TW201417067A - Formation method of tool identification structure - Google Patents

Formation method of tool identification structure Download PDF

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Publication number
TW201417067A
TW201417067A TW102115274A TW102115274A TW201417067A TW 201417067 A TW201417067 A TW 201417067A TW 102115274 A TW102115274 A TW 102115274A TW 102115274 A TW102115274 A TW 102115274A TW 201417067 A TW201417067 A TW 201417067A
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Taiwan
Prior art keywords
color
treatment means
layer
protective layer
tool
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TW102115274A
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Chinese (zh)
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TWI489428B (en
Inventor
jun-zhao Shi
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jun-zhao Shi
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Priority to TW102115274A priority Critical patent/TW201417067A/en
Priority to CA2817546A priority patent/CA2817546A1/en
Priority to JP2013111260A priority patent/JP2014084527A/en
Priority to EP13170388.6A priority patent/EP2724818A1/en
Priority to US13/911,052 priority patent/US9206521B2/en
Priority to AU2013206587A priority patent/AU2013206587A1/en
Priority to RU2013136456/02A priority patent/RU2013136456A/en
Publication of TW201417067A publication Critical patent/TW201417067A/en
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Publication of TWI489428B publication Critical patent/TWI489428B/zh

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    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D5/00Electroplating characterised by the process; Pretreatment or after-treatment of workpieces
    • C25D5/48After-treatment of electroplated surfaces
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25BTOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
    • B25B13/00Spanners; Wrenches
    • B25B13/02Spanners; Wrenches with rigid jaws
    • B25B13/06Spanners; Wrenches with rigid jaws of socket type
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D5/00Electroplating characterised by the process; Pretreatment or after-treatment of workpieces
    • C25D5/02Electroplating of selected surface areas
    • C25D5/022Electroplating of selected surface areas using masking means
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D5/00Electroplating characterised by the process; Pretreatment or after-treatment of workpieces
    • C25D5/10Electroplating with more than one layer of the same or of different metals
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D5/00Electroplating characterised by the process; Pretreatment or after-treatment of workpieces
    • C25D5/10Electroplating with more than one layer of the same or of different metals
    • C25D5/12Electroplating with more than one layer of the same or of different metals at least one layer being of nickel or chromium

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Electroplating Methods And Accessories (AREA)

Abstract

Disclosed is a formation method of a tool identification structure, wherein the surface of a tool is subjected to a first surface treatment means to form a first protection layer, and then a coloring means is used to form an identification structure having a color layer on the first protection layer. Finally, a second surface treatment means is used to form a second protection layer on a non-identified structure area of the tool surface, such that the non-identified and identified structure areas of the tool surface form contrast of chromatic aberration. Accordingly, the identification structure having said color layer not only provides better recognition effect, but also ensures its anti-corrosion effect after the color layer wears away and drops out from the bottom surface through the first protection layer contained thereon; the chromatic aberration or embossment effect between the first and the second protection layers are employed for effectively displaying the identification patterns of the identification structure, achieving a practical efficiency favorable for long-term identification.

Description

工具標示結構之成型方法 Tool marking structure forming method

本發明尤指其提供一種具有較佳的辨識效果,以及即便標示結構之色彩層磨損脫落,仍可確保其防鏽及辨識效果之工具標示結構之成型方法。 In particular, the present invention provides a method for forming a tool marking structure having a better identification effect and ensuring rust prevention and identification even if the color layer of the marking structure is worn off.

按,許多的工具(如套筒工具、扳手工具)均會於表面以刻印的方式顯示出其尺寸數字或商標等標記圖案,最後再以電鍍方式使整個表面形成電鍍層,該方式由於工具整個表面為同一色系,不僅顯得較為單調,且辨識效果不佳,因此即有業者以印刷的方式於工具表面成型出具有色彩層的標示結構,而藉由色彩層的明顯對比及多樣化,使得工具大幅提高辨識效果,且外觀視覺上也較為活潑生動。 According to the press, many tools (such as sleeve tools and wrench tools) will display the marking pattern of the size number or trademark on the surface, and finally form the plating layer by electroplating. The surface is the same color, which not only appears to be monotonous, but also has poor recognition effect. Therefore, the manufacturer has formed a marking structure with a color layer on the surface of the tool by printing, and the obvious contrast and diversification of the color layer The tool greatly enhances the recognition effect, and the appearance is visually lively and vivid.

以目前具有色彩層標示結構的套筒工具為例,其成型方式大略可區分成以下幾種: Taking the sleeve tool with the color layer marking structure as an example, the molding method can be roughly divided into the following types:

1.請參閱第1圖所示,其係將工具10先施以電鍍處理,而於表面形成電鍍層11,接著於工具表面適當位置以印刷的方式印製出具有色彩層之標記圖案12;惟該成型方式當具有色彩層之標記圖案12因長期使用而磨損脫落時,將顯現出底部電鍍層11之顏色,而無法再顯示出該標記圖案12,進而完全失去辨識效果。 1. Referring to FIG. 1 , the tool 10 is first subjected to a plating process, and a plating layer 11 is formed on the surface, and then a marking pattern 12 having a color layer is printed in a suitable position on the surface of the tool; Forming Method When the marking pattern 12 having the color layer is worn off due to long-term use, the color of the bottom plating layer 11 will appear, and the marking pattern 12 can no longer be displayed, thereby completely losing the recognition effect.

2.請參閱第2圖所示,其係將工具20先施以壓印處理,而於表面形成內凹狀的標記圖案21,再於該內凹狀的標記圖案 21上以印刷的方式印製出色彩層,最後再施以電鍍處理,而於標記圖案21以外的表面形成電鍍層22;該成型方式之標記圖案21,雖然在長期使用而使色彩層磨損脫落時,仍可顯現出內凹狀的標記圖案21,但因在進行電鍍處理時,並無法在色彩層的底面或表面形成電鍍層,因此當色彩層磨損脫落時,由於其底面不具有電鍍層,因此標記圖案21就會造成銹蝕的情形,而出現嚴重的瑕疵。 2. Referring to FIG. 2, the tool 20 is first subjected to an imprint process, and a concave mark pattern 21 is formed on the surface, and the concave mark pattern is formed on the surface. 21 is printed on the color layer, and finally plated, and a plating layer 22 is formed on the surface other than the marking pattern 21; the marking pattern 21 of the molding method wears off the color layer even after long-term use. At the same time, the concave mark pattern 21 can still be formed, but since the plating layer cannot be formed on the bottom surface or the surface of the color layer when the plating process is performed, when the color layer is worn off, the bottom surface does not have a plating layer. Therefore, the marking pattern 21 causes a rust condition and a serious flaw occurs.

