KR101244143B1 - Plating method available embossed pattern to adjust the thickness of the glassy surface on protrude - Google Patents

Abstract

PURPOSE: A plating method capable of regulating the thickness of embossed pattern protruded in the surface of a glasses frame is provided to form a glassy layer by coating nickel after plating with copper sulphate, thereby selectively regulating the thickness being protruded. CONSTITUTION: A plating method capable of regulating the thickness of embossed pattern protruded in the surface of a glasses frame comprises; an electro-deposition coating step for coating a surface of a metal plate; a spray coating step for coating to be transparent with a sprayer after the electro-deposition coating step; and a pattern forming step for forming a pattern forming groove. [Reference numerals] (AA) Electro-deposition step; (BB) Spray coating step; (CC) Pattern forming step; (DD) Foreign material removing and coating step; (EE) Copper sulfate coating step; (FF) Nickel coating step; (GG) Color coating step

Description

Plating method available embossed pattern to adjust the thickness of the glassy surface on protrude}

The present invention relates to an embossed plating method for forming a pattern projecting to the outside of the surface of the spectacle frame, more specifically, the surface of the metal plate is plated with lactic acid copper plating, but embossed and can be selectively adjusted to the thickness of the pattern It is possible to freely express a variety of designs, as well as to the embossed plating method that can adjust the thickness of the pattern protruding on the surface of the spectacle frame to add visual aesthetic.

Glasses typically include the function of an accessory to change the impression of the wearer in addition to the function of correcting and protecting vision. In particular, most young glasses wearers who are sensitive to fashion purchase and wear several glasses with different designs.

Therefore, recently, a lot of glasses with various designs have been released, which are manufactured using various methods in the manufacturing method of the spectacle frame, and typically, the surface of the spectacle frame is coated with various liquid paints or extruded colors. Transfer techniques having various patterns by wrapping the heat-resistant resin or transfer paper in a certain part are widely used.

In addition, in order to form a pattern of a plurality of colors to inject a solution of epoxy resin, such as a different color, so that they can be mixed with each other to form a pattern. In general, the manufacturing process for forming a pattern is complicated It is inconvenient to use, and the part where the pattern is formed is formed at the same height as the plane so that the pattern is not expressed when viewed from many planes so that the pattern can be clearly displayed only from the front.

The application of the same applicant as the present application, based on a conventional pattern forming method, and a conventional electrodeposition coating on a plane made of a metal plate, the electrodeposition by firing a laser on the electrodeposited surface In the method of forming a surface pattern of the eyeglass frame consisting of a laser beam forming step of peeling off the coating to form a pattern, the plating is projected to the laser pattern component by plating with the laser pattern and maintaining the plating state continuously for 30 minutes or more. To be formed.

Another conventional technique is an ion plating process for depositing the surface of a base material with special metals of titanium, zirconium, and gold, and a jig made of a specific shape to form an empty space inside. Resin masking process to selectively resin mask the desired part after close contact, embossing laser marking to form a pattern on the surface of the base material by performing a laser marking to form a pattern by firing a laser according to the image file loaded on the surface of the base material Process, ion plating peeling process for peeling the ion plating of the part except the pattern on which resin masking is formed by using a peeling solvent mixed with citric acid and hydrogen peroxide water in water, and a washing process for washing the base material with ordinary water after peeling the ion plating , Water removal process to remove moisture on the surface of the base material with methylene chromide Of the remaining components of the resin and the ion-plated with 1,1,1-TCE to include a washing step to accurately cleaned through sedimentation, ultrasonic, steam.

Registration number 10-0802426 (Special) The manufacturing method of the eyeglasses with a negative embossed pattern formed on the outer surface of the spectacle frame, cutting the disc of titanium, metal, optyl, synthetic resin material to the appearance of the spectacle frame in a CNC machine tool; Mounting the lower mold for machining the inner frame of the spectacle frame on a lathe of a CNC machine tool, and seating the spectacle frame cut to the upper side of the lower mold, and fixing the upper mold for the inner mold facing the lower mold; When the fixing of the spectacle frame is completed on the upper and lower molds for the inner processing, the lens fixing groove is formed in 'V' or 'c' shape so that the tool can process the lens shape and fix the lens according to the condition input to the CNC machine tool. Processing; When the processing of the lens fixing groove is completed, the lower die for external machining is mounted on a lathe of a CNC machine tool, and then the inner frame is mounted on the upper side of the lower die, and the upper die for outer machining is opposed to the lower die. Mutually fixing them; When the fixing of the spectacle frame to the upper and lower molds for the outer side processing is completed, the tool processes the negative and embossed patterns on the outer surface of the spectacle frame according to the condition input to the CNC machine tool; When the inner and outer processing of the eyeglass frame is completed in the CNC machine tool is to comprise a step of removing the burr from the grinding machine.

