JPS58166011A - Forming pattern on extruded shape surface - Google Patents

Abstract

PURPOSE:To form a pattern simply ith high accuracy and excellent reproducibility by a method wherein laser beams are irradiated on part of the surface of an extruded shape and the portion irradiated by laser beams is etched to a desired depth to form a pattern. CONSTITUTION:This method is to irradiate laser beams on a part of the surface of an extruded shape and to etch the laser beam irradiated portion by a desired depth. Accordingly, the laser beam irradiated portion becomes concave while the laser beam unirradiated portion becomes convex to make a solid pattern. In this way, it is possible to form any solid pattern as desired to improve the additional value of the extruded shape.

Description

[Detailed Description of the Invention] The present invention is applicable to Kl. This method is used to form a three-dimensional pattern on the surface of an extruded material such as aluminum or plastic.

Traditionally, various shapes of extruded shapes have been produced as extruded shapes for use in sash, torigo, etc., but these are made of the same color as the base material, or are made by mixing pigments during molding. There are many ways to achieve uniform coloring by applying ms after molding or other surface treatments. However, in recent years, extruded shapes with patterns on one surface, especially shapes with three-dimensional patterns, have become desirable, but conventional
Pattern forming methods for extruded shapes are methods that require pasting pattern printing plates or complicated surface treatment processes, and these methods have problems such as the work being inefficient, for example. The pattern obtained by this method is generally two-dimensional. In this case, although it is possible to create an uneven three-dimensional pattern using powder, etc., the resulting pattern is simple, and it is difficult to freely form any three-dimensional pattern.
It is especially difficult to produce jin, which forms a gorgeous three-dimensional pattern.

The present invention was developed in view of the above-mentioned circumstances, and allows arbitrary three-dimensional uneven patterns of 1 meter to be freely formed on the surface of an extruded material such as aluminum or plastic, with high precision and good reproducibility, making the work simple and efficient. The object of the present invention is to provide a method for forming a pattern on the surface of an extruded shape material, which can be performed on the surface of an extruded shape.

That is, 1. The present invention achieves the above object by irradiating a part of the surface of an extruded material such as aluminum or plastic with a laser beam, etching the laser beam irradiated part into a desired shape, and cutting the surface as necessary. After laser beam irradiation, a surface treatment Im is applied to form a pattern.

The present invention will be explained in more detail below.

In the present invention, there is no particular restriction on the type of extruded shape to be patterned, and any shape can be used. In addition, the material used can be any material used for ordinary extruded shapes, such as aluminum, plastics such as polyvinyl chloride, etc., without any restrictions. Furthermore, multi- or composite extruded shapes such as uniformly colored extruded cedar wood or printed plates pasted or laminated can also be used.

A method for forming a three-dimensional pattern on an extruded shape according to the present invention is as follows.

Irradiating a part of the surface of the extruded shape with a laser beam,
The part irradiated with the laser beam is etched to a desired depth, creating a three-dimensional pattern in which the part irradiated with the laser beam becomes a concave part and the part not irradiated with the laser beam becomes a convex part. In this case, the laser beam irradiation portion may be etched to the same depth, and the other portions may be etched shallower and the other portions may be etched deeper to change the depth. Furthermore, when irradiating multi-layer or composite extruded profiles with the laser beam, the laser beam can be irradiated until the lower floor is exposed.

In the present invention, there are no particular limitations on the laser beam irradiation device used for laser beam irradiation.

Examples include solid lasers such as YAG radar, gas lasers such as carbon dioxide lasers, liquid lasers, and semiconductor lasers, and any laser can be used as long as it has the ability to perform nine etchings and obtain φ as described above. . The laser/beam irradiation method may be continuous or pulsed, and the laser output, oscillation wavelength, etc. may vary depending on the s of the irradiated film. It is selected as appropriate depending on the depth of etching inside.

Extruded shapes with a three-dimensional pattern formed by irradiation with a laser beam can be used for purposes such as combs, torigo, etc. However, if necessary, the extruded shape with a three-dimensional pattern formed can be It is also possible to perform a surface treatment such as anodizing treatment or various coloring treatments on the extruded aluminum material.

As described above, the pattern forming force lamp according to the present invention irradiates the surface of the extruded material with a laser beam and etches the -S to the required depth, so it is possible to freely form any three-dimensional pattern. It can be formed with high precision and good reproducibility, and it can improve the added value of extruded shapes. In addition, the pattern forming method is easy to operate,69 and the pattern can be formed efficiently.
The laser beam irradiation knee can be easily incorporated into the extrusion shape manufacturing process 11, making it possible to make it continuous, and furthermore, it is possible to control it with a 4-viewer or the like.

Below, l! -The present invention will be specifically explained by giving an example.1
The present invention is not limited to the following examples.

[Implemented by NIJ A laser beam was irradiated onto the front surface of an extruded aluminum profile for sashes.

Laser/J-mu irradiation device: manufactured by Fuji Electric Manufacturing Co., Ltd.
, AaERMA'rg-s.

(YAG laser) Laser capacity: max 50 W Irradiation method: Impulse ribbon Length: 1.06 μm Etching depth: Approximately 30 μm Steel As a result, a three-dimensional pattern in which the laser beam irradiated area looked like a recess was obtained. [Example 2J A laser beam was irradiated onto the surface of an extruded polyvinyl chloride material for sashes in the same manner as in Example 1, and a three-dimensional pattern was formed in which the laser beam irradiated area became a concave portion.

[Practical IIA Example 3] A laser beam was irradiated in the same manner as in Example 1 to the desired surface area of the extruded polyvinyl chloride material to which a 0.1-thick acrylic resin print was attached. Second, the printed version of the beam irradiated area was etched until the substrate was exposed.

As a result, a three-dimensional pattern was obtained in which the extruded polycyclized vinyl material material was exposed in the laser/beam irradiated area.

Claims (1)

[Claims] Part of the surface of the extruded shape is irradiated with a laser beam. The laser beam irradiation area is etched to the required depth. A method for forming a pattern on the surface of an extruded shape, the method comprising forming a pattern.