3.請參閱第3圖所示,其係將工具30先施以電鍍處理,而於表面形成電鍍層31,接著於工具表面適當位置進行壓印處理,而於表面形成內凹狀的標記圖案32,再於該內凹狀的標記圖案32上以印刷的方式印製出色彩層;該成型方式之標記圖案32,雖然在長期使用而使色彩層磨損脫落時,仍可顯現出內凹狀的標記圖案32,且底面亦具有電鍍層31,惟該標記圖案32底面之電鍍層顏色係相同於周側之電鍍層,造成辨識效果不佳的情形。 3. Referring to FIG. 3, the tool 30 is first subjected to a plating process, and a plating layer 31 is formed on the surface, and then an imprint process is performed at an appropriate position on the surface of the tool to form a concave mark pattern 32 on the surface. Further, a color layer is printed on the concave mark pattern 32 in a printed manner; the mark pattern 32 of the molding method can exhibit a concave mark even when the color layer is worn off due to long-term use. The pattern 32 and the bottom surface also have a plating layer 31. However, the color of the plating layer on the bottom surface of the marking pattern 32 is the same as that of the plating layer on the circumferential side, resulting in a poor recognition effect.

有鑑於此,本發明人遂以其多年從事相關行業的研發與製作經驗,針對目前所面臨之問題深入研究,經過長期努力之研究與試作,終究研創出一種不僅具有較佳的辨識效果,且即便標示區塊之色彩層磨損脫落,仍可確保其防鏽及辨識效果之工具標示結構,以有效改善習式之缺弊,此即為本發明之設計宗旨。 In view of this, the inventor has been engaged in research and development and production experience of related industries for many years, and has conducted in-depth research on the problems currently faced. After long-term efforts and trials, the inventors have finally developed a not only better identification effect, but also Even if the color layer of the marked block wears off, the tool marking structure of the rust prevention and identification effect can be ensured to effectively improve the shortcomings of the formula, which is the design tenet of the invention.

本發明之目的一,係提供一種工具標示結構之成型方法,其係於工具之表面先以第一表面處理手段形成第一保護層,接著以著色手段於第一保護層上成型出具有色彩層之標示結構,最後再以第二表面處理手段於工具表面之非標示結構區域形成第二保護層,而使工具表面之非標示結構區域與標示結構形成不同的對比色 差,進而提供較佳的辨識效果。 A first object of the present invention is to provide a method for forming a tool marking structure, which is formed on a surface of a tool by a first surface treatment means to form a first protective layer, and then a coloring means is formed on the first protective layer to form a color layer. Marking structure, and finally forming a second protective layer on the non-labeled structure area of the tool surface by the second surface treatment means, so that the non-labeled structure area of the tool surface and the marking structure form different contrast colors Poor, and thus provide better identification.

本發明之目的二,係提供一種工具標示結構之成型方法,其係於工具之表面先以第一表面處理手段形成第一保護層,接著以著色手段於第一保護層上成型出具有色彩層之標示結構,最後再以第二表面處理手段於工具表面之非標示結構區域形成第二保護層,而使工具表面之非標示結構區域與標示結構形成不同的對比色差,在長期使用而使標示結構之色彩層磨損脫落時,由於色彩層之底面具有第一保護層,而仍可確保其防鏽效果。 A second object of the present invention is to provide a method for forming a tool marking structure, which is formed on a surface of a tool by a first surface treatment means to form a first protective layer, and then a coloring means is formed on the first protective layer to form a color layer. The marking structure is finally formed by the second surface treatment means to form a second protective layer on the non-labeled structure area of the tool surface, so that the non-labeled structure area of the tool surface and the marking structure form different contrast chromatic aberrations, which are marked for long-term use. When the color layer of the structure is worn off, since the bottom surface of the color layer has the first protective layer, the rust prevention effect can be ensured.

本發明之目的三,係提供一種工具標示結構之成型方法,其係於工具之表面先以第一表面處理手段形成第一保護層,接著以著色手段於第一保護層上成型出具有色彩層之標示結構,最後再以第二表面處理手段於工具表面之非標示結構區域形成異於第一保護層顏色之第二保護層,而使工具表面之非標示結構區域與標示結構形成不同的對比色差,在長期使用而使標示結構之色彩層磨損脫落時,由於色彩層之底面具有第一保護層,且非標示結構區域之第二保護層的顏色異於第一保護層顏色,而仍可形成不同的對比色差,進而有效確保其長期辨識效果。 A third aspect of the present invention provides a method for forming a tool marking structure, which is formed on a surface of a tool by a first surface treatment means to form a first protective layer, and then a coloring means is formed on the first protective layer to form a color layer. The marking structure finally forms a second protective layer different from the color of the first protective layer on the non-labeled structural region of the tool surface by the second surface treatment means, so that the non-labeled structural region of the tool surface forms a contrast with the labeled structure. Chromatic aberration, when the color layer of the marking structure is worn off during long-term use, since the bottom surface of the color layer has a first protective layer, and the color of the second protective layer of the non-labeled structure area is different from the color of the first protective layer, Different contrast chromatic aberrations are formed to effectively ensure long-term identification.

本發明之目的四,係提供一種工具標示結構之成型方法,其係於工具之表面先以第一表面處理手段形成第一保護層,接著以著色手段於第一保護層上成型出具有色彩層之標示結構,最後再以第二表面處理手段於工具表面之非標示結構區域形成相同於第一保護層顏色之第二保護層,而使工具表面之非標示結構區域與標示結構形成不同的對比色差,在長期使用而使標示結構之色彩層磨損脫落時,由於色彩層之底面具有第一保護層,且非標示結構區域之第二保護層的厚度高於第一保護層,而仍可形成具有厚度高低差的浮凸對比效果,進而有效確保其長期辨識效果。 A fourth object of the present invention is to provide a method for forming a tool marking structure, which is formed on a surface of a tool by a first surface treatment means to form a first protective layer, and then a coloring means is formed on the first protective layer to form a color layer. The marking structure finally forms a second protective layer identical to the color of the first protective layer on the non-labeled structural region of the tool surface by the second surface treatment means, so that the non-labeled structural region of the tool surface forms a contrast with the marking structure. Chromatic aberration, when the color layer of the marking structure is worn off during long-term use, since the bottom surface of the color layer has a first protective layer, and the thickness of the second protective layer of the non-labeled structure region is higher than that of the first protective layer, it can still be formed. The embossing contrast effect with the difference in thickness ensures the long-term identification effect.

