applicator roller
18 scraper edge
19 groove

Claims (9)

1. Device for coating metal strips with a flowable mass with an application roller for applying the mass to the material and with a metering roller engaging in a storage container for the flowable mass for coating the application roller, characterized in that a chamber doctor blade ( 4 ) is used as the storage container. a groove ( 16 ) is provided in the cylindrical peripheral surface of the metering roller ( 5 ), the direction of rotation of the metering roller ( 5 ) during the coating process being oriented in the same direction as the direction of rotation of the application roller ( 6 , 17 ). 2. Device according to claim 1, characterized in that the grooving ( 16 ) of the metering roller ( 5 ) has a ge wind-like slope. 3. Device according to claim 2, characterized in that the grooving ( 16 ) is single-thread. 4. The device according to one or more of claims 1 to 3, characterized in that a groove ( 19 ) of the groove ( 16 ) is rounded in cross section. 5. The device according to one or more of claims 1 to 4, characterized in that the rollers ( 5 , 6 , 17 ) are independently adjustable. 6. The device according to one or more of claims 1 to 5, characterized in that two Vorrichtun gene ( 1 , 2 ) opposite with respect to the metal strip ( 3 ) are provided for coating the same on both sides. 7. The device according to claim 6, characterized in that the application rollers ( 5 , 17 ) of the two Vorrich lines ( 1 , 2 ) are arranged in two different, mutually offset levels. 8. Apparatus according to claim 6 or 7, characterized in that the application rollers ( 5 , 17 ) for ver tical passing the metal strip ( 3 ) are arranged. 9. The device according to one or more of claims 1 to 8, characterized in that the metal strip is steel strip ( 3 ).