KR100373876B1 - Method for vaccum plating of Al using vaccum molding products - Google Patents

Abstract

The present invention relates to an Al deposition method using a vacuum casting, the process of manufacturing a master through NC processing and RP processing based on this design with the design of the parts; Manufacturing a mold by using the master to produce a mold and performing a mold work; Washing and drying to remove the release agent remaining in the mold; A process of undercoating the mold with a coating agent to facilitate Al deposition; Depositing Al using a vacuum pressure; Performing a top coat on the Al layer; It is an object of the present invention to provide a method for depositing Al by using a vacuum mold that can satisfy the test value for the product and the emotional quality to be obtained in the design process.

Description

Method for vaccum plating using vacuum castings {Method for vaccum plating of Al using vaccum molding products}

The present invention relates to a process for deposition of Al using vacuum castings, and more particularly, vacuum castings in which Al castings are carried out on a simple molded product manufactured in the same manner as a regular method to satisfy the sensitivity quality, test, and the like. It relates to the AE deposition method using.

In general, among vehicles and other products used here, headlamps buzzers, reflectors, and housings and reflectors of rear combination lamps are manufactured from simple molds before regular production. The design will be checked.

As shown in the accompanying drawings, as shown in Figure 1, the production of the mold is subjected to a mock-up (mock-up) process for manufacturing a mold made of clay, wood, etc. for the vehicle or parts to make a simple cast.

When the mock-up process is completed, the lower mold and base of the part are manufactured, and a vacuum molding (V.F) process is performed to vacuum the space between the sheet and the mold surface through a thinly formed hole.

Subsequently, the molded product is obtained through a master process corresponding to the work of weaving the molded parts and the chores.

The mold product thus obtained is subjected to testing such as design verification or emotional quality required by the part through silver foil or silver powder painting process, and the mold product thus tested is used as a finished product after inspection.

However, existing castings are replaced with silver powder or silver foil instead of Al deposition to obtain the surface gloss effect, which causes problems with requirements, quality, and data required in the actual design.

The present invention has been made in view of this point, the process of manufacturing a master through NC processing and RP processing based on this design with the design of the parts; Manufacturing a mold by using the master to produce a mold and performing a mold work; Washing and drying to remove the release agent remaining in the mold; A process of undercoating the mold with a coating agent to facilitate Al deposition; Depositing Al using a vacuum pressure; Performing a top coat on the Al layer; It is an object of the present invention to provide a method for depositing Al by using a vacuum mold that can satisfy the test value for the product and the emotional quality to be obtained in the design process.

In a preferred embodiment of the present invention, the washing process is characterized in that for generating ultrasonic vibration using a washing machine having a TEC volatile component.

In addition, the drying process is characterized in that the drying for 30 seconds or natural drying at 40 ℃ with an infrared heater.

In addition, the undercoat and undercoat work is characterized in that the coating film is formed using a coating material mixed with a UV paint and thinner in a ratio of 7: 3.

In addition, the vacuum deposition is characterized in that the vacuum is carried out for 1 hour at a pressure of 10 ^-5 torr.

1 is a process chart showing a silver painting production method using a conventional cast article,

2 is a process chart showing the Al deposition method according to the present invention.

Hereinafter, with reference to the accompanying drawings, the configuration and effect of the present invention will be described.

2 is a process chart showing an Al deposition method according to the present invention.

The present invention is to finish the shape confirmation of the molded article in the silver powder painting process to satisfy the test conditions.

In order to realize this, the present invention first undergoes a process of manufacturing a mold, which is processed according to the design drawing through NC machining and RP (optical molding machine) processing based on the design of the product for manufacturing the mold. Will be produced.

Subsequently, a silicon mold is manufactured using the master, and then a mold product having the same shape as a part is obtained through a molding operation.

In a preferred embodiment of the present invention, it is preferable that the casting is made in one piece.

The mold is a lot of release agent is attached to the mold during the mold operation, it is subjected to a washing process and a drying process to remove this release.

Here, the washing process is to remove the release by generating ultrasonic vibration using a washing machine having a TEC volatile component, the drying process is to dry for 30 seconds at 40 ℃ with an infrared heater or natural drying.

The cast product dried as described above is subjected to a base coating on the surface as one of preparations for Al deposition.

The undercoating work has good adhesion and smoothness with the casting material, and uses a coating material having good adhesion to the coating work paint, which will be described later, as well as adhesion to the deposited metal.

The coating material used for this work is a mixture of UV paint and thinner in a ratio of 7: 3 or by using an infrared heater using UM 7000 (Hanjin Chemical) to obtain gloss.

Subsequently, normal vacuum Al deposition is performed after the undercoating is finished, and the working conditions are performed under high vacuum 10 ⁻⁵ torr and low vacuum 10 ⁻² torr.

Finally, a top coating is performed after the vacuum Al deposition process.

The top coat work is to protect the deposited metal, and the adhesion to the deposited metal and the coating material, as well as the part exposed to the outside, is to use a good wear humidity, chemical resistance, light resistance and compatibility with the dye. .

The coating material used for the above-mentioned top coat work is mixed with UV paint and thinner in the ratio of 7: 3 as in the top coat work, or is dried by an infrared heater using UM 7000 (Hanjin Chemical) to obtain gloss.

In this way, finished castings are processed to obtain finished products.

Therefore, the cast is to be Al deposition on the surface by the difference between the normal Al deposition and the top coat.

As described above, the present invention provides the following effects by obtaining a cast product through vacuum Al deposition in place of the conventional silver powder painting method.

1) It is possible to obtain the deposition effect of the same performance as the parts to be manufactured, and thus to obtain test values similar to those manufactured with regular injection molds, thereby increasing the reliability of data on the parts.

2) Compared with the regular injection method, the production schedule and mold cost can be reduced, thereby reducing the cost.

Claims (5)

A process of producing a master through NC machining and RP machining based on this design along with the design of the parts; Manufacturing a mold by using the master to produce a mold and performing a mold work; Washing and drying to remove the release agent remaining in the mold; A process of undercoating the mold with a coating agent to facilitate Al deposition; Depositing Al using a vacuum pressure; Performing a top coat on the Al layer; A-A deposition method using a vacuum casting, characterized in that made including the inspection process for the casting. The method of claim 1, wherein the washing process generates ultrasonic vibrations using a washing machine having a TEC volatile component. The method of claim 1, wherein the drying process is performed by using an infrared heater for 30 seconds at 40 ° C. or naturally drying the vacuum casting. The method of claim 1, wherein the undercoating and the undercoating work are formed by using a coating material in which a UV paint and thinner are mixed at a ratio of 7: 3. The method of claim 1, wherein the vacuum deposition is performed under vacuum at a pressure of 10 ^-5 torr for 1 hour.