Title of Invention

METAL HAND TOOL AND METHOD FOR MANUFACTURING THE SAME

Abstract

A metal hand tool is fabricated by a method to manufacture the metal hand tool, the metal hand tool has a body with an outer surface and an preparing region, a printing layer with a mark and an electroplate layer. The method has a forming step, a printing step and an electroplating step. In the preparing step, the body is made from metal. In the printing step, the printing layer is printed on the preparing region in the outer surface of the body and the mark is enchased on the printing layer with an external surface. In the electroplate step, the electroplate layer is electroplated the external surface of the mark and the outer surface of the body except the preparing region with the printing layer to complete the metal hand tool.

Full Text

METAL HAND TOOL AND METHOD FOR MANUFACTURING THE SAME BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hand tool, and more particularly relates to a metal hand tool and a method to manufacture the metal hand tool. 2. Description of Related Art Metal hand tools such as socket bits, wrenches, ratchet wrenches and screwdrivers, and are used frequently in our lives. A mark with drawings or words is manufactured with the metal hand tool to show the trademark and the standards of the metal hand tool. In the past, there are two conventional methods for manufacturing the mark with the metal hand tool. The first method for manufacturing the mark with the metal hand tool is formed a salient or an indent to take as the mark when casting the metal hand tool, then electroplating the metal hand tool with an electroplate layer. However, the metal hand tool is electroplated with the same color, and this cannot let users see the mark obviously and clearly. The second method for manufacturing the mark with the metal hand tool is electroplated the metal hand tool after casting the metal hand tool, and then printing a layer with multiple colors on the metal hand tool to take as the mark. This method can let users see the mark obviously and clearly. However, the printing layer cannot mount securely around the electroplate layer and this may make the printing layer falling off from the metal hand tool. In addition, the printing layer may fall off when rubbing against the metal hand tool. Therefore, the present invention provides a metal hand tool and a method to manufacture the metal hand tool to mitigate or obviate the aforementioned problems. SUMMARY OF THE INVENTION The main objective of the present invention is to provide a metal hand tool and a method to manufacture the metal hand tool. A metal hand tool in accordance with the present invention is fabricated by a method to manufacture said metal hand tool, and said metal hand tool has a body with an outer surface and an preparing region, a printing layer with a mark and an electroplate layer. The method to manufacture the metal hand tool in accordance with the present invention comprises a forming step, a printing step and an electroplating step. In the preparing step, the body is made from metal. In the printing step, the printing layer is printed on the preparing region in the outer surface of the body and the mark is enchased on the printing layer with an external surface. In the electroplate step, the electroplate layer is electroplated the external surface of the mark and the outer surface of the body except the preparing region with the printing layer to complete the metal hand tool. Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of manufacturing a metal hand tool in accordance with the present invention; Fig. 2 is an enlarged cross section side view of the metal hand tool in Fig. 1; and Fig. 3 is a block diagram of manufacturing the metal hand tool in Fig. 1. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT With reference to Figs. 1 to 3, a metal hand tool in accordance with the present invention is made by a method in accordance with the present invention for manufacturing the metal hand tool. The metal hand tool is made of metal and comprises a body (10), a printing layer (20) and an electroplate layer (30). The body (10) is made of casting or forging and has an outer surface and a preparing region. The preparing region is defined on the outer surface of the body (10). The printing layer (20) is printed on the preparing region in the outer surface of the body (10) with a signal color or multiple colors and has a mark (21). The mark (21) is enchased on the printing layer (20) by the signal color or the multiple colors and has an external surface. The electroplate layer (30) is electroplated on the external surface of the mark (21) and the outer surface of the body (10) except the preparing region with the printing layer (20) to protect the metal hand tool. In addition, the electroplate layer (30) can be a signal layer or multiple layers. The mark (21) can be presented as a three-dimensional effect when the electroplate layer (30) is electroplated with multiple layers. The method for manufacturing the metal hand tool comprises (a) a forming step, (b) a printing step and (c) an electroplating step. The forming step comprises manufacturing the body (10) with an outer surface and a preparing region by casting or forging. The printing step comprises printing signal color or multiple colors on the preparing region in the outer surface of the body (10) to form a printing layer (20) and enchasing a mark (21) with an external surface on the printing layer (20). The electroplating step comprises electroplating an electroplate layer (30) on the external surface of the mark (21) and the outer surface of the body (10) except the preparing region with the printing layer (20) to complete the metal hand tool. The metal hand tool and the method to manufacture the metal hand tool have the following advantages. 1. The electroplate layer (30) is electroplated on the external surface of the mark (21) and the outer surface of the body (10) except the preparing region with the printing layer (20) to protect the metal hand tool. This can let users see the mark obviously and clearly. 2. The printing layer (20) is printed securely around the outer surface of the body (10) and this can prevent the printing layer (20) from falling off the metal hand tool. 3. The mark (21) can be presented as a three-dimensional effect when the electroplate layer (30) is electroplated with multiple layers. Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and features of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed. I CLAIM: 1. A metal hand tool being made of metal and comprising a body having an outer surface; and a preparing region being defined on the outer surface of the body; a printing layer being printed on the preparing region in the outer surface of the body and having a mark being enchased on the printing layer with an external surface; and an electroplate layer being electroplated on the external surface of the mark and the outer surface of the body except the preparing region with the printing layer. 2. A method for manufacturing a metal hand tool that has a body with an outer surface and a preparing region, a printing layer with a mark and an electroplate layer, and the method comprising: (a) a forming step comprising forming the body with the outer surface and the preparing region; (b) a printing step comprising printing the printing layer on the preparing region in the outer surface of the body; and enchasing the mark with an external surface on the printing layer; and (c) an electroplating step comprising electroplating the electroplate layer on the external surface of the mark and the outer surface of the body except the preparing region with the printing layer to complete the metal hand tool. 3. The method for manufacturing a metal hand tool as claimed in claim 2, wherein printing the printing layer with a signal color. 4. The method for manufacturing a metal hand tool as claimed in claim 2, wherein printing the printing layer with multiple colors. 5. The method for manufacturing a metal hand tool as claimed in claim 2, wherein electroplating the electroplate layer with multiple layers. 6. The method for manufacturing a metal hand tool as claimed in claim 3, wherein electroplating the electroplate layer with multiple layers. 7. The method for manufacturing a metal hand tool as claimed in claim 4, wherein electroplating the electroplate layer with multiple layers.

