DE19756194B4 - Paint processing apparatus and method - Google Patents

Abstract

A method of processing paints in a work area (10) comprising the steps of:
a) providing an air-filled, closed working area (10);
b) drying the air in the working area (10) to a relative humidity of less than 25%; and
c) subsequent application of the paint to a surface to be painted.

Description

The The present invention relates to a method and an apparatus for processing paints in a work area. Especially The present device relates to a method and a device for drying of water-soluble by means of spray guns Paints in a workspace.

in the The prior art are methods and devices for processing and in particular for drying paints known. traditionally, Paints are used especially in large-scale production in the automotive industry initially applied in separate areas and then dried. The application is done here classically either by means a dip bath, or with spray guns (spray robots). In one Following step then the painted parts in separately provided drying chambers using hot air at Temperatures of about 80 ° C dried. This drying step has significant energy costs The result is a big one Share in the total cost of painting.

Traditionally Solvent-based paints are used in the paint industry because these are easy and inexpensive to be processed. However, these lead solvent-containing Lacke to not insignificant environmental burdens, as the solvent exits into the atmosphere during the drying process. Although it would be technical possible, the solvents with filter out suitable filters, but this leads to an unwanted increase the Lackierkosten, since such filters are technically complicated.

From ecological establish Therefore, the use of water-soluble paints has already been proposed, the under ecological Consider the solvent-containing Paints are preferable. However, water-soluble paints are compared to solventborne Paints for economic reasons currently not particularly attractive, as the drying times in the traditional Hot air cabins too long, which again drives up the costs. For these reasons were the ecological per se to be preferred water-based paints from industry so far only inadequately adopted.

In the German Utility Model G 91 09 134 For example, a painting and drying booth for vehicles treated with water-based paint, vehicle parts and the like is known, which has a drying air generator device for drying and heating flow air. This is intended to optimize the drying process of the water-based paint.

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

The solution This problem is followed by a process for processing paints in a work area according to claim 1, and by a corresponding device according to claim 13.

More accurate That is, the above problem is explained by a method as well as a method solved suitable device according to those an air filled, completed work area (a paint booth) is provided, the air in the work area to a relative humidity is dried by less than 25% and then paint on a to be painted surface is applied.

This has the consequence that the Humidity in the working area below that of the ambient air lies, whereby the paint to be applied already during the Aufsprühvorgangs the water is withdrawn. this leads to to a significant shortening the drying time that makes it possible makes to completely dispense with drying with hot air.

One Another advantage of the method and the corresponding Device is that special Homogeneous paint layers can be produced as the continuous Drying the air in the work area not only to a dehydration in the paint leads, but especially the surface to be painted dries, d. H. anhydrous. this leads to to an increase homogeneity the paint layer during spraying, as the Farbpikmente arrange the more homogeneous on the surface to be painted, the drier this is.

According to one particularly preferred embodiment the present invention, the drying of the air in the Working area by means of an adsorption rotary dehumidifier, the one connected to the workspace Adsorptionsleitung and has a separate regeneration cycle. The special advantage This drying system is that it works continuously and very low maintenance.

According to one another preferred embodiment has the device according to the invention additionally to the drying system, a circulating and / or pre-cooling arrangement on, which circulates and cools the air in the work area. The cooling of the air leads though first to an increase the relative humidity, but to a lowering of the dew point the air. This allows a particularly effective, subsequent drying the air to the desired relative humidity.

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

1 Schematically, a paint processing apparatus according to the present invention;

2 the presently preferred adsorption rotary dryer which is preferably used in the drying system according to the present invention; and

3 a vernon curve showing the water-related corrosion rate for steel.

In 1 a device according to the invention for processing and in particular for drying paints is shown schematically.

The device according to the invention comprises a work area 10 which may preferably take the form of a painting booth known per se. Within the workspace 10 located next to the objects to be painted (for example, motor vehicle body parts) and the usual used in the paint industry or Lackierkleinbetrieben spray devices (spray guns), 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 is of particular importance that the work area 10 with respect to the environment is isolated to air exchange between the air 5 in the workspace 10 and to prevent the ambient air as much as possible.

