DE10055336A1 - Coating device for in situ application of liquid and encrustation repellent lotus effect coating to e.g. building or vehicle, uses near IR source to carry out cross linking or curing - Google Patents

Abstract

A radiation source is provided for emitting near IR light, preferably in the 0.8-1.5 micron region, which impinges against the coating material for a short time in order to carry out cross-linking or curing.

Description

The invention relates to a method for on-site egg production A liquid and deposit-repellent lotus effect cover layering on an assembled component.

The coating of the surfaces of components that the Au skin of buildings, vehicles, airplanes, ships or forming machines and systems also serves pri in many cases mär the purpose of making the corresponding parts relatively insensitive against environmental influences. In particular, the kor clearing effect of itself on the surfaces the liquid and air pollution or at least be reduced. For this purpose you also try for a long time, as smooth as possible, non-porous coatings witness where liquids run off well and in the ver dirt is difficult to penetrate. The prevention of Deposition is known to be one of the most advantageous Measures to prevent harmful effects of the above Substances. This is one of the main causes of that widespread and economic importance of chrome or Enamel coatings.

For some years now, coatings with a special Microstructure known, also for chrome or enamel coatings  or similar coatings unsuitable surfaces - for example the surfaces of ceramic components from Zie gels or roof tiles or plaster surfaces - highly liquid repellent and deposit-repellent can be made. In the way look at the effect called "lotus effect" lacquer-like coatings are also referred to as lotusef fect coatings. It is essentially about thermally crosslinking polymer systems which are used for crosslinking or Curing a heat treatment from normally above must be subjected to approx. 200 ° C. The use of such Systems has so far been based on the manufacture of new building elements te limited, in which the application and curing of the Lo tuseffekt coating is included from the outset.

For the subsequent coating of surfaces made of components that do not repel liquids or deposits are built and for example against air pollution or Lubricants should be made less sensitive So far only less suitable systems available, none need thermal networking.

The object of the invention is therefore to provide a Process for the on-site generation of a liquid and abla anti-sticking, thermally cross-linked lotus effect coating device on an assembled component, in particular a building, or land, water or aircraft, which to affordable costs is practically applicable on a large scale.

This task is accomplished by a process with the characteristics of Claim 1 solved.

The invention includes the basic idea of thermal crosslinking of a coating starting material the surface of the corresponding component for a short time Expose radiation field, the radiation of which is essential  Active component in the near infrared range. It is about here in particular radiation in the wavelength range between between 0.8 µm and 1.5 µm, which are known for thermal crosslinking lotus effect systems as excitation radiation for the Polymer formation or crosslinking is highly effective and very low allowed treatment times. The components to be coated are only slightly thermally stressed, so that their Treatment even when installed (in the thermal chip and other effects of a higher grade and last longer heating is difficult to predict and control) possible.

In a first practically meaningful application variant of the Invention, the components are in a building construction firmly inserted ceramic components, in particular other wall or floor tiles. There is an urgent need such components, especially in public areas (at for example as wall cladding of building facades or in interior wall surfaces or underpasses or in the sanitary area or as floor coverings) less sensitive to dirt and To make smearings ("graffiti"). To this application area offer also count components made of fired clay, in particular in their use as flooring or wall cladding elements te, but also as roof tiles. A demolition of the untreated Components manufactured surfaces is in all these applications fields that are usually economically unacceptable components that are required for frequent cleaning work but also a high economic burden for the owners burden.

This applies in a similar way to glazing of buildings or vehicles and non-ceramic construction elements from Wall or ceiling structures or vehicle outer covers. In this Connection is particularly related to the protection of superstructures and Glazing public transport in major cities  from rapid pollution and smearing, but also from be Usage-enhancing coatings on aircraft or ships to think skin.

Wall or ceiling cladding or plastic floor coverings or wood that differs from aggressive dirt or spray varnishes are very difficult and often do not clean at all let be through one with the proposed method Coating applied largely insensitive to such deposits and keep essential in normal use longer a pleasant appearance. Especially with sol Chen temperature-sensitive materials also comes with the thermal process achieved low thermal Stress of the wearer is most advantageous.

This applies in a similar way to seat covers made of plastic, Le the or leathery material (or - under certain advance settlements - also for textile seat covers) that are used in public Area or public transportation preferred property of smearings are. Such seat covers are thermally re relatively sensitive, so that an application of thermally crosslinking Coatings when using conventional thermal networking In practice, they are excreted, but secondly they are without additional protection of paint once applied only difficult to clean.

The application of the coating starting material to the protective built-in components takes place depending on the specific setting of the coating system on the one hand and the nature and arrangement of the coating carrier on the other hand in particular as a liquid lacquer, but if appropriate also as a pasty mass with a known contract drive, especially by spraying, spreading or spreading roll.  

Depending on the surface condition and degree of contamination of the Component surface is a pretreatment to improve adhesion, especially by roughening, grinding, etching or opening bring an adhesion promoter (primer), be appropriate. It it is understood that such pretreatment increases costs works and should therefore be avoided if possible te. This appears to be particularly possible if through the subsequent thermal treatment some warming the outermost surface layer of the component up to a gra de is achieved that this also without liability-improving Vor treat an intimate connection with the neighboring border layer of the lotus effect system.

