JPH0577068A - Method for forming graphic pattern of article - Google Patents

Abstract

PURPOSE:To enable accurate marking and mainly, expansion of the selective range of colors of a decorative surface. CONSTITUTION:The surface 3 of an article (a control panel) is coated with a pattern display layer 4 low in beam absorption rate, the surface of this pattern display layer 4 is coated with a layer 5 to be removed high in beam absorption rate, the surface of this layer 5 to be removed is coated with a surface layer 6 having a specified beam absorption rate to form a decorative surface, the specified position of this decorative surface is irradiated with laser beam to heat-melt the surface layer 6 and the layer 5 to be removed, the residue on the surface layer 6 not heat-melted by using evaporation by heat-melting of this layer 5 to be removed is spattered, the surface layer 6 heat-melted and removed accurately and the pattern surface layer 4 not heat-melted through the layer 5 to be removed are exposed, a specified graphic pattern (e.g. letters such as OFF, DEF) is formed and displayed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an article graphic pattern creating method for creating a predetermined graphic pattern (including characters) on the surface of an article.

[0002]

2. Description of the Related Art Conventionally, printing or the like is generally used to create and display a predetermined graphic pattern on the surface of various articles, but such printing or the like has a problem such as bleeding. By applying the recent advances in laser processing technology that enables accurate processing, a method for creating a graphic pattern for marking the surface of an article with a laser has been developed (see, for example, JP-A-54-94331). ..

In the above prior art, a white coating film is attached to the surface of an article, a black coating film is attached thereon to coat the surface of the article, and the coated decorative surface (black coating film). A predetermined pattern is obtained by removing (melting) a predetermined portion of the black coating film through laser irradiation and exposing the white coating film through the predetermined portion of the removed black coating film. is there.

That is, in this prior art, the black coating film absorbs laser light and is melted by heat, whereas the white coating film reflects the laser light and is not processed (removed). This is a marking technology for thin film removal using the difference.

[0005]

However, in the above prior art, the decorative surface of the article can be coated only with a black coating film having a high laser absorptivity.

That is, when a coating film having a relatively high laser absorptivity (for example, a brown, blue, red, or other coating film) is applied to the surface of an article, when the marking by laser processing is performed,
The coating film was not completely dissolved (removed), the marking accuracy was impaired, and the pattern could not be clearly created.

Therefore, since the decorative surface of the article is limited to only the black coating film, when a coating film of any color other than the black coating film is applied as the decorative surface of the article, laser processing is performed. It could not be marked.

Therefore, in view of the above problems, the present invention enables accurate marking processing even when a coating film of any color not limited to a black coating film is applied as the decorative surface of the article, and the decorative surface is It is an object of the present invention to provide a method for creating a figure pattern of an article, which is intended to expand the selection range of colors.

[0009]

In order to achieve the above-mentioned object, a method for creating a graphic pattern according to the present invention comprises a step of coating a pattern display layer having a low beam absorptivity on the surface of an article, and applying the pattern display layer on the pattern display layer. A layer to be removed having a high beam absorptivity, and a surface layer having a predetermined beam absorptivity is coated on the layer to be removed to form a decorative surface. By irradiating a predetermined portion of the layer to be removed through the surface layer by irradiating with a laser beam having a predetermined pattern on the decorative surface by exposing the pattern display layer through the dissolved and removed portion. The pattern is created and displayed.

In another method for creating a graphic pattern according to the present invention, a surface of an article made of a material having a low beam absorptivity is coated with a layer to be removed having a high beam absorptivity, and the layer to be removed is formed on the layer to be removed. A decorative surface is formed by coating a surface layer having a predetermined beam absorptivity, and a predetermined portion of the decorative surface is irradiated with a laser beam having a predetermined wavelength, whereby a predetermined layer of the layer to be removed is passed through the surface layer. A part is dissolved and removed, and the pattern display surface is exposed through the part that has been dissolved and removed, whereby a predetermined graphic pattern is created and displayed on the decorative surface.

[0011]

Therefore, for example, when the surface layer to be the decorative surface is a brown coating film, the layer to be removed is a black coating film containing a pigment such as carbon, and the pattern display layer is a white coating film, When a predetermined portion of the decorative surface (brown coating film) of the article is irradiated with laser light, the brown coating film has a certain beam absorptivity, so that the laser light is absorbed and dissolved and removed to some extent by heat. Some of the pigment contained in the brown coating film remains. However, since the black coating film, which is the layer to be removed and is coated under this decorative surface (brown coating film), has a high beam absorptance, it almost completely absorbs laser light and is completely dissolved and removed by heat. The pigment on the decorative surface (brown coating film) remaining at the time of evaporation for the dissolution and removal is also removed. As a result, the surface layer on the decorative surface and the layer to be removed are accurately removed, and the clearly marked graphic pattern is displayed by the pattern display layer.

When the surface of the article is made of a material having a low beam absorptivity, it is not necessary to form the pattern display layer made of the above-mentioned white coating film, and the material of the article itself may be used. It is reduced, and other effects are the same as those in claim 1.

[0013]

Embodiments of the present invention will be described below with reference to the drawings.

