DE19756194A1 - Paint processing device and method - Google Patents

Abstract

The invention relates to a method and device for processing, especially drying, lacquers in a working area (10). The inventive method comprises the following steps: (a) preparing a closed working area (10) which is filled with air; (b) drying the air in the working area (10); and (c) depositing the lacquer on the surface which is to be lacquered. The inventive device comprises the corresponding structural configurations for carrying out the method.

Description

The present invention relates to a method and an apparatus for Processing of paints in a work area. In particular, the The present device, a method and a device for drying of water-soluble paints applied by means of spray guns in one Workspace.

Methods and devices for processing are in the prior art and especially known for drying paints. Traditionally paints, especially in large-scale production in the automotive industry industry first applied in separate areas and then dried. The application is traditionally done either by means of an immersion bath, or with spray guns (spray robots). In a successor step, the painted parts are then provided in separately Drying chambers using hot air at temperatures of dried approx. 80 ° C. This drying step has significant energy costs resulting in a large share of the total cost of painting to have.

Traditionally, solvents are used in the paint processing industry Lacquers are used because they are easy and inexpensive to process. However, these solvent-based paints lead to not insignificant Pollution of the environment, because the solvent in the drying process the atmosphere escapes. It would be technically possible to use the solvents  filtering out with suitable filters, however, this leads to an unwanted Increase in painting costs because such filters are technically complex.

For ecological reasons, therefore, the use of water has already been made Soluble varnishes proposed, which from an ecological point of view solvent-based paints are preferable. However, they are water soluble Paints compared to solvent-based paints from economical Not particularly attractive for the time being, as the drying times in the traditional hot air booths are too long, which again costs in the Height drives. For these reasons, they were ecological before pulling water-based paints from the industry have so far been inadequate accepted.

The present invention thus has the problem of a method and to provide a device with which in the paint processing incurred energy costs significantly compared to previously known methods can be reduced while maintaining the quality of the paint job is improved.

This problem is solved by a method of processing Paint in a work area according to claim 1, and by a corresponding device according to claim 14.

More specifically, the above problem is solved by one method and one Device solved, according to which the air in a completed work area (the spray booth) is continuously dried. This has to Consequence that the humidity in the work area under that of the vice exercise air lies, whereby the paint to be applied already during the Spraying the water is withdrawn. This leads to a significant  Reduction of the drying time, which makes it possible to dry dispense entirely with hot air.

Another advantage of the method and the corresponding the device is that produces particularly homogeneous layers of paint can be because of the continuous drying of the air in the work area not only leads to water withdrawal in the paint, but in particular the surface to be painted also dries, d. H. makes water free. This leads to an increase in the homogeneity of the paint layer when spraying because the color pigments are all the more homogeneous on the paint to be painted Arrange the surface, the drier it is.

According to a particularly preferred embodiment of the present According to the invention, the air is dried in the work area by means of an adsorption rotary dehumidifier, one with the work area connected adsorption line and a separate regeneration circuit having. The particular advantage of this drying system is that he works continuously and is very low maintenance.

According to a further preferred embodiment, the invention knows device according to a circulation and / or in addition to the drying system Pre-cooling arrangement that circulates the air in the work area and cools. The cooling of the air initially leads to an increase in relative humidity, however, to lower the dew point of the Air. This allows a particularly effective, subsequent drying of the air to the desired relative humidity.

Further preferred embodiments of the present invention result itself from the appended claims and the description of the  preferred embodiment. The currently preferred embodiment is explained in the following with reference to the drawing, in which:

Fig. 1 shows schematically a paint processing device according to the present invention;

Figure 2 illustrates the presently preferred adsorption rotary dryer before Trains t in the drying system according to the present invention use takes place. and

Fig. 3 is a Vernon curve, in which the water-related corrosion speed is shown for steel.

In Fig. 1, an inventive device for processing and in particular for drying paints is shown schematically.

The device according to the invention comprises a working area 10 , which can preferably have the shape of a painting booth known per se. Within the work area 10 there are, in addition to the objects to be painted (for example motor vehicle body parts), also the spraying devices (spray guns) used in the painting industry or in small paint shops, with which the paint is applied to the parts to be painted. Since these parts are sufficiently known to the person skilled in the art, a separate illustration is dispensed with.

