1332825 九、發明說明: 【發明所屬之技術領域】 本發明係有關一種導磁鋁鍋製造方法,尤指一種具導磁功能而可與電 磁爐電磁反應之銘鍋的製造方法。 【先前技術】 日電磁爐係-種電子烹調具’它打破了傳統的明火烹調方式而採用磁 場$應電流的加熱原理(inducti〇nheating),令鐵磁性金屬器皿發熱,而 所明「鐵磁性金屬」簡單來說就是可以被磁石所吸引的金屬,如鋼、鐵等; 電磁爐是通過電子線路板、組成部分產生交變磁場,當用含鐵質銷具底部放 φ 置爐面時,鍋具即切割交變磁力線而在鍋具底部金屬部分產生交變的電 流’使鋼具鐵分子高速無規則運動,分子互相碰撞、雜而產生熱能(故: 電磁爐者食的熱源來自於鋼具底部而不是電磁爐本身發熱傳導給銷具,所 以熱效率要比所有炊具的效率均高出近i倍),使器皿本身自行高速發执, • 肖來加熱和烹杰食物,從而達到棄食之目的;具有升溫快、熱效率高、無 明火、無煙塵、無有害氣體、對周圍環境不產生熱輻射、體積小巧、安全 性佳和外觀美觀等優點,能完成家庭的絕大多數烹飪任務。 而為了提南器皿傳熱的速度,習知技術中概以不具導磁功能的紹材容 器底部設置導磁金屬,利祕材傳熱快速、重量輕的優點,再透過導磁金 • 麟到導磁健的效果’如本國翻公告S脳11號的「-㈣用於電磁 爐之轉容器」,主要係包括一由銘原料經炫鎮而成型之铭容器,其中,由 鋁原料經料而成型之銘容器底部固接一導磁片,該容器可藉由導磁片與 電磁爐產生導磁作用’使該銘容器可適用於電磁爐,亦可用於瓦斯爐,令 使用者可視需求而變換使用方式。 凊參閱『圖1及圖2』所示’上述具有導磁片之銘容器其製造方法係 將導磁金屬100置入-模具200中,並以複數銘塊3〇〇樓持於該模具· 底部’再將銘水注入該模具2〇〇,待紹水凝固後,由該模具2〇〇中取出凝固 之紹容器,並研磨該銘容器底部直到該導磁金屬外露於該銘容器,而 可與電磁爐導磁發熱’其中,該些銘塊3⑽係於該導磁金屬丨⑻與該模具 2〇〇間形成-預留空間,以禮保銘水可完全淹蓋該導磁金屬⑽而=產2 叫825 氣泡,但當結水注入該模具200時,該些峨3〇〇即溶於紹水中,而無法 支揮該導磁金屬100,使該導磁金屬刚產生偏移,而提升產品良率 【發明内容】 手 本發明的主要目的,在於提供一種導磁鋁鍋製造方法,係於製造 中將銘鋼底部的導磁金屬穩固定位,並於洗鍀的同時避免氣泡產生。 製借目的’本發明提出—種__製造方法’其步驟主要係先 it 位端的導磁金屬及—具有第二錄端的模具,將該導磁 屬疋位於賴制並藉由該第―、二定位端構成定位_,再將紹水注 待㉝水凝固後形成—包覆該導磁金屬的㉟銷並脫離該模具,網 ^ ’透過CNC加工將該__的底部車平,使料磁金屬局部外露於該 紹鋼且與該铭鋼底面切齊,如是構成一種導磁娜的成品。 … 【實施方式】 有關本發明之詳細細及技義容,兹配合圖式魏明如下: 一,參閱『圖3』所示,係為本發日月導磁鋪製造方法的流程圖;如圖 不:本發日月的製造方法,其步驟係先製備-導磁金屬i (如圖W及圖Μ 所不該導磁金屬1可為不鏽鋼或鐵等材質,將該導磁金屬】置入 2主具2構蚊位聽(如®5及®6),接著,再脑水3緩緩 圖7),触水3凝固後,便形成—包覆該導磁金屬1的 =該模具2中取出(如圖8),嗣後,該雜4 _及外側一併 ^CNCM ’而將該_4外側的底部車平,並使該導磁金屬i局部外 贿4且與f_4的細讀,即絲—__5成品(如圖9 及圖10)。 一笛製造方法中,該導磁金屬1及該模具2設有構成定位關係的 —第^位端211,且該模具2包含對應的—公模具22 W> ,、_,該第二定位端211係配置於該母模具21,而該第一 與該第二定位端211係為耗合卡擎的凸塊及凹槽,且該製造方法 Ϊ^ 定位端13、211使該導磁金屬1與該模具2綱定位’ 备μ k模具2時,該導磁金屬1可保持於縣之位置,而不產生偏 離;此外哪磁金屬丨設有複數結合孔„及與賴具2形成—預留空= 1332825 从賴具2時,穌3透财爾空間u 一 α孔II而不產生氣泡,使該導磁金屬】完全被财 ,過上述製造方法,所成型的導磁雜5及如圖9及圖⑺所 ^ ”有一蹄的鋪51 ’該鋼體51底部配置有—導磁 =要 1具有外露於該顯51並與蝴ί 5丨广_齊的複數金屬 磁銘鋼5可應用於電磁爐加熱,透 ',口孔1W吏該導 節⑽細特性,卿的 之效。 衫雜體51内,被加熱快速 综上所述僅為本發明的較佳實施例而、1332825 IX. Description of the Invention: [Technical Field] The present invention relates to a method for manufacturing a magnetically conductive aluminum pan, and more particularly to a method for manufacturing a pot having a magnetic conductive function and capable of electromagnetically reacting with an electromagnetic furnace. [Prior Art] Induction Cooker-Electronic Cooker' It breaks the traditional open-fire cooking method and uses the magnetic field (inducti〇nheating) to make the ferromagnetic metalware heat, and the "ferromagnetic metal" Simply speaking, it is a metal that can be attracted by magnets, such as steel and iron. The induction cooker generates alternating magnetic fields through electronic circuit boards and components. When the bottom surface of the iron-containing pin is placed, the pot is placed. That is, cutting alternating magnetic lines of force and generating alternating current in the metal part of the bottom of the pot makes the steel iron molecules move at high speed and irregularly, and the molecules collide with each other and generate heat. Therefore, the heat source of the cooker comes from the bottom of the steel. It is not that the induction cooker itself is heated to the pin, so the thermal efficiency is nearly i times higher than that of all cookware), so that the vessel itself can be self-issued at high speed, • Xiaolai heats and cooks the food to achieve the purpose of food abandonment; Fast heating, high thermal efficiency, no open flame, no smoke, no harmful gases, no heat radiation to the surrounding environment, small size, good safety and appearance The beauty and other advantages can complete most cooking tasks in the family. In order to speed up the heat transfer of the utensils, the conventional technology uses a magnetically