200932959 九、發明說明: 【發明所屬之技術領域】 本發明關於-種表面印刷電锻之綠,尤指—種在金屬或非金屬 表面先預鑛一層預鍵層後再印刷及電鑛之創新製程。 【先前技術】 在金屬物品上電舰工而美化表面,是鱗㈣卫業技術手段。 ❹ Ο 由於電鍵後,表面僅為單-金屬色,常會再電鍍層上予以印刷文字圖 案’以增強美感或廣告效果。 此類傳統_刷電鍵方法,係在金屬素材表略電錢再以油墨 印刷,所形成的印刷層由於浮凸於電鍵層表面,只要稍有異物或硬物 磨擦,就很容易使印刷層脫掉。 如果先在金屬素材上㈣墨印繼後再電鍍的方法敎由於金 屬素材表面必需先清洗,如再印刷的期間,金屬素材就已開始氧化, 而一般肉眼是無法看出,經電鍍後,會使產品不良率报高^使緩過 _或抗氧化継理,電魏程巾,也會造成印概墨掉落或電鑛產 品不良等問題。 另,在製作社體絲㈣鍍時,例如財料,通 素材用酸顧後,再上油墨,再電錄。此方式雖可達到立發 受制於材質與外觀上的限制,對異•件(例如雜她 = 工件)有其製造上的困難無法達成立體效果。 【發明内容】 5 200932959 有鐘於習知技術之問題點,本發明提供了一種表面印刷電鍍之方 法,主要係在金屬或非金屬素材之被電鍵物表面,先預锻上一層金屬 預鍵層’讓金屬或非金屬素材表面不會氧化,然後再印刷,並再電鍵, 使得電錄層高於印刷層,以產生立體效果,且印刷之油墨被保護於電 鍍層内不易發生磨擦後的脫落。 本發明金屬預鍍層之材質可為鎳、半光澤鎳或銅等。 另’由於本發明提供的表面印刷電鍍之方法,使得對於異型工件 Φ 也可製作出有立體效果之印刷電鍵。 以下,將依據圖面所示之實施例而詳加說明本發明之製作流程及 功效。 【實施方式】 請參見第一圖所示,係為本發明表面印刷電鍵之方法,其步驟為: 1.提供一被電鍍物’該被電鍍物為金屬或非金屬素材; ® 2.預鑛,在該被電鑛物表面先預錄一層預鍍金屬層,使該被電鑛 物表面不會氧化而不須經過酸腐蝕; 3. 印刷,以不導電油墨印刷於該預鍍金屬層部份表面以形成印刷 層; 4. 電鍍,將金屬電鍍至該預鍍金屬層無印刷層部份以形成電鍍 層,並使該電鍍層厚度高於印刷層。 在其中的預鍍金屬層係可以為鎳、半光澤鎳或銅等,以達到防止 6 200932959 有鑑於習知技術之問題點,本發明提供了一種表面印刷電鍍之方 法,主要係在金屬或非金屬素材之被電鍍物表面,先預鍍上一層金屬 預鍍層,讓金屬或非金屬素材表面不會氧化,然後再印刷,並再電鍍, 使知電鍵層高於_層,以產生立體效果,且印刷之油墨被保護於電 鍍層内不易發生磨擦後的脫落。 本發明金屬預鍍層之材質可為鎳、半光澤鎳或銅等。 另,由於本發明提供的表面印刷電錢之方法,使得對於異型工件 0 也可製作出有立體效果之印刷電鍍。 以下,將依據圖面所示之實施例而詳加說明本發明之製作流程及 功效。 【實施方式】 請參見第-圖所示’係為本發明表面印刷電鍍之方法,其步驟為: 1·提供一被電鍍物,該被電鍍物為金屬或非金屬素材; 2.預艘’在該被紐物表面絲锻—層預鍍金屬層,使該被電锻 物表面不會氧化而不須經過酸腐蚀; 3_印刷,以不導電油墨印刷於該預鑛金屬層部份表面以形成印刷 層; 4.電鍍,將金屬電鍍至該預鍍金屬層無印刷層部份以形成電鍍 層,並使該電鍍層厚度高於印刷層。 在其中的職金屬層射以為鎳、半絲贼鋼等,以達到防止 200932959 被電链物金屬或非金屬素材H而被電鍵物金屬素材可為銅或鐵 等金屬。 參見第二圖係為依據本發明方法所製成之—種異型工件成品,其 係為彈性鋼板弯折成的工件。在其表面形成電鍍層4以及印刷層3。 第三圖中顯示了第三_部份放大剖視圖,其中被電鍍物之金屬 素材1表面皆有金屬預鑛層2,並在金屬預鑛層2之部份表面先印刷 有印刷層3 ’然後再電锻使電錄層4高於印刷層3,如此,即可在電 β 鑛表面形成印顧案的立體效果;同時,由於_之油墨印刷層3, 被保護於電顧4内,自然不祕生磨驗的脫落問題,遠較習知技 術為佳。 综上所陳,本發明所提供的表面印刷電鍍之方法係完全符合專 利要件之發明’爰依法提出申請。 【圖式簡單說明】 ©第一圓代表本發明之製作流程圖, 第二圖代表依據本發明製成之成品, 第三圖代表第二圖中部份放大剖視圖。 【主要元件符號說明】 金屬素材1 金屬預鍵層2 印刷層3 電鍍層4200932959 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a kind of surface printing electric forging green, especially to the innovation of pre-mineralizing a layer of pre-bonded layer on a metal or non-metal surface and then printing and electro-minening Process. [Prior Art] On the metal objects, the electric ship is used to beautify the surface, which is the technical means of the scales. ❹ Ο Since the surface is only a single-metal color after the key, the text pattern is often printed on the plating layer to enhance the aesthetic or advertising effect. This kind of traditional _ brushing key method is based on the metal material table and then printed with ink. The formed printing layer is embossed on the surface of the electric bond layer. As long as there is a slight foreign matter or hard object rubbing, it is easy to remove the printed layer. Drop it. If you first apply electroplating on the metal material (4), then the surface of the metal material must be cleaned first. For example, during the reprinting period, the metal material begins to oxidize. Generally, it cannot be seen by the naked eye. After electroplating, it will be The product non-performing rate is reported to be high ^ to slow down _ or anti-oxidation treatment, electric Wei Cheng towel, it will also cause problems such as ink drop or poor quality of electric ore products. In addition, when making the body silk (4) plating, for example, the material is used after the acid is used, then the ink is applied, and then the electricity is recorded. Although this method can achieve the limitation of material and appearance, it is impossible to achieve stereoscopic effect on the manufacturing difficulties of different parts (such as miscellaneous her = workpiece). SUMMARY OF THE INVENTION 5 200932959 There is a problem in the prior art, the present invention provides a method of surface printing electroplating, mainly on the surface of a metal or non-metal material being electro-bonded, first pre-forging a layer of metal pre-bonding layer 'Let the surface of the metal or non-metal material not oxidize, then print, and then press the key, so that the lithography layer is higher than the printed layer to produce a three-dimensional effect, and the printed ink is protected from the abrasion in the plating layer. . The material of the metal pre-plating layer of the present invention may be nickel, semi-gloss nickel or copper. Further, due to the method of surface printing plating provided by the present invention, a printed key having a stereoscopic effect can be produced for the odd-shaped workpiece Φ. Hereinafter, the