For the present invention, it is of particular importance that the work area 10 is isolated from the environment in order to largely prevent air exchange between the air 5 in the work area 10 and the surrounding air.

Further, 1 is the Fig. Schematically shown drying system 20 of the invention, to be taken 30. In the embodiment shown in FIG. 1, it comprises an adsorption dryer 20 , and a circulation and pre-cooling arrangement 30 , which will be described in the following.

According to the present invention, in the preferred embodiment of the drying system according to the invention, an adsorption dryer 20 is used, which is connected to the working area 10 via an adsorption line 21 . The adsorption dryer 20 uses a continuously operating adsorption rotor 20 '(see FIG. 2), which sucks in fresh air, dries it and introduces it into the work area 10 via the adsorption line 21 . Furthermore, the adsorption dryer 20 has a separate regeneration circuit 29 which - as described in more detail below - regenerates the adsorption rotor 20 '.

The adsorption dryer 20 according to the invention is described below with reference to FIG. 2. Essentially, the adsorption dryer 20 consists of an adsorption rotor 20 'which is provided with axially directed air channels (not shown). These ensure a laminar flow of air through the dryer with a low pressure drop. The air to be dehumidified is sucked in by an adsorption fan 24 through the adsorption rotor 20 'via a pre-filter 22 . For the regeneration of the adsorption rotor 20 '(ie for its dehumidification), a separately provided regeneration area is provided which removes the moisture accumulated in the rotor and releases it into the open. The air fed through the regeneration circuit 29 is sucked in by a regeneration fan 30 through the regeneration section, having previously been cleaned by a filter 26 and subsequently increased by a heater 28 to the necessary process temperature.

The adsorption rotor 20 'essentially consists of a slowly rotating rotor made of a ceramic composite material which is permanently impregnated with either silica gel or lithium chloride. Silica gel is currently preferred as the adsorbent because it is physiologically harmless and insoluble in water, and as a result can neither be washed out nor discharged with the air stream. The arrangement of adsorption and regeneration area described results in a continuous operation of the adsorption dryer, since the adsorption process runs parallel to the regeneration process.

Furthermore, a circulation and pre-cooling arrangement 30 is provided in the currently preferred embodiment, which is connected to the work area 10 via a circulation and pre-cooling circuit 32 . The circulation and pre-cooling arrangement 30 provides for an air exchange in the work area 10 , and optionally for a pre-cooling. In addition, the circulation and pre-cooling arrangement 30 can also have filter elements (not shown) that filter the air in the work area 10 .

As the operation of air circulation and cooling systems to the specialist Is well known will depend on a detailed description of them waived this point.

The inventive method for processing and in particular for Drying paints as well as the corresponding device have opposite The known methods used so far have significant advantages because they on the one hand with the subsequent drying of water-soluble paints Make hot air unnecessary, and on the other hand to a more homogeneous paint layer on the surface to be painted. Like he did before thinks that the paint pigments arrange themselves on the upper to be painted The drier the surface to be painted, the more homogeneous the surface.  

At painting temperatures of approx. 20 ° C the dew point of the ambient air at least 15 ° C to be effective To anchor the pigments to the substrate. Is intended For example, to paint steel, it should be borne in mind that the dry plastic The temperature of the steel surface is always lower than that of it adjacent ambient air. This inevitably creates a cooling effect, which leads to aerosol deposition on the steel surface, even if the resulting water film is not visible to the naked eye.

This is illustrated by the Vernon curve shown in FIG. 3, which represents the corrosion curve of steel as a function of the relative atmospheric humidity (the ordinate shows the increase in weight as a measure of the susceptibility to corrosion). As can be seen in the diagram, the corrosion curve rises steeply at a relative humidity of more than 60%, while rust formation no longer occurs at a humidity of less than 30%. This means that no aerosol film has deposited on the steel.

If you carry out the painting at a relative humidity of less than 60%, or better still less than 30%, enables this a very homogeneous arrangement of the color pigments on the steel.

An example of the present invention will be explained below. A painting booth 10 is used which, according to the invention, is circulated with 20,000 m ³ / h or 25,000 m ³ / h air. The dried fresh air portion supplied via the adsorption dryer 20 should be approximately 10%.