Looking at the prior art described above, it is mainly described that the plating is formed in the laser pattern, but the plating is continuously protruded to the laser pattern constituting part by maintaining the plating state continuously for 30 minutes or more. After the electrodeposition coating was peeled off with a laser, the groove was plated again to protrude outward from the surface, but the pattern may be monotonous.

Looking at another form of technology, we describe how to form multicolored patterns using ion plating. However, this method requires a variety of expensive equipment in progress of the method can not only bring economic losses, but also has a problem that the work process is very complicated and the work efficiency decreases as the working time is long.

Another form of prior art describes a method of manufacturing glasses to form a negative, embossed pattern on the outer surface of the frame, which is to be embossed to the outside of the frame, but intaglio processing using a machine tool such as CNC Therefore, it describes the technology to form the embossed naturally, there is a problem that can not be manufactured without mechanical equipment in the manufacturing process, the failure rate may be high due to the malfunction of the equipment.

Therefore, after the pattern is formed in the intaglio, the plating process on the formed groove, a situation that requires a technique to selectively adjust the thickness of the pattern to protrude.

The present invention has been made in order to solve the problems of the prior art, it is formed to protrude embossed with lactic acid copper plating on the surface of the spectacle frame, to provide a variety of designs when configuring the spectacle frame by selectively adjusting the thickness of the projecting frame It was created as a technical task with the focus on providing an embossed plating method that can be used and visually beautiful in use.

Therefore, the present invention is an electrodeposition coating step for coating the surface of the metal plate, a spray coating step for transparent coating with a spray so that the plating does not stick after the electrodeposition coating, and the coating layer coated with the electrodeposition coating and the spray is engraved by laser treatment In the surface pattern forming method of the spectacle frame consisting of a pattern forming step of forming a forming groove,

It is not limited to the pattern forming method to be plated on the surface of the metal plate 5 in an intaglio, and the foreign matter treatment and film treatment of the striker treatment to prevent the plating from occurring,

Forming the plating layer 31 to protrude embossed than the portion coated with lactic acid copper in the pattern forming groove 30, by selectively adjusting the thickness of the protruding plating layer 31 to have a three-dimensional feeling, various designs To express

To form a gloss layer 40 using nickel in the coating layer formed of the plating layer 31 and the spray coating,

The nickel coating was intended to solve the technical problem by forming the gloss layer 40 by partially coating the entire coating layer 10 or 20 or only the plating layer 31.

According to the embossed plating method that can control the thickness of the pattern projecting on the surface of the spectacle frame according to the present invention, by using a lactic acid copper in the groove of the surface of the engraved process in the glyph forming step to be embossed to feel a three-dimensional feeling, The thickness of the protrusion can be selectively adjusted according to the needs, and it can be expressed in various designs.The range of design is very wide, and the coating is made of nickel and then coated with nickel to form a glossy layer. It is a useful invention that adds beauty.

1 is a flow chart showing a preferred embodiment of the present invention
2 is a block diagram showing a preferred embodiment of the present invention
Figure 3 is lactic acid copper plating step showing another embodiment of the present invention
Figure 4 is a nickel coating step showing another embodiment of the present invention

The present invention relates to a method of forming a pattern protruding by embossed plating on the outside of the surface of the spectacle frame, and constituting a large number of unnecessary equipment conventionally, can solve the problem of economic loss and reduced work efficiency by using ion plating. The surface of the frame is plated with lactic acid copper plating so that it can be embossed and the thickness can be selectively adjusted so that the pattern can be freely expressed, and various designs can be made, as well as the surface of the frame adds visual beauty. It provides an embossed plating method that can adjust the thickness of the pattern.

Hereinafter, with reference to the accompanying drawings, the preferred configuration and operation of the present invention for achieving the above object with reference to Figures 1 to 4 as follows.

First of all, prior to explaining the present invention with reference to Figures 1 to 2, the overall step, the electrodeposition step, spray coating step, glyph forming step, foreign matter removal step, film treatment step, lactic copper plating step, nickel coating step .

1. Electrodeposition step

The electrodeposition coating step is a coating for forming a coating layer 10 by extending and widening so that the entire surface of the spectacle frame made of a metal plate (5) to be covered as a whole, to cling, and is coated with paint as necessary The coating layer 10 can be formed.

2. Spray Coating Step

The spray coating step is a step of forming the coating layer 20 transparently with a spray so that the plating does not stick to the top of the coating layer 10 formed after the electrodeposition coating step. Here, the thickness of the coating layer is preferably formed thin.