permeable metal at the bottom of the material container that does not have a magnetic conductive function, which has the advantages of fast heat transfer and light weight, and then passes through the magnetic guide. The effect of the magnetic permeability is as follows: "- (4) for the transfer container of the induction cooker", which mainly consists of a container made of the raw material through the town of Hyun, which is made of aluminum raw material. The bottom of the molded container is fixed with a magnetic conductive piece, which can be magnetically guided by the magnetic conductive sheet and the induction cooker. The original container can be applied to the induction cooker or the gas furnace, so that the user can change the use according to the needs. the way.凊Refer to the above-mentioned "The magnetic vessel of the Ming Dynasty container shown in Fig. 1 and Fig. 2". The method of manufacturing the magnetic conductive metal 100 is placed in the mold 200, and the mold is held in the mold by a plurality of blocks. The bottom part is further injected into the mold 2〇〇, and after the water is solidified, the solidified container is taken out from the mold 2, and the bottom of the container is ground until the magnetic conductive metal is exposed to the original container. It can be magnetically heated with the induction cooker. Among them, the inscription block 3 (10) is formed between the magnetic conductive metal crucible (8) and the mold 2 to reserve a space for the cover water to completely cover the magnetic conductive metal (10). = 2 is called 825 bubble, but when the water is injected into the mold 200, the 峨3〇〇 is dissolved in the water, and the magnetic metal 100 cannot be supported, so that the magnetic metal just shifts. Improving Product Yield [Invention] The main purpose of the present invention is to provide a method for manufacturing a magnetically-conductive aluminum pan, which is to fix the magnetic conductive metal at the bottom of Ming Steel in the manufacturing process, and to avoid bubble generation while washing. The purpose of the invention is as follows: the present invention proposes a method of manufacturing a method, the steps of which are mainly a magnetic conductive metal of a first terminal and a mold having a second recording end, and the magnetic permeability is located and controlled by the first The second positioning end constitutes a positioning _, and then the water is solidified to be formed after the 33 water is solidified - the 35 pin of the magnetic conductive metal is coated and separated from the mold, and the bottom of the __ is leveled by the CNC machining. The magnetic metal is partially exposed to the steel and is aligned with the bottom surface of the steel, such as a finished product of the magnetic flux. [Embodiment] The details and technical meanings of the present invention are as follows: 1. Refer to the figure of Figure 3, which is a flow chart of the manufacturing method of the magnetic and magnetic pavement of the present day; Figure: The manufacturing method of the sun and the moon, the steps are first prepared - magnetic conductive metal i (Figure W and Figure Μ The magnetic conductive metal 1 can be stainless steel or iron, etc., the magnetic metal] Into the 2 main body 2 structure mosquitoes (such as ® 5 and ® 6), then, the brain water 3 slowly Figure 7), after the water 3 solidifies, it forms - the mold covering the magnetic metal 1 = the mold 2 is taken out (as shown in Fig. 8), after the 嗣, the miscellaneous 4 _ and the outer side together ^CNCM 'and the bottom of the outer side of the _4 is level, and