Accordingly, 2000 m ³ / h or 2500 m ³ / h fresh air are passed through an adsorption dehumidifier (available, for example, from ARKU-Verfahrenstechnik GmbH Olching, Germany) and brought to a low dew point. At the same time, the circulation and pre-cooling arrangement 30 provides for pre-cooling of the air in the work area 10 . If you consider the prevailing conditions in summer, for example, the following results:

example

Comparing the energy balance of the drying process classic process (with hot air drying) compared to the above The method according to the invention shows that with the above parameters approx. 50% of the energy costs can be saved. It should be noted here that the drying process can be made more effective, depending less total air volume is circulated (ratio of water-containing Recirculated air to the highly dry fresh air portion). Therefore, increasing the highly dry fresh air portion to further reduce the necessary lead to energy costs.

Finally, it is pointed out that the preferred embodiment described above is only to be understood as an example; other designs are possible without leaving the inventive idea. For example, in the embodiment according to FIG. 1, the adsorption dryer, circulating and pre-cooling arrangements according to the invention are arranged outside the working area 10 . It is clear to the person skilled in the art that these can of course also be arranged within the work area.

Furthermore, in the preferred embodiment, the adsorption dryer as a separate element (separate from the circulation and pre-cooling arrangement) intended. Of course you can also use an integrated device provide.

Finally, it is pointed out that the method according to the invention and the corresponding device not only for water-based paints is reversible, but also for solvent-based paints. Will that be invented? Process according to the invention and the corresponding device for solvents used paints, this leads to the fact that the still necessary Drying by hot air can be significantly reduced; in this case is the method according to the invention as a predrying process used.

Claims (19)

1. A method for processing, in particular drying, lacquers in a work area ( 10 ), which comprises the steps:

• a) providing an air-filled, closed work area ( 10 );
• b) drying the air in the work area ( 10 ); and
• c) applying the paint to a surface to be painted.

2. The method of claim 1, wherein the relative humidity in the Drying step is reduced to below 25%. 3. The method of claim 1, wherein the relative humidity in the Drying step is reduced to below 10%. 4. The method of claim 1, wherein the relative humidity in the Drying step is reduced to about 6%. 5. The method according to any one of claims 1 to 4, which additionally comprises the step of pre-cooling the air before the step of drying the air in the work area ( 10 ). 6. The method of claim 5, wherein the air in the pre-cooling step is cooled below 20 degrees Celsius.   7. The method of claim 5, wherein the air in the pre-cooling step is cooled below 15 degrees Celsius. 8. The method of claim 5, wherein the air in the pre-cooling step about 10 degrees Celsius is cooled. 9. The method according to any one of claims 1 to 8, which additionally comprises the step of continuously circulating the air in the work area ( 10 ). 10. The method according to claim 9, in which the circulation and drying of the air by means of an outside of the work area ( 10 ) arranged air circulation system, and which additionally comprises the step of mixing a fresh air portion. 11. The method of claim 10, wherein the ratio of recirculated Air to fresh air is 90:10. 12. The method of claim 10, wherein the ratio of recirculated Air to fresh air is 60:40. 13. The method of claim 10, wherein the ratio of recirculated Air to fresh air is less than 50:50. 14. Device for processing, in particular drying, of paints in a work area ( 10 ), which comprises:

• a) an air-filled, closed work area ( 10 );
• b) a paint application system for applying the paint to a surface to be painted; and
• c) a drying system ( 20 , 30 ), which dries the air in said working area ( 10 ).

15. The apparatus of claim 14, wherein the drying system ( 20 , 30 ) comprises an adsorption dryer ( 20 ). 16. The apparatus of claim 15, wherein the adsorption dryer ( 20 ) comprises silica gel or lithium chloride as adsorbent. 17. The apparatus of claim 15 or 16, in which the adsorption dryer (20) comprises adsorption rotor (20 ') comprises the composite material consists of a Keramikver and impregnated with the adsorbent. 18. The apparatus of claim 14 to 17, in which the adsorption dryer ( 20 ) has an adsorption line ( 21 ) and a separate regeneration circuit ( 29 ). 19. The device according to any one of claims 14-18, in which the drying system ( 20 , 30 ) additionally has a circulation and pre-cooling arrangement ( 30 ).