習知部份: Conventional part:

10‧‧‧工具 10‧‧‧ Tools

11‧‧‧電鍍層 11‧‧‧Electroplating

12‧‧‧標記圖案 12‧‧‧ mark pattern

20‧‧‧工具 20‧‧‧ Tools

21‧‧‧標記圖案 21‧‧‧ mark pattern

22‧‧‧電鍍層 22‧‧‧Electroplating

30‧‧‧工具 30‧‧‧ Tools

31‧‧‧電鍍層 31‧‧‧Electroplating

32‧‧‧標記圖案 32‧‧‧ mark pattern

本發明部份: Part of the invention:

40‧‧‧工具 40‧‧‧ Tools

41‧‧‧第一保護層 41‧‧‧First protective layer

42‧‧‧標示結構 42‧‧‧Marking structure

421‧‧‧第一色彩層區域 421‧‧‧First color layer area

422‧‧‧第二色彩層區域 422‧‧‧Second color layer area

423‧‧‧間隔區域 423‧‧‧ spaced areas

43‧‧‧第二保護層 43‧‧‧Second protective layer

第1圖:習知第一種工具標示結構成型方法之示意圖。 Figure 1: Schematic diagram of the first method of forming a tool marking structure.

第2圖:習知第二種工具標示結構成型方法之示意圖。 Figure 2: A schematic diagram of a conventional second tool marking structure forming method.

第3圖:習知第三種工具標示結構成型方法之示意圖。 Figure 3: Schematic diagram of a third method for forming a tool marking structure.

第4圖:本發明之流程示意圖。 Figure 4: Schematic diagram of the process of the present invention.

第5圖:本發明第一實施例之示意圖。 Figure 5 is a schematic view showing a first embodiment of the present invention.

第6圖:本發明第一實施例長期使用後之示意圖。 Fig. 6 is a schematic view showing the first embodiment of the present invention after long-term use.

第7圖:本發明第二實施例之示意圖。 Figure 7 is a schematic view showing a second embodiment of the present invention.

第8圖:本發明第二實施例長期使用後之示意圖。 Figure 8 is a schematic view of the second embodiment of the present invention after long-term use.

第9圖:本發明第三實施例之示意圖。 Figure 9 is a schematic view showing a third embodiment of the present invention.

第10圖:本發明第三實施例長期使用後之示意圖。 Fig. 10 is a schematic view showing the third embodiment of the present invention after long-term use.

第11圖:本發明第四實施例之示意圖。 Figure 11 is a schematic view showing a fourth embodiment of the present invention.

第12圖:本發明第四實施例長期使用後之示意圖。 Fig. 12 is a schematic view showing the fourth embodiment of the present invention after long-term use.

第13圖:本發明第五實施例之流程示意圖。 Figure 13 is a flow chart showing the fifth embodiment of the present invention.

為使 貴審查委員對本發明作更進一步之瞭解,茲舉一較佳實施例並配合圖式,詳述如后:請參閱第4、5圖,本發明係可應用於各種工具,以套筒工具為例,其第一實施例係於工具40之表面先施以第一表面處理手段,而形成有第一保護層41,該第一表面處理手段可為電鍍處理手段、電著處理手段、氣染處理手段或染黑處理手段,於本實施例中,該第一表面處理手段係為電鍍處理手段,而於工具40之表面電鍍形成有第一保護層41;接著以著色手段於第一保護層41上預定位置處成型出具有色彩層之標示結構42,該著色手段可為印製或貼覆的著色手段,於本實施例中,該著色手段係以印製 的方式成型出具有色彩層之標示結構42,並使具有色彩層之標示結構42的底面仍具有第一保護層41,接著以第二表面處理手段於工具表面之非標示結構區域形成異於第一保護層41顏色之第二保護層43,該第二表面處理手段可為電鍍處理手段、電著處理手段或染黑處理手段,於本實施例中,該第二表面處理手段係為電鍍處理手段,由於在進行該電鍍處理手段時,具有色彩層之標示結構42不會產生電鍍反應,而僅係在非標示結構區域產生電鍍反應,而可於工具40之非標示結構區域電鍍形成有第二保護層43,且由於電鍍處理手段可為鍍銅、鍍鉻或鍍鎳等方式進行,不同的電鍍方式可產生不同顏色的保護層,因此當第二表面處理手段採用不同於第一表面處理手段的電鍍方式時,可使第二保護層43的顏色異於第一保護層41顏色,當然的,第二保護層43的顏色也異於標示結構42之色彩層的顏色,使得在工具40的表面上具有色彩層之標示結構42與非標示結構區域之第二保護層43的顏色形成不同的對比色差,進而提供較佳的辨識效果。 In order to make the present invention more fully understood by the reviewing committee, a preferred embodiment will be described in conjunction with the drawings, which are described in detail below. Referring to Figures 4 and 5, the present invention can be applied to various tools to sleeves. For example, in the first embodiment, the first surface treatment means is applied to the surface of the tool 40, and the first surface treatment means is formed by a plating treatment means, an electric treatment means, In the present embodiment, the first surface treatment means is a plating treatment means, and the first protective layer 41 is formed on the surface of the tool 40 by electroplating; A marking structure 42 having a color layer is formed at a predetermined position on the protective layer 41. The coloring means may be a coloring means for printing or pasting. In this embodiment, the coloring means is printed. The patterning structure 42 having a color layer is formed, and the bottom surface of the marking structure 42 having the color layer still has the first protective layer 41, and then the second surface treatment means forms a different area on the non-labeled structure area of the tool surface. a second protective layer 43 of a color of the protective layer 41, the second surface treatment means may be a plating treatment means, an electric treatment means or a blackening treatment means. In the embodiment, the second surface treatment means is a plating treatment By means of the plating treatment means, the marking structure 42 having the color layer does not generate the electroplating reaction, but only the electroplating reaction is generated in the non-labeled structure region, and the electroplating reaction can be formed in the non-labeled structure region of the tool 40. The second protective layer 43 is formed by means of copper plating, chrome plating or nickel plating, and different plating methods can produce protective layers of different colors, so when the second surface treatment means is different from the first surface treatment means In the plating mode, the color of the second protective layer 43 can be different from the color of the first protective layer 41. Of course, the color of the second protective layer 43 is also different from the standard. The color of the color layer of the structure 42 is such that the color of the marking layer 42 having the color layer on the surface of the tool 40 and the color of the second protective layer 43 of the non-labeling structure region form different contrast chromatic aberrations, thereby providing a better recognition effect.