The radiation field is generated in a proven and cost-effective manner preferably by at least one halogen lamp - in some cases by an arrangement with a plurality of halogen lamps - with a lamp temperature above 2900 K, preferably above 3200 K. The radiation from these radiation sources is expediently concentrated or focused on the component to be treated or the component arrangement in order to achieve high power densities in the interest of the shortest possible treatment duration and a low overall thermal load on the carrier. The power densities are preferably above 100 kW / m ² , better above 300 kW / m ² and in many cases advantageously even at 500 kW / m ² or more. Such power densities can be achieved by arranging a plurality of mutually effective, in particular parallel, elongated halogen lamps with associated highly effective reflectors. They allow exposure times of less than 10 s, preferably less than 5 s, and in particular for temperature-sensitive carriers of 2 s or less.

For many applications, the process is based on a mobile loading system Radiation arrangement to be carried out, for example, lengthways of a wall, floor, formed from the components to be treated  or along the ceiling surface. For other users applications, for example the treatment of the outer skin of Ver means of transport, stationary arrangements can be realized through the appropriate vehicle at a reasonable speed is moved through. The treatment of smaller objects or areas Chen is preferably done with a hand-held NIR radiator.

For special coating systems, the provision of a white tere radiation field in a different spectral range, esp especially in the ultraviolet range to promote networking or curing of the coating starting components makes sense his.

In one with regard to quality assurance and process reliability The preferred procedure is at least one process parameters, especially the distance between the irradiation arrangement and the surface of the component or the temperature on this, measured and the operator of the radiation arrangement displayed so that the distance or temperature is pre-selected track the given values and, if necessary, the electrical values Power and thus the radiation power of the irradiation can change order. For routine operations, there is also one applicable procedure advantageously possible, but here too the surface temperature is a useful guide provides.

At least for special applications, cooling and / or removal of volatile components of the coating Starting material from the surface of the building to be coated partly by a gas stream running along this (esp special airflow) makes sense. Alternatively or in Kombina tion can be used to coat components with ge small thickness also from the back through a gas flow be cooled. For standard applications, however, one is with an eye a process management on the significantly lower technical effort  without fluid cooling or active removal of Lö Preferred solvent components of the coating system.

The implementation of the invention is not described above NEN application examples and procedural aspects limited, son also for a variety of other applications and materials lien and with appropriately modified procedures possible.

Claims (12)

1. Method for on-site generation of a liquid and deposit-repellent, thermally cross-linked Lotusef fect coating on an assembled component, esp special of a building or land, water or air vehicle, wherein a coating raw material applied a surface of the component and then briefly a radiation field an essential Active component in the near infrared range, in particular in the wavelength range between 0.8 µm and 1.5 µm exposed radiation arrangement is exposed, whereby the coating base material for lotus effect loading layer crosslinked or hardens. 2. The method according to claim 1, characterized in that the coating starting material in the form of a stream siglackes or a pasty mass, in particular by Spray on, spread on or roll on the top surface of the component is applied. 3. The method according to claim 1 or 2, characterized in that the surface of the component before application of the coating starting material  one to improve liability the pretreatment, in particular a roughening, to grinding, etching or priming. 4. The method according to any one of the preceding claims, characterized in that the radiation field is generated by at least one halogen lamp with a lamp temperature above 2900 K, before given above 3200 K, and on the upper surface of the coating starting material a power density of more than 100 kW / m ² , preferably of more than 300 kW / m ² and in particular of 500 kW / m ² or more. 5. The method according to any one of the preceding claims, characterized in that the coating raw material to the radiation field for a period of less than 10 s, preferably less less than 5 s and in particular 2 s or less, out is set. 6. The method according to any one of the preceding claims, characterized in that the coating starting material in connection with the Radiation in the near infrared range another Radiation field in a different spectral range, esp especially in the ultraviolet range, for networking or Curing is exposed. 7. The method according to any one of the preceding claims, characterized in that at least one process parameter, in particular the distance the irradiation arrangement to the surface of the component or the temperature on it, measured and displayed  and / or the method regarding this parameter is valid. 8. The method according to any one of the preceding claims, characterized in that the surface of the coating starting material and / or the back surface of the component with a Gas flow, in particular air flow, for cooling and / or Removal of volatile components of the coating tion starting material is coated. 9. The method according to any one of the preceding claims, characterized in that the assembled component is in a building deconstruction of permanently inserted ceramic component, especially a wall or floor tile, or a building fired clay element, especially one in one Roofing anchored roof tiles or a floor covering storage element, acts. 10. The method according to any one of the preceding claims, characterized in that the assembled component is a glass pane a building glazing or a vehicle. 11. The method according to any one of the preceding claims, characterized in that the assembled component is a wall or Ceiling covering element or a part or a Be rich in a vehicle body, especially made of metal, Plastic or wood. 12. The method according to any one of the preceding claims, characterized in that the assembled component is a built-in one  Seat cover of a seat or seat element in one Ge building or vehicle, in particular made of plastic, leather or a leather-like material.