KR20020048328A - pattern shape printing of teflon cloth for manufacture method - Google Patents

Abstract

PURPOSE: Provided is a production process of fluoride resin clothing with pattern printed which prints tree pattern on materials and passes a roller to coat fluoride resin paint so that it excludes transfer film work to raise productivity largely. CONSTITUTION: The production process of fluoride resin clothing with pattern printed comprises the steps of: (i) eliminating contamination stained on the surface of clothing by chemicals; (ii) washing with tap water; (iii) smoothing the surface; (iv) washing with tap water again; (v) forming a chrome film on the surface of materials; (vi) washing with tap water again; (vii) washing with clean water; (viii) drying and coating the surface of the materials by background color; (ix) burning the surface of materials, placing on a rail and using fluoride resin paint to coat pattern; and (x) racking, using fluoride resin paint for transparent painting, burning the surface again, testing and packing.

Description

Pattern shape printing of teflon cloth for manufacture method

The present invention relates to a method of manufacturing a pattern-printed fluorine resin coating, and more particularly, by printing a wood pattern on various building materials such as window frames and coating a fluorine resin paint while passing through rollers to provide functionality and durability. It is intended to drastically improve economics, design, and productivity.

As is well known, the fluorine resin (PVDF: TEFLON) is extremely chemically stable because the fluorine atom (F) having the highest electronegativity is combined at a high energy of 110 cal / Mole, and the carbon-fluorine (CF) coupling distance is very short. Helical structure due to steric hindrance protects carbon-hydrogen (CH) bond and is not destroyed by UV energy, so it is resistant to weathering, corrosion resistance, processability and bendability, chemical and pollution resistance, abrasion resistance, heat resistance and cold resistance, various colors and economic performance It is excellent and protects material with long life of more than 20 years.

These fluororesin paints are excellent in weatherability, color retention, contingency, and excellent performance in chemical and abrasion resistance.They are made of galvanized steel and aluminum, which are widely used in interior and exterior walls and industrial facilities as well as increasing the weight and weight of modern buildings. Specially designed to protect products from corrosion for more than 20 years with one painting, and to have semi-permanent life without repair painting of building with super weather resistant and super corrosion resistant fluorine coating that maintains the profound and beautiful color of fluororesin paint. A variety of colors, based on 40 standard colors, are super functional paints that satisfy the creative, aesthetic and economic needs of designers, builders and owners of modern buildings and commercial facilities by colorizing monotonous urban aesthetics. Is recognized.

The manufacturing method of a conventional building material using the fluorine resin paint as described above is shown in FIG.

That is, the conventional technique is a surface treatment process (1 time) (1) → undercoat process (1 time) (2) → intermediate process (1 time) (3) → transfer film production by transfer (thermal transfer or water transfer) method. It is manufactured by the process (several time) (4) → transfer and washing process (severe time) (5) → top coat process (6).

However, the conventional manufacturing method as described above has caused a problem that environmental pollution occurs due to the generation of vinyl waste during the transfer film operation.

In addition, the product produced by the conventional manufacturing method has a problem that the appearance of the product is not beautiful but also economical and reliability deteriorated because it is not possible to make a pattern shape using a fluororesin paint.

Furthermore, a problem arises in that productivity is reduced due to complicated and cumbersome transfer film work.

The present invention has been made in order to solve the above problems of the prior art, the first purpose of coating the fluorine resin coating while passing through the roller after printing the pattern of the tree on various building materials such as window frames or door frames The second purpose is to prevent the pollution of the environment because there is no vinyl-based waste as there is no transfer film manufacturing process as in the prior art, and the third purpose is to greatly improve productivity since there is no complicated and cumbersome transfer film work. The fourth objective is to improve the functionality, durability, economics and design by the above effects, and as a result, the pattern-printed fluorine resin can significantly improve the quality and reliability of the product. Provided is a method of making a coating.

In order to achieve the above object, the present invention provides a method of manufacturing a fluorine resin coating by a transfer method, the degreasing process of removing contaminants on the surface of the material of the coating with chemicals, followed by a washing process to clean the water and the surface. Neutralization process to be smoothed, and then washed again with tap water and chromating process to form a chromium film on the surface of the material, and then rinsed with tap water and rinsed with clear water and then washed with pure water and then drying After coating process, top coating process to paint the ground color on the surface of the material, baking process to bake the surface of the material, and pattern coating process to pattern the surface of the material using fluorine resin after the rails are attached, and afterwards fluorine resin paint Baking process and baking the surface of the material again It provides a method for producing a patterned printed fluorocarbon resin coating, characterized in that the process is performed by a series of processes of inspection and packaging process.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this purpose are as follows.

1 is a simplified process diagram showing a method of manufacturing a conventional fluorocarbon resin coating.

Figure 2 shows a method for producing a fluorocarbon resin coating printed pattern of the present invention

Simplified process diagram.

<Explanation of symbols for the main parts of the drawings>

10: Degreasing process 11: washing process

12: neutralization process 13: washing process

14: Chromatizing process 15: Water washing process

16: pure water washing process 17: drying process

18: undercoat process 19: overcoat process

20: baking step 21: rail attachment

22: pattern painting process 23: racking

24: transparent coating process 25: baking process

The method of manufacturing a patterned fluorine resin coating applied to the present invention is configured as shown in FIG.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and their definitions should be made based on the contents throughout the specification.