Furthermore, the 1 the schematically illustrated drying system according to the invention 20 . 30 refer to. It includes in the 1 illustrated embodiment, an adsorption dryer 20 , and a recirculation and pre-cooling arrangement 30 which are described below.

According to the present invention, in the preferred embodiment of the drying system according to the invention, an adsorption dryer 20 used, via an adsorption line 21 with the workspace 10 connected is. The adsorption dryer 20 uses a continuous adsorption rotor 20 ' (Comp. 2 ), which sucks fresh air, this dries and the Adsorptionsleitung 21 in the workspace 10 introduces. Furthermore, the adsorption dryer has 20 via a separate regeneration cycle 29 , which - as described in more detail below - the adsorption rotor 20 ' regenerated.

The adsorption dryer according to the invention 20 is explained below with reference to the 2 described. Essentially, the adsorption dryer 20 from an adsorption rotor 20 ' provided with axially directed air passages (not shown). These provide a laminar flow of air through the dryer at a low pressure drop. The air to be dehumidified is from an adsorption fan 24 through the adsorption rotor 20 ' via a pre-filter 22 sucked. For the regeneration of the adsorption rotor 20 ' (ie for its dehumidification) a separately provided regeneration area is provided which removes the moisture deposited in the rotor and releases it to the outside. The over the regeneration cycle 29 Guided air is supplied by a regeneration fan 30 sucked through the regeneration section, whereby previously by a filter 26 cleaned, and then from a heater 28 was increased to the necessary process temperature.

The adsorption rotor 20 ' It consists essentially of a slow rotating ceramic composite rotor that is permanently impregnated with either silica gel or lithium chloride. Silica gel is currently preferred as the adsorbent, since it is physiologically harmless and not water-soluble, and thus neither washed out nor can be discharged with the air flow. The described arrangement of adsorption and regeneration region results in a continuous operation of the adsorption dryer, since the adsorption process runs parallel to the regeneration process.

Furthermore, in the presently preferred embodiment, a recirculation and precooling arrangement is provided 30 provided, which has a circulation and pre-cooling circuit 32 with the workspace 10 connected is. The circulation and precooling arrangement 30 on the one hand ensures an air exchange in the work area 10 , and optionally for a pre-cooling. In addition, the recirculation and pre-cooling arrangement 30 Also have filter elements (not shown) that control the air in the work area 10 filter.

There the mode of operation of air circulation and cooling systems The skilled worker is sufficiently known, is based on a detailed Described description of them at this point.

The inventive method for processing and in particular for drying paints as well the corresponding device have compared to the previously used known methods significant advantages, since they are the one subsequent Drying of water-soluble Paints with hot air make unnecessary and on the other to a more homogeneous paint layer on the to be painted surface to lead. As mentioned earlier, namely arrange themselves the paint pigments on the surface to be painted the more homogeneous, the drier the surface to be painted is.

at Painting temperatures of about 20 ° C Must be the Dew point of the impinging ambient air is at least 15 ° C, to achieve an effective anchoring of the pikmente on the underground. If it is intended to paint steel, for example, that the Dry bulb temperature of the steel surface is always smaller than that the ambient air adjacent to it. This inevitably creates a Cooling effect, which leads to an aerosol deposition on the steel surface, too if the resulting film of water is not visible to the naked eye.

This is done by in 3 illustrated Vernon curve that represents the corrosion curve of steel as a function of relative humidity (as a measure of susceptibility to corrosion is shown on the ordinate the weight gain). As can be seen from the diagram, at a relative humidity of more than 60%, the corrosion curve rises sharply, while at an air humidity of less than 30%, rusting no longer occurs. This means that no aerosol film has deposited on the steel.

Leading Accordingly, the painting at a relative humidity of less than 60%, or better, less than 30% through, this allows a very homogeneous arrangement of the color pigments on the steel.

In the following, an example of the present invention will be explained. A paint booth is used 10 , which is circulated according to the invention with 20,000 m ³ / h or 25,000 m ³ / h of air. The over the adsorption dryer 20 supplied dried fresh air should be about 10%.