the magnetic conductive metal i is partially bribed 4 and the reading of f_4 , that is, silk - __5 finished product (Figure 9 and Figure 10). In a method of manufacturing a flute, the magnetic conductive metal 1 and the mold 2 are provided with a --position end 211 constituting a positioning relationship, and the mold 2 includes a corresponding - male mold 22 W >, _, the second positioning end The 211 is disposed on the female mold 21, and the first and second positioning ends 211 are bumps and grooves that are consuming the card rush, and the manufacturing method 定位^ the positioning ends 13, 211 make the magnetic conductive metal 1 When the mold 2 is positioned to prepare the μ k mold 2, the magnetic conductive metal 1 can be maintained at the position of the county without deviation; in addition, the magnetic metal crucible is provided with a plurality of joint holes „ and formed with the stalk 2 Leave blank = 1332825 From the time of the rigging 2, the 33 财 尔 空间 space u a α hole II without generating bubbles, so that the magnetic metal] is completely wealthy, through the above manufacturing method, the formed magnetic conductive 5 and Fig. 9 and Fig. (7) show that there is a hoof shop 51'. The bottom of the steel body 51 is provided with - magnetic conduction = 1 has a plurality of metal magnetic steels 5 which are exposed to the display 51 and are spliced with the butterfly 5 Applied to induction cooker heating, through ', mouth hole 1W 吏 the guide section (10) fine characteristics, the effect of Qing. In the shirt body 51, it is heated quickly. In summary, it is only a preferred embodiment of the present invention.
範圍,即凡依本發明申請專利範圍之内办,並非用來限定本發明之實施 本發明之赫範*#。 續$轉雜化與料,皆應為 1332825 【圖式簡單說明】 圖1,為習用導磁鋁鍋的製造流程圖。 圖2,為習用導磁鋁鍋的剖面製造示意圖。 圖3,為本發明導磁鋁鍋製造方法的流程圖。 圖4-1及圖4-2,為本發明中導磁金屬的外觀示意圖。 圖5至圖9,為本發明導磁鋁鍋製造步驟的示意簡圖。 圖10,為本發明中導磁鋁鍋成品的刳面示意圖。 【主要元件符號說明】 100.............導磁金屬 200 .............模具 300 .............鋁塊 1 ..............導磁金屬 11 ..............結合孔 12 ..............凸部 13 ..............第一定位端 14 ..............預留空間 2 ..............模具 21 ..............母模具 211.............第二定位端 22 ..............公模具 3 ..............鋁水 4 ..............鋁鍋 5 ..............導磁鋁鍋 51..............鍋體The scope, that is, the scope of the patent application of the present invention, is not intended to limit the implementation of the invention. Continued to turn the hybrid and material, should be 1332825 [Simple diagram of the diagram] Figure 1, is the flow chart of the manufacturing of the magnetic aluminum cooker. Fig. 2 is a schematic view showing the manufacture of a cross section of a conventional magnetic conductive aluminum pan. 3 is a flow chart of a method for manufacturing a magnetically conductive aluminum pan according to the present invention. 4-1 and 4-2 are schematic views showing the appearance of a magnetic conductive metal in the present invention. 5 to 9 are schematic diagrams showing the steps of manufacturing the magnetic conductive aluminum pan of the present invention. Figure 10 is a schematic view showing the surface of the magnetically conductive aluminum pan of the present invention. [Description of main component symbols] 100.............Magnetizing metal 200 .............Mold 300 ........... ..aluminum block 1 ..............magnetic metal 11 ..............bond hole 12 .......... .... convex 13 ..............first positioning end 14 ..............reserved space 2 ... ........Mold 21 ..............Female mold 211.............Second positioning end 22 ..... .........Male mold 3 ..............Aluminum water 4 ..............Aluminum pot 5 .... ..........Magnetizing aluminum pan 51..............pot body