請參閱第6圖,當長期使用而使標示結構42之色彩 層磨損脫落時,由於標示結構42之色彩層的底面係電鍍有第一保護層41,因此即便標示結構42之色彩層磨損脫落,仍可利用第一保護層41確保其防鏽效果。此外,標示結構42之色彩層磨損脫落後係顯現出第一保護層41的顏色,由於第一保護層41的顏色異於非標示結構區域之第二保護層43的顏色,而仍可形成不同的對比色差,進而有效確保其長期辨識效果。 Please refer to Figure 6 for the color of the marking structure 42 when used for a long time. When the layer is worn off, since the bottom surface of the color layer of the marking structure 42 is plated with the first protective layer 41, even if the color layer of the marking structure 42 is worn off, the first protective layer 41 can be used to ensure its rust preventing effect. In addition, after the color layer of the marking structure 42 is worn off, the color of the first protective layer 41 is revealed. Since the color of the first protective layer 41 is different from the color of the second protective layer 43 of the non-labeled structural region, the difference may still be formed. The contrast color difference, which effectively ensures its long-term identification.

請參閱第4、7圖,本發明其第二實施例係於工具4 0之表面先施以第一表面處理手段,而形成有第一保護層41,該第一表面處理手段可為電鍍處理手段、電著處理手段、氣染處理手段或染黑處理手段,於本實施例中,該第一表面處理手段係為電鍍 處理手段,而於工具40之表面電鍍形成有第一保護層41;接著以著色手段於第一保護層41上預定位置處成型出具有色彩層之標示結構42,該著色手段可為印製或貼覆的著色手段,於本實施例中,該著色手段係以印製的方式成型出具有色彩層之標示結構42,並使具有色彩層之標示結構42的底面仍具有第一保護層41,於本實施例中,該具有色彩層之標示結構42係包括有第一色彩層區域421及顏色不同於第一色彩層區域421之第二色彩層區域422,且第一色彩層區域421與第二色彩層區域422之間為不具色彩層之間隔區域423,接著以第二表面處理手段於工具表面之非標示結構區域及間隔區域423形成異於第一保護層41顏色之第二保護層43,該第二表面處理手段可為電鍍處理手段、電著處理手段或染黑處理手段,於本實施例中,該第二表面處理手段係為電鍍處理手段,由於在進行該電鍍處理手段時,標示結構42之第一色彩層區域421與第二色彩層區域422不會產生電鍍反應,而僅係在非標示結構區域及間隔區域423產生電鍍反應,而可於工具40之非標示結構區域及間隔區域423電鍍形成有第二保護層43,且由於電鍍處理手段可為鍍銅、鍍鉻或鍍鎳等方式進行,不同的電鍍方式可產生不同顏色的保護層,因此當第二表面處理手段採用不同於第一表面處理手段的電鍍方式時,可使第二保護層43的顏色異於第一保護層41顏色,當然的,第二保護層43的顏色也異於標示結構42之第一色彩層區域421與第二色彩層區域422的顏色,使得在工具40表面上標示結構42之第一色彩層區域421及第二色彩層區域422的顏色會與非標示結構區域及間隔區域423之第二保護層43的顏色形成三種不同的對比色差,進而提供較佳的辨識效果。 Please refer to Figures 4 and 7, the second embodiment of the present invention is attached to the tool 4 The surface of 0 is firstly applied with a first surface treatment means, and a first protective layer 41 is formed. The first surface treatment means may be a plating treatment means, an electric treatment means, an air dyeing treatment means or a blackening treatment means. In an embodiment, the first surface treatment means is electroplating a processing means, and a first protective layer 41 is formed on the surface of the tool 40; then, a marking structure 42 having a color layer is formed at a predetermined position on the first protective layer 41 by a coloring means, and the coloring means may be printed or In the present embodiment, the coloring means forms a marking structure 42 having a color layer in a printed manner, and the bottom surface of the marking structure 42 having the color layer still has the first protective layer 41. In this embodiment, the coloring layer indicating structure 42 includes a first color layer region 421 and a second color layer region 422 having a color different from the first color layer region 421, and the first color layer region 421 and the first color layer region 421 Between the two color layer regions 422 is a spacer layer 423 having no color layer, and then a second protective layer 43 different from the color of the first protective layer 41 is formed on the non-labeled structure region and the spacer region 423 of the tool surface by the second surface treatment means. The second surface treatment means may be a plating treatment means, an electric treatment means or a blackening treatment means. In the embodiment, the second surface treatment means is a plating treatment means, When the plating treatment means is performed, the first color layer region 421 and the second color layer region 422 of the marking structure 42 do not generate a plating reaction, but only the non-labeling structure region and the spacing region 423 generate an electroplating reaction, and the tool can be used. The non-labeled structure region and the spacer region 423 of 40 are plated with the second protective layer 43, and the plating treatment means can be performed by copper plating, chrome plating or nickel plating, and different plating methods can produce protective layers of different colors. When the second surface treatment means adopts a plating method different from the first surface treatment means, the color of the second protective layer 43 can be different from the color of the first protective layer 41. Of course, the color of the second protective layer 43 is also different. The colors of the first color layer region 421 and the second color layer region 422 of the marking structure 42 are such that the colors of the first color layer region 421 and the second color layer region 422 of the structure 42 on the surface of the tool 40 are associated with the non-marking structure. The color of the second protective layer 43 of the region and the spacer region 423 forms three different contrast chromatic aberrations, thereby providing a better identification effect.

