Method for drying automobile paints

Drying and gas or vapor contact with solids – Material treated by electromagnetic energy – Infrared energy

Patent

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Details

34307, F26B 334

Patent

active

056898991

DESCRIPTION:

BRIEF SUMMARY
BACKGROUND AND SUMMARY OF THE INVENTION

The invention relates to a method for drying painted automobile bodies or their parts. The auto bodies or parts are painted with one-pack paint using a combined infrared/air-circulation oven or a pure infrared oven, with a heating period being followed by a holding period at the temperature reached for drying.
In manufacturing automobiles, an effort is made during painting to achieve a paint structure that is as flat as possible. This applies both to the application of the main coat (top coat) as well as any necessary application of refinishing paint. Without special measures, such as turning the painted body around its lengthwise axis during the drying process, providing large paint layer thicknesses, as well as multiple coat layers, it has not been possible thus far to achieve a completely flat paint structure.
The goal of the present invention is to provide a remedy in this regard and to propose a method for drying painted vehicle bodies or parts thereof with which a nearly flat paint structure is achieved without additional expense.
This goal is achieved according to the invention by a method for drying painted automobile bodies or their parts. The auto bodies or parts are painted with one-pack paint using a combined infrared/air-circulation oven or a pure infrared oven, with a heating period being followed by a holding period at the temperature reached for drying. A pure infrared oven is used exclusively for heating, in which, when the paint to be dried has reached a temperature of at least 50.degree. C. and at most 80.degree. C., the heating phase is interrupted for at least two minutes.
Surprisingly it has been found that when heating is interrupted, and relatively independently of the type of paint used, and the temperature reached at the time of the interruption is then held, an optimum surface structure for the paint film can be achieved. Evidently, the interruption of the heating or the provision of a longer holding time in a low paint viscosity range gives the paint film sufficient time to run. The paint has not yet had a chance to react chemically at this point. It is important when drying paint by applying heat that only infrared radiators be used and that drying not be performed in circulating air alone. During the holding time that follows heating, drying can be performed using circulating air alone or in combination with infrared heaters.
An optimally smooth paint surface can be achieved extremely economically by the method according to the invention.
Further advantages are described as follows. As a result of the higher end temperatures used for drying, the drying time is shortened. This results in savings in the length of the driers and, hence, in the space required in buildings. In addition, the previously obligatory evaporation areas can be eliminated.


BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a graphical illustration of the temperature curves for a top coat according to the present invention; and
FIG. 2 is a graphical illustration of the temperature curves similar to FIG. 1 but for a catalyzed refinishing paint.


DETAILED DESCRIPTION OF THE DRAWINGS

Two typical temperature curves will now be described in greater detail. In the first illustration of FIG. 1, the temperature is plotted as a function of drying time, and the set temperature curve for an automobile body painted with a top coat is shown as well. The temperatures shown relate to object temperature, in other words, the temperature of the painted surface. This is measured with thermocouples or with a pyrometer.
As can be seen, the heating phase begins at ambient temperature and continues until a temperature of about 65.degree. C. is reached.
When this temperature is reached, the heating process is interrupted. This means that the temperature that has been reached is maintained for about three minutes. Then, the heating phase resumes. The temperature rise during heating proceeds at 20.degree. C. per minute.
When a temperature of about 155.degree. C. is reached, the holding time beg

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patent: 4621187 (1986-11-01), Petro, Jr.
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patent: 4670994 (1987-06-01), Takata et al.
patent: 4785552 (1988-11-01), Best
patent: 4907533 (1990-03-01), Nelson et al.
patent: 5164571 (1992-11-01), Asaoka et al.

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