First, the fluorine resin (PVDF: TEFLON) applied to the present invention has superior characteristics than general plastics, and in particular, has excellent heat resistance, chemical resistance, low temperature resistance, electrical insulation, high frequency characteristics, and the like, compared to general plastics. It also has non-tackiness and low friction characteristics. Because of this outstanding property, fluorine resin is applied in a wide variety of fields from chemical industry, electric and electronic industry, machinery industry, from aerospace development or aircraft industry to household goods. The surface of the tree is coated with a pattern.

The fluorine resins used in the present invention are mainly used as 'FLUROPON' of Aekyung, 'KOFLUX' of Kumgang Goryeo, 'DURANAR' of Dongju Industry, and 'FROPON' of Dye Paint.

Hereinafter, a method of manufacturing a fluorine resin coating printed with a pattern shape applied to the present invention will be described in more detail.

First, a degreasing process 10 for removing contaminants on the surface of a coating material cut into a predetermined length (various building materials, for example, window frames or door frames) is performed with chemicals.

The material is then rinsed in tap water for about 2 minutes, the washing process 11 and the neutralization process (SMUT) 12 for smoothing the surface for about 2 minutes, and again rinsing with tap water for about 2 minutes ( 13).

The multi-stage washing and pretreatment process is necessary for the removal of paint and grease oil residues, and solid residues such as organics require chemical conversion. And the pretreatment process should be installed for the purpose of cleaning aluminum, and anionized aluminum cannot be used for painting fluororesin paint.

After the water washing process 13 as described above, the chromium film is formed on the surface of the material for about 3 minutes (CHROMATING) 14 and then rinsed cleanly for about 2 minutes with tap water as described above. The washing process (15) and the rinse for about 2 minutes with clear water is subjected to the pure washing process (16).

After about 10 minutes to go through the drying step (17) process, which requires proper drying in order to obtain excellent physical properties, the drying process 17 is preferably a natural drying process. Subsequently, after the drying step 17, a top coat step 18 for 5 minutes with a thickness of 5-7 μm and a top coat process 19 with 15 to 20 μm thick for 15 minutes are applied to the surface of the material. Going through.

After the top coat process 19, the process of baking the surface of the material for about 20 minutes (BACKING) 20 and the rail mounting (21) after the pattern coating process to coat the surface of the material using a fluorine resin paint (22).

In this case, the coating applied to the present invention is characterized in that the pattern is coated on the surface while passing between the rollers (not shown in the drawings), which is possible because it does not use a transfer film as in the prior art. .

And the wood used in the pattern painting process 22 is preferably printed pattern such as bark, Western ash, maple, chestnut or oak.

After the pattern painting process 22, after the laking 23 for about 15 minutes, using a fluorine resin paint, a transparent coating process 24 and a baking process 25 again to bake the surface of the material to a thickness of 10 to 15㎛ and inspection And the fluorine resin coating printed with the pattern of the present invention by a series of processes in the packaging process 26. In particular, since the printing is performed directly on the surface of the material, the durability, heat resistance, and design of the product. Its high performance makes it possible to improve product quality and reliability.

The packaged material avoids moving to the line because there is a risk of damage to the painted surface, the package uses a non-friction material.

The material applied to the present invention is preferably used a metal and plastic containing aluminum.

In addition, the present invention is preferably one containing 70% or more of the fluorine resin in the coating, the numerical value of course can be changed as necessary.

On the other hand, the present invention may be variously modified and may take various forms in applying the above configuration.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

As described in detail above, the present invention is to print the wood pattern on various building materials such as window frames or door frames, and to coat the fluorine resin paint while passing through the rollers. It is designed to prevent the environment from being polluted due to the absence of waste, and to improve productivity significantly because there is no complicated and cumbersome transfer film work.The above effects improve the functionality, durability, economy and design. Of course, this is a very useful invention that can significantly improve the quality and reliability of the product.

Claims (3)

In the method for producing a fluorocarbon resin coating by the transfer method, The degreasing process (10) to remove contaminants on the surface of the coating material with chemicals, followed by a washing process (11) to clean the tap water, and a neutralization process (12) to smooth the surface, and then to clean the water again with water Washing process (13) and Chromatization process (14) to form a chromium film on the surface of the material and then rinsed cleanly with running water (15) and rinsed with pure water (16) Thereafter, through the drying process (17), the undercoat process (18) and the top coat process (19) to color the surface of the material After the baking process (20) and rail mounting (21) of baking the material surface, a pattern coating process (22) of applying a pattern on the surface of the material using a fluorine resin material and Then, after laking 23, the pattern is made by a series of processes such as the transparent coating process 24, the baking process 25 for baking the surface of the material again, and the inspection and packaging process 26 using fluorine resin paint. Method of manufacturing a fluororesin coating having a printed shape. The method according to claim 1, The coating is a method of manufacturing a patterned fluorine resin coating characterized in that the pattern is coated on the surface while passing between the rollers. The method according to claim 1, A method of manufacturing a patterned fluorine resin coating, characterized in that the coating contains 70% or more of the fluorine resin.