production flow and efficacy of the present invention will be described in detail based on the embodiments shown in the drawings. [Embodiment] Please refer to the first figure, which is a method for printing a surface on a surface of the present invention. The steps are as follows: 1. Providing an electroplated material, the electroplated material is a metal or non-metal material; Pre-recording a layer of pre-plated metal on the surface of the electro-mineral mineral so that the surface of the electro-mineral mineral does not oxidize without acid etching; 3. Printing, printing on the surface of the pre-plated metal layer with non-conductive ink To form a printed layer; 4. Electroplating, plating a metal to the unprinted portion of the pre-plated metal layer to form a plating layer, and making the plating layer thicker than the printed layer. The pre-plated metal layer therein may be nickel, semi-gloss nickel or copper, etc., in order to prevent 6 200932959. In view of the problems of the prior art, the present invention provides a method of surface printing electroplating, mainly in metal or non-metal. The surface of the metal material to be plated is first pre-plated with a layer of metal pre-plated, so that the surface of the metal or non-metal material is not oxidized, and then printed, and then electroplated, so that the electrical bonding layer is higher than the _ layer to produce a three-dimensional effect. Moreover, the printed ink is protected from falling off after being rubbed in the plating layer. The material of the metal pre-plating layer of the present invention may be nickel, semi-gloss nickel or copper. In addition, due to the method of surface printing electricity money provided by the present invention, it is also possible to produce a three-dimensional effect printing plating for the profiled workpiece 0. Hereinafter, the production flow and efficacy of the present invention will be described in detail based on the embodiments shown in the drawings. [Embodiment] Please refer to the figure - is a method for surface printing electroplating of the present invention, the steps are as follows: 1. Providing an electroplated material, the electroplated material is metal or non-metal material; Wire-forging-layer pre-plating metal layer on the surface of the object, so that the surface of the electric forged object is not oxidized without acid etching; 3_printing, printing on the surface of the pre-mineral metal layer with non-conductive ink To form a printed layer; 4. Electroplating, electroplating the metal to the unprinted portion of the pre-plated metal layer to form a plating layer, and making the plating layer thicker than the printed layer. In the middle of the metal layer, it is considered to be nickel, semi-filament steel, etc., in order to prevent the metal material of the electric chain metal or non-metal material H from being used as the metal of copper or iron. Referring to the second figure, the finished article of the profiled workpiece produced by the method of the present invention is a workpiece bent from an elastic steel plate. A plating layer 4 and a printing layer 3 are formed on the surface thereof. The third figure shows a third partial enlarged cross-sectional view, in which the metal material 1 of the electroplated material has a metal pre-mineral layer 2 on the surface thereof, and a printed layer 3 ' is printed on a part of the surface of the metal pre-mineral layer 2 ' The electric forging further makes the electro-recording layer 4 higher than the printing layer 3, so that the stereoscopic effect of the printing can be formed on the surface of the electric beta ore; at the same time, since the ink-printing layer 3 of the ink is protected in the electricity, the natural The problem of shedding without the secret test is far better than the conventional technique. In summary, the method of surface printing electroplating provided by the present invention is in full compliance with the invention of the patent element. BRIEF DESCRIPTION OF THE DRAWINGS The first circle represents a production flow chart of the present invention, the second figure represents a finished product made in accordance with the present invention, and the third figure represents a partially enlarged cross-sectional view of the second figure. [Main component symbol description] Metal material 1 Metal pre-bond layer 2 Printing layer 3 Plating layer 4