Accordingly, therefore, 2,000 m ³ / h or 2,500 m ³ / h of fresh air through an adsorption dehumidifier (for example, available on ARKU process technology Gmbh, Olching, Germany) out and brought to a low dew point. At the same time, the circulating and precooling arrangement ensures 30 for pre-cooling the air in the work area 10 , For example, looking at prevailing conditions in summer, the following results:

In which T is the temperature, r.F. the relative humidity, W the water load, and TP is the dew point.

comparing one for the the drying resulting energy balance of the classical method (with hot air drying) in comparison with the above method according to the invention, that with above parameters about 50% of the energy costs can be saved. in this connection It should be noted that the Drying process around can be made more effective, the less total amount of air circulated becomes (ratio the hydrous circulating air to the highly dry fresh air). Therefore should the increase the highly dry fresh air portion to a further reduction lead the necessary energy costs.

Finally, it should be noted that the preferred embodiment described above is merely exemplary; Other designs are possible without departing from the spirit of the invention. For example, in the embodiment according to 1 the adsorption dryer according to the invention, Umwälz- and Vorkühlanordnungen outside the work area 10 appropriate. The skilled person will appreciate that these can of course also be arranged within the work area.

Farther is 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 provide an integrated device.

Finally will pointed out that the inventive method and the corresponding device not only applicable to water-based paints is, but also for solvent-based Paints. Will the process of the invention and the corresponding apparatus is used for solventborne paints, does this to that the still necessary drying by hot air can be significantly reduced; In this case, the method according to the invention is known as Predrying method used.

Claims (18)

Process for processing paints in a work area ( 10 ), comprising the steps of: a) providing an air-filled, closed working area ( 10 ); b) drying the air in the work area ( 10 ) to a relative humidity of less than 25%; and c) subsequently applying the paint to a surface to be painted. Method according to claim 1, wherein the relative humidity is lowered to below 10% in the drying step. Method according to claim 1, wherein the relative humidity is lowered in the drying step to about 6%. Method according to one of claims 1 to 3, before the step of drying the air in the working area ( 10 ) additionally comprises the step of pre-cooling the air. Method according to claim 4, in which the air in the pre-cooling cooled to below 20 degrees Celsius becomes. Method according to claim 4, in which the air in the pre-cooling cooled to below 15 degrees Celsius becomes. Method according to claim 4, in which the air in the pre-cooling cooled to about 10 degrees Celsius becomes. Method according to one of claims 1 to 7, additionally comprising the step of continuously circulating air in the working area ( 10 ) having. Method according to claim 8, in which the circulation and the drying of the air by means of an outside of the working area ( 10 ) and additionally comprising the step of mixing in a fresh air portion. The method of claim 9, wherein the ratio of circulated Air to fresh air is 90:10. The method of claim 9, wherein the ratio of circulated Air to fresh air is 60:40. The method of claim 9, wherein the ratio of recirculated air to fresh air is less than 50 : 50 is. Apparatus for carrying out the method according to claim 1, comprising: a) an air-filled closed working area ( 10 ); b) a paint application system for applying the paint to a surface to be painted when the relative humidity is less than 25%; and c) a drying system ( 20 . 30 ), the air in the said work area ( 10 ) dries. Apparatus according to claim 13, in which the drying system ( 20 . 30 ) a continuously operating adsorption dryer ( 20 ) Apparatus according to claim 14, in which the adsorption dryer ( 20 ) as adsorbent silica gel or lithium chloride. Apparatus according to claim 14 or 15, in which the adsorption dryer ( 20 ) an adsorption rotor ( 20 ' ), which consists of a ceramic composite material and is impregnated with the adsorbent. Apparatus according to claims 14 to 16, in which the adsorption dryer ( 20 ) via an adsorption line ( 21 ) and a separate regeneration cycle ( 29 ). Device according to one of claims 14 to 17, in which the drying system ( 20 . 30 ) additionally via a Umwalz- and Vorkühlanordnung ( 30 ).