In this embodiment, for example, a method of forming characters (figure pattern) such as OFF and DEF indicating the functions of various switches 2 of the control panel 1 of the vehicle air conditioner shown in FIG. 1 by laser marking will be described. ..

To coat the control panel 1, the surface of the article 3 is first coated with the pattern display layer 4 having a low beam absorptivity, as shown in FIG. 2, in order to perform the laser marking according to the present invention. The pattern display layer 4 is made of, for example, a white paint film coated with a white paint having the lowest beam absorptivity. The white paint used for this is, for example, titanium white (TiO ₂ ) or barite (BaSO ₄ ). A melamine / alkyd resin system (solid color) or a melamine / acrylic resin system (metallic color) containing an inorganic pigment such as is used.

Next, the pattern display layer 4 is covered with a layer to be removed 5 having a high beam absorptance. The layer to be removed 5 is composed of, for example, a black paint film coated with a black paint having the highest beam absorptivity. The black paint used for this is, for example, carbon (C) or iron oxide black (Fe ₃
A resin-based paint containing an inorganic pigment such as O ₄ ) is used, and this paint is a melamine / alkyd resin-based or melamine-acrylic resin-based paint, like the white-based paint.

A surface layer 6 constituting the decorative surface of the control panel 1 is coated on the layer to be removed 5.
The surface layer 6 is the surface color of the control panel 1, and is composed of a surface coating film coated with a paint of an arbitrary color such as brown, blue or red. The constituent paint may be one having a higher beam absorptivity than the pattern display layer 4 and a lower beam absorptivity than the layer to be removed 5. In this embodiment, the following description will be made on the assumption that a brown paint which is generally used for coloring a control panel of a vehicle is applied.

This tea-based paint is obtained, for example, by mixing a yellow pigment, a red pigment, a blue pigment, a black pigment and a resin in a predetermined mixing ratio, and is a melamine / alkyd resin type or melamine. -Acrylic resin type is used.

Next, the surface of the control panel 1 is turned OFF and DEF by using the laser processing machine 10 described below.
A predetermined figure (including characters) pattern such as is created. As a YAG laser processing machine for laser marking,
For example, a structure as shown in FIG. 3 is used.

The YAG laser processing machine 10 is a well-known one having a laser light wavelength of 1.06 μm, and has a laser device 11 for emitting the laser light, an X-axis galvanometer mirror 12 and a Y for changing the irradiation position of the laser light. Axis galvanometer mirror 13
, A condenser lens 14, and a camera 15 and a monitor device 16 for monitoring the processing position and processing state. In order to move the position of the laser beam applied to the control panel 1 as the object to be processed, the galvanometers 17 and 18 are appropriately controlled to control the X-axis galvanometer mirror 1.
The angles of the 2 and Y-axis galvanometer mirrors 13 may be varied. As a result, the laser light emitted from the laser device 11 can be moved and scanned on the control panel 1, which is the object to be processed, along a predetermined locus, and the laser light is not emitted to the portion where marking is not performed. In addition, in FIG. 3, the laser beam is shown by a dashed line. Further, since the camera 15 and the monitor device 16 are provided, the object to be processed can be scanned and laser processing can be performed by automatic control.

When a predetermined portion of the surface of the control panel 1 is irradiated with laser light based on the above-mentioned structure, a predetermined graphic pattern can be obtained. This will be described with reference to FIG.

When the surface of the control panel 1 is irradiated with laser light, a predetermined portion of the surface layer 6 (brown coating film) which is the decorative surface irradiated with the laser light absorbs the laser light and is heated to some extent by heat. Alternatively, it is dissolved and removed almost entirely. However, since the surface layer 6 (brown coating film) contains a pigment or the like that does not absorb the laser light, the pigment or the like remains without being melted by heat.

Next, the layer to be removed 5 (black coating film) coated thereunder is irradiated with laser light through the portion of the surface layer 6 (brown coating film) that has been dissolved and removed. Since the layer to be removed 5 (black coating film) contains a black pigment, it has the highest beam absorptivity and absorbs almost completely irradiated laser light. Therefore, it is completely dissolved by heat and evaporated. The dissolution rate at this time is
It is much faster than the dissolution rate of (brown coating film). this is,
In addition to the property that black ones absorb all the light, since carbon (C), which is easily oxidized, is used as the black pigment, the heat of oxidation reaction of the carbon (C) etc. further accelerates the dissolution rate. This is because that. Then, as the layer to be removed 5 (black coating film) evaporates due to dissolution, the pigment and the like remaining on the surface layer 6 (brown coating film) are removed from the layer 5 to be removed (black coating film). The surface layer 6 (brown coating film) and the to-be-removed layer 5 (black coating film) at a predetermined portion irradiated with the laser beam are accurately removed by the force of evaporation of the film). become.

Surface layer 6 (brown coating film) and layer to be removed 5
When the (black coating film) is removed, the laser light is irradiated to the pattern display layer (white coating film) 4 covered thereunder, but the pattern display layer (white coating film) is irradiated.
Since 4 contains a white pigment that does not substantially absorb the laser light, this pattern display layer (white coating film) 4
The laser light applied to the entire surface is reflected, and the pattern display layer (white paint film) 4 is not dissolved and removed.