請參閱第8圖,當長期使用而使標示結構42之第一 色彩層區域421及第二色彩層區域422的色彩層磨損脫落時,由於第一色彩層區域421及第二色彩層區域422之色彩層的底面係電鍍有第一保護層41,因此即便標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層磨損脫落,仍可利用第一保護層41確保其防鏽效果。此外,標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層磨損脫落後係顯現出第一保護層41的顏色,且第一色彩層區域421與第二色彩層區域422之間的間隔區域423係為第二保護層43的顏色,由於第一保護層41的顏色異於非標示結構區域及間隔區域423之第二保護層43的顏色,而仍可形成不同的對比色差,進而有效確保其長期辨識效果。 Please refer to Figure 8, which is the first to mark the structure 42 when used for a long time. When the color layer of the color layer region 421 and the second color layer region 422 is worn off, since the bottom surface of the color layer of the first color layer region 421 and the second color layer region 422 is plated with the first protective layer 41, even if the marking structure is The color layers of the first color layer region 421 and the second color layer region 422 of 42 are worn off, and the first protective layer 41 can still be used to ensure the rust preventing effect thereof. In addition, the color layers of the first color layer region 421 and the second color layer region 422 of the marking structure 42 are worn out to reveal the color of the first protective layer 41, and the first color layer region 421 and the second color layer region 422 The spacing area 423 is the color of the second protective layer 43. Since the color of the first protective layer 41 is different from the color of the non-labeled structure area and the second protective layer 43 of the spacing area 423, different contrasts can still be formed. The color difference is effective to ensure its long-term identification.

請參閱第4、9圖,本發明之第三實施例相較於第一 實施例,其差別在於第二保護層的顏色係相同於第一保護層的顏色;其係於工具40之表面先施以第一表面處理手段,而形成有第一保護層41,該第一表面處理手段可為電鍍處理手段、電著處理手段、氣染處理手段或染黑處理手段,於本實施例中,該第一表面處理手段係為電鍍處理手段,而於工具40之表面電鍍形成有第一保護層41;接著以著色手段於第一保護層41上預定位置處成型出具有色彩層之標示結構42,該著色手段可為印製或貼覆的著色手段,於本實施例中,該著色手段係以印製的方式成型出具有色彩層之標示結構42,並使具有色彩層之標示結構42的底面仍具有第一保護層41,接著以第二表面處理手段於工具表面之非標示結構區域形成相同於第一保護層41顏色之第二保護層43,該第二表面處理手段可為電鍍處理手段、電著處理手段或染黑處理手段,於本實施例中,該第二表面處理手段係為電鍍處理手段,由於在進行該電鍍處理手段時,具有色彩層之標示結構42不會產生電鍍反 應,而僅係在非標示結構區域產生電鍍反應,而可於工具40之非標示結構區域電鍍形成有第二保護層43;由於第二保護層43的顏色異於標示結構42之色彩層的顏色,使得在工具40的表面上具有色彩層之標示結構42與非標示結構區域之第二保護層43的顏色形成不同的對比色差,進而提供較佳的辨識效果。 Please refer to Figures 4 and 9, the third embodiment of the present invention is compared with the first In an embodiment, the difference is that the color of the second protective layer is the same as the color of the first protective layer; the first surface treatment means is applied to the surface of the tool 40, and the first protective layer 41 is formed, the first The surface treatment means may be a plating treatment means, an electric treatment means, an air dyeing treatment means or a blackening treatment means. In the embodiment, the first surface treatment means is a plating treatment means, and is plated on the surface of the tool 40. There is a first protective layer 41; then, a marking structure 42 having a color layer is formed at a predetermined position on the first protective layer 41 by a coloring means, and the coloring means can be a coloring means for printing or pasting, in this embodiment The coloring means forms a marking structure 42 having a color layer in a printed manner, and the bottom surface of the marking structure 42 having the color layer still has the first protective layer 41, and then the second surface treatment means on the surface of the tool The non-labeled structure region forms a second protective layer 43 which is the same as the color of the first protective layer 41. The second surface treatment means may be a plating treatment means, an electric treatment means or a blackening treatment means. In this embodiment, the second surface treatment means is a plating treatment means, because the marking structure 42 having the color layer does not generate the plating reaction when the plating processing means is performed. The plating reaction should be generated only in the non-labeled structure region, and the second protective layer 43 can be plated on the non-labeled structure region of the tool 40; since the color of the second protective layer 43 is different from the color layer of the marking structure 42 The color is such that the color of the marking layer 42 having the color layer on the surface of the tool 40 and the color of the second protective layer 43 of the non-labeling structure region form different contrast chromatic aberrations, thereby providing a better identification effect.

請參閱第10圖,當長期使用而使標示結構42之色 彩層磨損脫落時,由於標示結構42之色彩層的底面係電鍍有第一保護層41,因此即便標示結構42之色彩層磨損脫落,仍可利用第一保護層41確保其防鏽效果。此外,標示結構42之色彩層磨損脫落後係顯現出第一保護層41的顏色,雖然第一保護層41的顏色相同於非標示結構區域之第二保護層43的顏色,但因第二保護層43的厚度高於第一保護層41,而可形成具有厚度高低差的浮凸對比效果,進而有效確保其長期辨識效果。 Please refer to Figure 10 for the color of the marking structure 42 when used for a long time. When the color layer is worn off, since the bottom surface of the color layer of the marking structure 42 is plated with the first protective layer 41, even if the color layer of the marking structure 42 is worn off, the first protective layer 41 can be used to ensure the rust preventing effect. In addition, the color layer of the marking structure 42 shows the color of the first protective layer 41 after being worn off, although the color of the first protective layer 41 is the same as the color of the second protective layer 43 of the non-labeled structural region, but the second protection The thickness of the layer 43 is higher than that of the first protective layer 41, and an embossing contrast effect having a thickness difference can be formed, thereby effectively ensuring long-term identification effect.