Documents:

5-CHE-2005 ABSTRACT 01-01-2008.pdf

5-CHE-2005 CLAIMS 01-01-2008.pdf

5-CHE-2005 DESCRIPTION (COMPLETE) 01-01-2008.pdf

5-CHE-2005 DRAWINGS 01-01-2008.pdf

5-CHE-2005 FORM-1 01-01-2008.pdf

5-CHE-2005 FORM-18 01-01-2008.pdf

5-CHE-2005 FORM-3 01-01-2008.pdf

5-CHE-2005 FORM-5 01-01-2008.pdf

5-CHE-2008 CORRESPONDENCE OTHERS 31-01-2013.pdf

5-CHE-2008 AMENDED PAGES OF SPECIFICATION 06-12-2013.pdf

5-CHE-2008 AMENDED CLAIMS 06-12-2013.pdf

5-CHE-2008 CORRESPONDENCE OTHERS 25-04-2013.pdf

5-CHE-2008 CORRESPONDENCE OTHERS 22-03-2013.pdf

5-CHE-2008 EXAMINATION REPORT REPLY RECEIVED 06-12-2013.pdf

5-CHE-2008 EXAMINATION REPORT REPLY RECEIVED 16-10-2012.pdf

5-CHE-2008 FORM-3 06-12-2013.pdf

5-CHE-2008 FORM-5 06-12-2013.pdf

5-CHE-2008 AFFIDAVIT 01-07-2014.pdf

5-CHE-2008 AMENDED CLAIMS 01-07-2014.pdf

5-CHE-2008 AMENDED PAGES OF SPECIFICATION 01-07-2014.pdf

5-CHE-2008 CORRESPONDENCE OTHERS 02-08-2012.pdf

5-CHE-2008 CORRESPONDENCE OTHERS 09-03-2012.pdf

5-CHE-2008 CORRESPONDENCE OTHERS 21-08-2014.pdf

5-CHE-2008 EXAMINATION REPORT REPLY RECEIVED 01-07-2014.pdf

5-CHE-2008 FORM-1 21-08-2014.pdf

5-CHE-2008 FORM-13 07-03-2014.pdf

5-CHE-2008 FORM-5 01-07-2014.pdf

5-CHE-2008 OTHER PATENT DOCUMENT 01-07-2014.pdf

5-CHE-2008 POWER OF ATTORNEY 01-07-2014.pdf

Form 13.pdf

GPOA with stampduty.pdf

Petition Rule 137 4.pdf

Petition Rule 137.pdf