3. Glyph Formation Stage

The pattern forming step is a method of forming a negative pattern to form a pattern forming groove 30 to form a pattern of various shapes by selectively shooting a laser coating the coating layer 10 is transparently coated with a spray as desired patterns,

For example, if necessary, the pattern and font may be formed, and the pattern forming groove 30 may be formed to form a boundary up to the metal plate 5, or the pattern forming groove may be deeper including the metal plate 5. 30 may be formed, but the metal plate 5 may be close to each other, but only one or all of the coating layers 10 and 20 may form the pattern forming groove 30.

4. Removing foreign substances and coating process

After the glyph forming step, the coating layers 10 and 20 are peeled off, and then, in order to remove debris and debris from the peeled portion and the peeled portion, electrolytic stripping, washing with water, and ultrasonic washing are performed to precisely clean and remove foreign substances. After that, a striker coating treatment is performed to prevent plating from occurring in the plating process.

For example, the metal plate 5 is precipitated with various components in a container in which a cleaning solvent is stored, and after washing and precisely cleaning the foreign matter through ultrasonic vibration, the metal plate 5 is again precipitated in the container to be washed and electrolyzed. Stripping proceeds, and after removing the foreign matter, the film is treated to prevent plating from occurring in the lactic acid copper plating step.

5. Heritage copper plating step

The lactic acid copper plating step is a core step of the present invention, wherein the plating layer 31 is formed on the pattern forming groove 30 formed in the pattern shape step so as to protrude embossed than the portion coated with lactic acid copper, the protruding of the plating layer 31 It is a plating process to selectively adjust the thickness.

For example, as shown in FIG. 3, the spectacle frame is typically formed in various designs and patterns. The spectacle frame may be formed to protrude by protruding from the surface of the spectacle frame, and a groove may be formed to form a pattern as necessary. However, when embossed and formed, not only a three-dimensional effect, but also a wearer and a buyer can be recognized as a different design depending on the thickness of the protrusion, as well as visually beautiful when worn.

In addition, in the prior art to be embossed, but by using expensive equipment to protrude embossed through a number of sequential processes, but in the present invention to protrude embossed using a simple lactic acid copper plating to increase the economic efficiency and productivity To maximize.

In addition, the embossed plating layer 31 may be formed by selectively plating in a square, triangular, and round shape.

6. Nickel coating step

The plating layer 31 formed in the lactic acid copper plating step and the coating layers 10 and 20 formed in the electrodeposition step and the spray coating step are used to form a gloss layer 40 by using nickel. This is a process that allows the buyer and the wearer to add visual beauty to the surface in the lactic acid copper plating state.

In addition, the nickel coating step may partially coat the entire surface of the metal plate 5 or the outside of the plating layer 31 as necessary, as shown in FIG. 4. Partial coating of the plating layer 31 can reduce the material, thereby increasing the economic efficiency.

7. Color coating step

In the color coating step, after the nickel plating step, a color coating step may be performed to select and coat a desired color to be selectively plated by copper, gold, silver, and chrome. This step can optionally be further coated on top of the gloss layer 40 to represent various designs and colors.

In addition, the color coating step may selectively coat the entire surface of the gloss layer 40 or the outer side of the plating layer 31.

5: metal plate 10, 20: coating layer 30: glyph groove
31 plating layer 40 glossy layer

Claims (5)

delete delete delete Electrodeposition step of coating metal plate surface, spray coating step of transparent coating with spray so that plating does not stick after electrodeposition coating, and coating layer coated with electrodeposition coating and spray are engraved with laser to form pattern forming groove In the surface glyph forming method of the spectacle frame comprising a glyph forming step,
The surface of the engraved metal plate 5 and the respective coating layers 10 and 20 are precisely cleaned by electrolytic stripping, washing with water and ultrasonic cleaning to remove foreign substances, and then treated with a striker to prevent plating. In the processing step, the pattern forming groove 30 formed in the pattern shape step is formed with a copper lactate, forming a plating layer 31 so as to protrude embossed than the coated portion, by selectively adjusting the thickness of the protruding plating layer 31 plating To the lactic acid copper plating step, the plating layer 31 and the coating layer (10, 20) formed by spray coating comprises a nickel coating step of forming a glossy layer 40 using nickel,
After the nickel plating step, the embossed plating method that can adjust the thickness of the pattern protruding on the surface of the spectacle frame, characterized in that it further comprises a color coating step of selectively selecting any one of copper, gold, silver, chromium coating.
5. The method of claim 4,
The color coating step is embossed plating method that can adjust the thickness of the pattern protruding on the surface of the spectacle frame, characterized in that the coating selectively on the entire surface of the gloss layer 40 or the outside of the plating layer 31 selectively.

Images