請參閱第4、11圖,本發明之第四實施例相較於第 二實施例,其差別在於第二保護層的顏色係相同於第一保護層的顏色;其係於工具40之表面先施以第一表面處理手段,而形成有第一保護層41,該第一表面處理手段可為電鍍處理手段、電著處理手段、氣染處理手段或染黑處理手段,於本實施例中,該第一表面處理手段係為電鍍處理手段,而於工具40之表面電鍍形成有第一保護層41;接著以著色手段於第一保護層41上預定位置處成型出具有色彩層之標示結構42,該著色手段可為印製或貼覆的著色手段,於本實施例中,該著色手段係以印製的方式成型出具有色彩層之標示結構42,並使具有色彩層之標示結構42的底面仍具有第一保護層41,於本實施例中,該具有色彩層之標示結構42係包括有第一色彩層區域421及顏色不同於第一色彩層區域421之第二色彩層區域422,且第一色彩層區域421與第二色彩層 區域422之間為不具色彩層之間隔區域423,接著以第二表面處理手段於工具表面之非標示結構區域及間隔區域423形成相同於第一保護層41顏色之第二保護層43,該第二表面處理手段可為電鍍處理手段、電著處理手段或染黑處理手段,於本實施例中,該第二表面處理手段係為電鍍處理手段,由於在進行該電鍍處理手段時,標示結構42之第一色彩層區域421與第二色彩層區域422不會產生電鍍反應,而僅係在非標示結構區域及間隔區域423產生電鍍反應,而可於工具40之非標示結構區域及間隔區域423電鍍形成有第二保護層43,由於第二保護層43的顏色異於標示結構42之第一色彩層區域421與第二色彩層區域422的顏色,使得在工具40表面上標示結構42之第一色彩層區域421及第二色彩層區域422的顏色會與非標示結構區域及間隔區域423之第二保護層43的顏色形成三種不同的對比色差,進而提供較佳的辨識效果。 Please refer to Figures 4 and 11, the fourth embodiment of the present invention is compared to the fourth embodiment. a second embodiment, the difference is that the color of the second protective layer is the same as the color of the first protective layer; the first surface treatment means is applied to the surface of the tool 40, and the first protective layer 41 is formed. A surface treatment means may be a plating treatment means, an electric treatment means, an air dyeing treatment means or a blackening treatment means. In the embodiment, the first surface treatment means is a plating treatment means, and the surface of the tool 40 is plated. A first protective layer 41 is formed; then, a marking structure 42 having a color layer is formed at a predetermined position on the first protective layer 41 by a coloring means, and the coloring means can be a coloring means for printing or pasting, in this embodiment The coloring means forms the marking structure 42 having the color layer in a printed manner, and the bottom surface of the marking structure 42 having the color layer still has the first protective layer 41. In this embodiment, the coloring layer is provided. The marking structure 42 includes a first color layer region 421 and a second color layer region 422 having a color different from the first color layer region 421, and the first color layer region 421 and the second color layer Between the regions 422 is a spacer layer 423 having no color layer, and then the second surface treatment means forms a second protective layer 43 which is the same color as the first protective layer 41 on the non-labeled structure region and the spacer region 423 of the tool surface. The second surface treatment means may be a plating treatment means, an electric treatment means or a blackening treatment means. In the embodiment, the second surface treatment means is a plating treatment means, and the marking structure 42 is used when the plating treatment means is performed. The first color layer region 421 and the second color layer region 422 do not generate a plating reaction, but only the non-labeled structure region and the spacer region 423 generate a plating reaction, and may be in the non-labeled structure region and the spacer region 423 of the tool 40. The second protective layer 43 is formed by electroplating. Since the color of the second protective layer 43 is different from the color of the first color layer region 421 and the second color layer region 422 of the marking structure 42, the structure 42 is marked on the surface of the tool 40. The color of one color layer region 421 and the second color layer region 422 may form three different pairs with the colors of the second protective layer 43 of the non-labeled structure region and the spacer region 423. Color, thereby providing better recognition results.

請參閱第12圖,當長期使用而使標示結構42之第 一色彩層區域421及第二色彩層區域422的色彩層磨損脫落時,由於第一色彩層區域421及第二色彩層區域422之色彩層的底面係電鍍有第一保護層41,因此即便標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層磨損脫落,仍可利用第一保護層41確保其防鏽效果。此外,標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層磨損脫落後係顯現出第一保護層41的顏色,雖然第一保護層41的顏色相同於第二保護層43的顏色,但因非標示結構區域及間隔區域423之第二保護層43的厚度高於第一保護層41,而可形成具有厚度高低差的浮凸對比效果,進而有效確保其長期辨識效果。 Please refer to Figure 12 for the long-term use of the marking structure 42 When the color layer of the color layer region 421 and the second color layer region 422 is worn off, since the bottom surface of the color layer of the first color layer region 421 and the second color layer region 422 is plated with the first protective layer 41, even if it is marked The color layers of the first color layer region 421 and the second color layer region 422 of the structure 42 are worn off, and the first protective layer 41 can still be used to ensure the rust preventing effect thereof. In addition, the color layers of the first color layer region 421 and the second color layer region 422 of the marking structure 42 are worn out to reveal the color of the first protective layer 41, although the color of the first protective layer 41 is the same as the second protective layer. The color of the second protective layer 43 of the non-labeled structure region and the spacer region 423 is higher than that of the first protective layer 41, and the embossing contrast effect having a thickness difference can be formed, thereby effectively ensuring the long-term identification effect. .