Therefore, on the surface of the control panel 1, through the predetermined portions of the surface layer 6 (brown coating film) and the layer to be removed 5 (black coating film) which are dissolved and removed by the irradiation of laser light and its scanning movement. Then, the pattern display layer (white paint film) 4 is exposed, and the decorative surface (surface layer 6) of the control panel 1 is changed by the color of the exposed pattern display layer (white paint film) 4. A predetermined graphic pattern is displayed on the screen. That is, in this embodiment, a white graphic pattern is displayed on the surface of the control panel 1 based on a brown color.

The laser light irradiation method is continuous wave Y
With the Q switch operation of the AG laser, the peak output is high,
A method using a high-speed repetitive pulse is a general method, and this method is also used in the present invention. The laser device used is not limited to the YAG laser described above, but may be a TE device, for example.
It is also possible to use an A-CO ₂ laser or an excimer laser. Furthermore, the marking method is not limited to the above-described scanning method, and a mask method, a contact mask method, or the like can be adopted.

Further, the marking depth by laser processing is about 0.2 mm at maximum although it depends on the materials of the material pattern display layer 4 and the layer to be removed 5, etc., and the marking according to the present invention is applied to various articles. Is considered possible.

In the above embodiments, the white paint is used as the paint forming the pattern display layer 4 and the tea paint is used as the paint forming the surface layer 6 which is the decorative surface. As long as the difference between the beam absorptance of the display layer 4 and the surface layer 6 is within a predetermined range, the paint for forming the pattern display layer 4 and the surface layer 6 may be of any color. it can. That is, the condition limited here is that the beam absorptance of the surface layer 6 is higher than that of the pattern display layer 4 by a predetermined range or more,
If this condition is satisfied, the color of the paint that constitutes the pattern display layer 4 and the surface layer 6 is free, and the color of the decorative surface and the color of the graphic pattern created by marking on the decorative surface can be arbitrarily selected. , The selection range is wide.
The paint forming the layer to be removed 5 is preferably a black paint, and it is considered that a black paint containing carbon, which is easily oxidized, as a pigment is the optimum paint.

Further, when the surface of the article is made of a material having a low beam absorptivity, it is not necessary to form the pattern display layer. In this case, the surface has a high beam absorptivity. The removal layer is coated and the patterned surface layer is applied over it. This simplifies the processing man-hours of the pattern display layer.

[0030]

As described above, according to the present invention,
High beam absorptivity between the surface layer, which is the decorative surface of the article, and the pattern display layer, which is the underlying layer and exposes the graphic pattern (the laser light is absorbed almost completely and the thermal solubility and the dissolution rate are fast). Since the pattern pattern creation (laser marking) by laser is performed with the layers interposed,
If there is a difference in the beam absorptance between the surface layer and the pattern display layer that is greater than or equal to a predetermined range, the color scheme of those layers can be arbitrarily selected, and the selection range is wider than conventional ones. can do. This method uses the evaporation at the time of dissolution of the layer to be removed having a high thermal solubility and a high dissolution rate disposed in the middle to remove the undissolved residue of the surface layer. It enables accurate and clear marking. Further, when the surface of the product is made of a material having a low beam absorptivity, the pattern display layer serving as the underlying layer can use the surface of the product without forming it, which reduces the coating process. Is done.

[Brief description of drawings]

FIG. 1 is a front view of a control panel of a vehicle air conditioner.

FIG. 2 is a cross-sectional view showing a coating structure of the above panel.

FIG. 3 is a schematic configuration diagram showing an example of a laser processing machine.

FIG. 4 is a diagram illustrating creation of a graphic pattern (laser marking).

[Explanation of symbols]

 1 control panel 3 article 4 pattern display layer 5 layer to be removed 6 surface layer (decorative surface) 10 laser beam machine

Claims (2)

[Claims] 1. A surface of an article is coated with a pattern display layer having a low beam absorptivity, a layer to be removed having a high beam absorptivity is coated on the pattern display layer, and a predetermined layer is provided on the layer to be removed. A decorative surface is formed by coating a surface layer having a beam absorptivity, and a predetermined portion of the layer to be removed is irradiated through the surface layer by irradiating a predetermined portion of the decorative surface with laser light having a predetermined wavelength. A method for creating a graphic pattern of an article, characterized in that a predetermined graphic pattern is created and displayed on a decorative surface by dissolving and removing, and exposing the pattern display layer through the dissolved and removed portion. 2. A surface of an article made of a material having a low beam absorptivity is coated with a layer to be removed having a high beam absorptivity, and a surface layer having a predetermined beam absorptivity is coated on the layer to be removed. To form a decorative surface, by irradiating a predetermined portion of the decorative surface with a laser beam having a predetermined wavelength to dissolve and remove a predetermined portion of the layer to be removed through the surface layer,
A method for creating a graphic pattern of an article, characterized in that a predetermined graphic pattern is created and displayed on a decorative surface by exposing the pattern display surface through the portion removed by dissolution.