請參閱第13圖,本發明其第五實施例係當工具使用 於特殊場合,而必須確保工具表面不得有色彩層可能磨損脫落的情形時,則本發明於進行第一表面處理手段、著色手段及第二表面處理手段後,可再接續進行除色手段,以去除標示結構上之色彩層,如同第6圖所示,當除色手段去除標示結構42上之色彩層後,標示結構42之色彩層的底面係電鍍有第一保護層41,因此即便去除標示結構42之色彩層,仍可利用第一保護層41確保其防鏽效果,且去除標示結構42之色彩層後係顯現出第一保護層41的顏色,由於第一保護層41的顏色異於非標示結構區域之第二保護層43的顏色,而仍可形成不同的對比色差,進而有效確保其長期辨識效果。請再配合第8圖所示,當除色手段去除標示結構42上之色彩層後,由於第一色彩層區域421及第二色彩層區域422之色彩層的底面係電鍍有第一保護層41,因此即便去除標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層,仍可利用第一保護層41確保其防鏽效果,且去除標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層後係顯現出第一保護層41的顏色,由於第一保護層41的顏色異於非標示結構區域及間隔區域423之第二保護層43的顏色,而仍可形成不同的對比色差,進而有效確保其長期辨識效果。請再配合第10圖所示,當除色手段去除標示結構42上之色彩層後,標示結構42之色彩層的底面係電鍍有第一保護層41,因此即便去除標示結構42之色彩層,仍可利用第一保護層41確保其防鏽效果,且去除標示結構42之色彩層後係顯現出第一保護層41的顏色,雖然第一保護層41的顏色相同於非標示結構區域之第二保護層43的顏色,但因第二保護層43的厚度高於第一保護層41,而可形成具有厚度高低差的浮凸對比效果,進而有效確保其長期辨識效果。請再配合第12圖所示,當除色手段去除標示結構42上之色彩層 後,由於第一色彩層區域421及第二色彩層區域422之色彩層的底面係電鍍有第一保護層41,因此即便去除標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層,仍可利用第一保護層41確保其防鏽效果,且去除標示結構42之第一色彩層區域421及第二色彩層區域422的色彩層後係顯現出第一保護層41的顏色,雖然第一保護層41的顏色相同於第二保護層43的顏色,但因非標示結構區域及間隔區域423之第二保護層43的厚度高於第一保護層41,而可形成具有厚度高低差的浮凸對比效果,進而有效確保其長期辨識效果。 Referring to Figure 13, the fifth embodiment of the present invention is used as a tool. In a special occasion, it is necessary to ensure that the surface of the tool does not have a color layer that may wear and fall off. Then, after performing the first surface treatment means, the coloring means and the second surface treatment means, the present invention can further perform the color removal means to The color layer on the marking structure is removed. As shown in FIG. 6, when the color removing means removes the color layer on the marking structure 42, the bottom surface of the color layer of the marking structure 42 is plated with the first protective layer 41, so even if the marking is removed The color layer of the structure 42 can still ensure the rust preventing effect by the first protective layer 41, and the color of the first protective layer 41 is revealed after the color layer of the marking structure 42 is removed, since the color of the first protective layer 41 is different from The color of the second protective layer 43 of the non-labeled structure region can still form different contrast chromatic aberrations, thereby effectively ensuring the long-term identification effect. As shown in FIG. 8 , after the color removing means removes the color layer on the marking structure 42 , the bottom surface of the color layer of the first color layer region 421 and the second color layer region 422 is plated with the first protective layer 41 . Therefore, even if the color layers of the first color layer region 421 and the second color layer region 422 of the marking structure 42 are removed, the first protective layer 41 can be used to ensure the rust preventing effect thereof, and the first color layer region of the marking structure 42 is removed. The color layer of the 421 and the second color layer region 422 is followed by the color of the first protective layer 41. Since the color of the first protective layer 41 is different from the color of the non-labeled structure region and the second protective layer 43 of the spacer region 423, However, different contrast chromatic aberrations can still be formed, thereby effectively ensuring long-term identification. In addition, as shown in FIG. 10, after the color removing means removes the color layer on the marking structure 42, the bottom surface of the color layer of the marking structure 42 is plated with the first protective layer 41, so even if the color layer of the marking structure 42 is removed, The first protective layer 41 can still be used to ensure its rust-preventing effect, and the color layer of the marking structure 42 is removed to reveal the color of the first protective layer 41, although the color of the first protective layer 41 is the same as that of the non-labeled structural region. The color of the second protective layer 43 is high, but since the thickness of the second protective layer 43 is higher than that of the first protective layer 41, an embossing contrast effect having a thickness difference can be formed, thereby effectively ensuring the long-term identification effect. Please cooperate with the color layer to remove the color layer on the marking structure 42 as shown in FIG. Thereafter, since the bottom surface of the color layer of the first color layer region 421 and the second color layer region 422 is plated with the first protective layer 41, even the first color layer region 421 and the second color layer region 422 of the marking structure 42 are removed. The color layer can still be protected by the first protective layer 41, and the color layer of the first color layer region 421 and the second color layer region 422 of the marking structure 42 is removed to reveal the first protective layer 41. The color, although the color of the first protective layer 41 is the same as the color of the second protective layer 43, but the thickness of the second protective layer 43 of the non-labeled structure region and the spacer region 423 is higher than that of the first protective layer 41, and may be formed to have The embossing contrast effect of the difference in thickness is effective to ensure long-term identification.

據此,本發明不僅在正常狀況下提供較佳的辨識效 果,且即便標示結構之色彩層磨損脫落,亦仍可確保其防鏽及辨識效果,實為一深具實用性及進步性之設計,然未見有相同之產品及刊物公開,從而允符發明專利申請要件,爰依法提出申請。 Accordingly, the present invention not only provides better recognition efficiency under normal conditions. If the color layer of the marking structure is worn off, it can still ensure its anti-rust and identification effect. It is a practical and progressive design. However, the same product and publication are not disclosed. The requirements for invention patent applications are submitted in accordance with the law.

40‧‧‧工具 40‧‧‧ Tools

41‧‧‧第一保護層 41‧‧‧First protective layer

42‧‧‧標示結構 42‧‧‧Marking structure

43‧‧‧第二保護層 43‧‧‧Second protective layer

Claims (10)

一種工具標示結構之成型方法,係包括有:第一表面處理手段:係於工具表面施以第一表面處理手段,以形成第一保護層;著色手段:係於工具表面之第一保護層上預定位置處成型出具有色彩層之標示結構,並使具有色彩層之標示結構的底面具有第一保護層;第二表面處理手段:係於工具表面之非標示結構區域施以第二表面處理手段,以於非標示結構區域形成第二保護層。 A method for forming a tool marking structure includes: a first surface treatment means: applying a first surface treatment means on the surface of the tool to form a first protective layer; and a coloring means: attaching to the first protective layer on the surface of the tool Forming a marking structure having a color layer at a predetermined position, and having a bottom surface of the marking structure having the color layer having a first protective layer; and second surface treating means: applying a second surface treatment means to the non-labeling structure area of the tool surface Forming a second protective layer for the non-labeled structure region. 依申請專利範圍第1項所述之工具標示結構之成型方法,其中,該第一表面處理手段及第二表面處理手段係為電鍍處理手段、電著處理手段或染黑處理手段。 The method for forming a tool marking structure according to the first aspect of the invention, wherein the first surface treatment means and the second surface treatment means are electroplating treatment means, electric treatment means or blackening treatment means. 依申請專利範圍第2項所述之工具標示結構之成型方法,其中,該電鍍處理手段可為鍍銅、鍍鉻或鍍鎳等方式進行,第二表面處理手段與第一表面處理手段係採用不同的電鍍方式,以使第二保護層的顏色異於第一保護層顏色。 The method for forming a tool marking structure according to the second aspect of the patent application scope, wherein the plating treatment means can be performed by copper plating, chrome plating or nickel plating, and the second surface treatment means is different from the first surface treatment means. The plating method is such that the color of the second protective layer is different from the color of the first protective layer. 依申請專利範圍第2項所述之工具標示結構之成型方法,其中,該電鍍處理手段可為鍍銅、鍍鉻或鍍鎳等方式進行,第二表面處理手段與第一表面處理手段係採用相同的電鍍方式,以使第二保護層的顏色相同於第一保護層顏色。 The method for forming a tool marking structure according to the second aspect of the patent application scope, wherein the plating treatment means can be performed by copper plating, chrome plating or nickel plating, and the second surface treatment means is the same as the first surface treatment means. The plating method is such that the color of the second protective layer is the same as the color of the first protective layer. 依申請專利範圍第1項所述之工具標示結構之成型方法,更包含於第一表面處理手段、著色手段及第二表面處理手段後,接續進行除色手段,以去除標示結構上之色彩層。 The method for forming the tool marking structure according to the first aspect of the patent application scope is further included in the first surface treatment means, the coloring means and the second surface treatment means, followed by the color removal means to remove the color layer on the marking structure . 一種工具標示結構之成型方法,係包括有:第一表面處理手段:係於工具表面施以第一表面處理手段, 以形成第一保護層;著色手段:係於工具表面之第一保護層上預定位置處成型出具有色彩層之標示結構,該具有色彩層之標示結構包括有第一色彩層區域及顏色不同於第一色彩層區域之第二色彩層區域,且第一色彩層區域與第二色彩層區域之間為不具色彩層之間隔區域,並使標示結構之第一色彩層區域及第二色彩層區域的底面具有第一保護層;第二表面處理手段:係於工具表面之非標示結構區域及間隔區域施以第二表面處理手段,以於非標示結構區域及間隔區域形成第二保護層。 A method for forming a tool marking structure includes: a first surface treatment means: applying a first surface treatment means on the surface of the tool, Forming a first protective layer; coloring means: forming a marking structure having a color layer at a predetermined position on the first protective layer of the tool surface, the marking structure having the color layer comprising the first color layer region and the color is different a second color layer region of the first color layer region, and a space layer having no color layer between the first color layer region and the second color layer region, and the first color layer region and the second color layer region of the marking structure The bottom surface has a first protective layer; the second surface treatment means: applying a second surface treatment means to the non-labeled structure area and the spacing area of the tool surface to form a second protective layer on the non-labeled structure area and the spacing area. 依申請專利範圍第6項所述之工具標示結構之成型方法,其中,該第一表面處理手段及第二表面處理手段係為電鍍處理手段、電著處理手段或染黑處理手段。 The method for forming a tool marking structure according to the sixth aspect of the invention, wherein the first surface treatment means and the second surface treatment means are electroplating treatment means, electric treatment means or blackening treatment means. 依申請專利範圍第7項所述之工具標示結構之成型方法,其中,該電鍍處理手段可為鍍銅、鍍鉻或鍍鎳等方式進行,第二表面處理手段與第一表面處理手段係採用不同的電鍍方式,以使第二保護層的顏色異於第一保護層顏色。 The method for forming a tool marking structure according to claim 7 of the patent application scope, wherein the plating treatment means can be performed by copper plating, chrome plating or nickel plating, and the second surface treatment means is different from the first surface treatment means. The plating method is such that the color of the second protective layer is different from the color of the first protective layer. 依申請專利範圍第7項所述之工具標示結構之成型方法,其中,該電鍍處理手段可為鍍銅、鍍鉻或鍍鎳等方式進行,第二表面處理手段與第一表面處理手段係採用相同的電鍍方式,以使第二保護層的顏色相同於第一保護層顏色。 The method for forming a tool marking structure according to claim 7 of the patent application scope, wherein the plating treatment means can be performed by copper plating, chrome plating or nickel plating, and the second surface treatment means is the same as the first surface treatment means. The plating method is such that the color of the second protective layer is the same as the color of the first protective layer. 依申請專利範圍第6項所述之工具標示結構之成型方法,更包含於第一表面處理手段、著色手段及第二表面處理手段後,接續進行除色手段,以去除標示結構之第一色彩層區域及第二色彩層區域上的色彩層。 The method for forming the tool marking structure according to Item 6 of the patent application scope is further included in the first surface treatment means, the coloring means and the second surface treatment means, and then the color removal means is successively performed to remove the first color of the marking structure. a layer of color on the layer area and the second color layer area.
TW102115274A 2012-10-26 2013-04-29 Formation method of tool identification structure TW201417067A (en)

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TW102115274A TW201417067A (en) 2012-10-26 2013-04-29 Formation method of tool identification structure
CA2817546A CA2817546A1 (en) 2012-10-26 2013-05-15 Method of forming tool marking structure
JP2013111260A JP2014084527A (en) 2012-10-26 2013-05-27 Method for molding tool sign structure
EP13170388.6A EP2724818A1 (en) 2012-10-26 2013-06-04 Method of forming tool marking structure
US13/911,052 US9206521B2 (en) 2012-10-26 2013-06-05 Method of forming tool marking structure
AU2013206587A AU2013206587A1 (en) 2012-10-26 2013-06-28 Method of forming tool marking structure
RU2013136456/02A RU2013136456A (en) 2012-10-26 2013-08-02 METHOD FOR FORMING LABELING INSTRUMENT STRUCTURE

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CN110468435A (en) * 2018-05-11 2019-11-19 陈怡富 The ratchet and its preparation method of tool protection and identification layer

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EP2724818A1 (en) 2014-04-30

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