五、新型說明: 【新型所屬之技術領域】 種能提供使用者依照需求替換 並達到降低模具製作成本及工 本創作-種沖_具結構,係在說明一 變更模塊組’以能賴料同尺寸之料件, 作時間。 【先前技術】 沖壓加工技術_猶謝屬物t剪、《、彎折、引伸和壓 缩等加工’進而製成各種4用及家庭用板金零件與製品。 、隨者科技的進步,沖壓加工技術的進步,所能應用的領域也越來越廣 泛’包括輸機械、飛機、汽車、機車、輪船、電子零件、電機、家電 和家俱等諸多產品零件的製造都採用沖壓加工技術,然關沖壓技術的進 步,逐漸取代了早_械加工品、鑄件、麵品及锻造品。 雖然賴加工她^步,可是卻還存有部分缺失,假如操作者欲要變 更製造同規格卻不同大小的零件尺寸,則必須將整組的沖顯具以予更 換,或者將料件換至另-尺寸的模具再進行加工賴,如此-來’會造成 正體成本的耗費,也就是必須備有多組不同尺寸之機械模具,且在其工作 ^ 1上因賴賊;^具而拖㈣間,進錢工作效率下降。故,現今的沖 壓每具%再有勤UX改良,並符合人辦使用,以增加卫具效率。 有知賴模具的缺失,本創作人利料多時間投人研究相關知 識’並加㈣較各項料,且相黯品的研究觸發,麵經多次實 驗。測4 %終於推出—種『沖顧具結構』,其係為了改善上習知技術 而導致工作效率 上,成本的耗費過於龐大,且在工作時間上會逐漸增加 逐漸下降等缺失。 【新型内容】 本創作主要目_降健具製造成本紅料間的㈣,且免 模具時所耗f的體力,其似善上述習知技術,要製造不同尺寸的零件,、 就必須將整賴具更換,_具成本_,且在工作時間與體力上會 增加多餘的耗費’導致工作鱗的降低等缺失。 錢成前述鑛之目的與功效,本創作—種沖壓模具結構,其包括有 一上模板'一下模板及一模塊組,其中: 該下模板間隔設置有-级组件及一定位塊,又該夹固组件係失抵固 定料件’而定位塊係提供料件推送入下模板後的定位; 該上模板相對位移於下模板上,且上模板包括有一上層板及—壓料 板’又該麵板組設於上層板—側錄於上層板與下模板之間; 該模塊組包括有-下模塊、一中模塊及一上模塊,該下模塊係裝設於 下模板並位於錢組件與定位塊之間,且下模塊設有一第一模孔及—第二 模孔,而財魏餘設於歸板且職下模塊,又該上模塊組設於上層 板且對應中模塊,且於上模塊另設有一沖頭,該上模板朝下模板下壓時, 該沖頭貫穿中模塊並朝下模塊的任一模孔沖壓; 據此,只需把模塊組拆卸離沖壓模具内,並轉換各模塊的設置方向, 或是更換另一模塊組,即得以快速且方便沖壓出不同尺寸或造型之料件。 本創作沖壓模具結構進一步包括有下列技術特徵: M443578 l.該下模塊一側凸設有二限位凸,且於該二限位凸之間形成有一限 位溝。 2 .該中模塊對應該二限位凸設有一閃避槽,又於閃避槽兩側並分別 對應第-模孔設有-第三模孔,以及對應第二模孔設有一第四模孔,該沖 頭朝中核塊邮三模孔或第四模孔貫穿,並朝下模塊所對應之第一模孔或 第二模孔下壓沖料。 3 ·上概對應帽塊的第三觀設有-第五模孔.,而上模塊對應中 鲁核塊的第四核礼設有一第六模孔,且沖頭係插設於第五模孔或第六模孔中 任一孔。 4進步於下模板周側且靠近央固組件具有一送料單元,而在下模 板„又有一間距《置之㈣導柱,且該㈣導柱介於送料單元與炎固組件之 間又爽固組件包括有一滑座與一固定塊,且於上模板對應滑座設有一推 /月鬼又於及定位塊δ又有一凸肋,且該凸肋係朝該二出料導柱之間凸設, 料件經由出料導柱之間’並朝定位塊的凸肋靠抵,而上模板朝下模板下壓 鲁時’歸塊魏滑座錄件_舰讀座定塊之間。 5 ·該下模板開設有一組裝槽,且該下模塊組設於組裝槽内,而位於 壓料板開设有-穿扎,該中模塊組設於穿孔内,又於上層板開設有一定位 槽,且上模塊係組設於定位槽,藉由組裝槽、穿孔與定位槽的設置,使各 模塊可快速拆、裝於沖壓模具内。 因此本創作可說是-種相當具有實用性及進步性之創作,相當值得產 業界來推廣,並公騎社會大眾,使其社會更進步。 5 M443578 【實施方式】 為了達成上述能有效降低模具成本, 作效率的提升’而主要有關其功效及特點, 單實施例說明。 請參閱第一圖至第三圖所示,本創作一 且節省工作時間與體力 ,達到工 ,以搭配下列各相關圖式作一簡 種沖壓模具結構,其包括有一 上模板(1) ' 一下模板(2)及一模塊組(3),其中: 該下模板(2)間隔設置有一失固組件(21 _ 失固組件(21)及-定位塊(22),又該夾固組 件(21)係夾抵固定料件⑷’而定位塊(22)係提供料件⑷推送人下模板⑵ 後的定位;V. New description: [New technology field] The product can provide users with the need to replace and reduce the cost of mold production and the creation of the work---------------------------------- Material, time. [Prior Art] Stamping technology _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ With the advancement of technology, the advancement of stamping processing technology, the field of application can be more and more widely, including the manufacture of many parts such as machinery, aircraft, automobiles, locomotives, ships, electronic parts, motors, home appliances and furniture. They all use stamping processing technology, and the progress of stamping technology has gradually replaced early-machined products, castings, noodles and forged products. Although she is processing her steps, there are still some missing. If the operator wants to change the size of the parts of the same size but different sizes, the entire set of punches must be replaced or replaced. Another-size mold is processed again, so - it will cause the cost of the body, that is, must have a number of different sizes of mechanical molds, and in their work ^ 1 because of the thief; ^ and drag (four) In the meantime, the efficiency of money-making work has decreased. Therefore, today's pressure is reduced by UX and is suitable for people to use to increase the efficiency of the implement. Knowing that the mold is missing, the creator is willing to invest more time in researching relevant knowledge' and adding (4) more materials, and the research of the related products is triggered, and many experiments have been carried out. The measurement of 4% has finally been introduced - a kind of "care structure", which is used to improve the work efficiency, the cost is too large, and the working time will gradually increase and gradually decline. [New content] The main purpose of this creation is to reduce the physical strength of the plastics during the manufacture of the red material (4), and to avoid the physical strength of the mold, which is similar to the above-mentioned conventional technology. To manufacture parts of different sizes, it is necessary to The replacement of the rig, _ has cost _, and will increase the extra cost in working hours and physical strength 'causing the loss of work scales and other missing. The purpose and effect of the above-mentioned mines, the creation of a stamping die structure, comprising an upper template 'a template and a module group, wherein: the lower template is provided with a -level component and a positioning block, and the clamping The component is lost to the fixed material part and the positioning block provides the positioning after the material is pushed into the lower template; the upper template is relatively displaced on the lower template, and the upper template includes an upper layer and a pressure plate and the panel The group is set on the upper board—the side is recorded between the upper board and the lower board; the module group includes a lower-lower module, a middle-module and an upper module, and the lower module is installed in the lower template and is located in the money component and the positioning block. The lower module is provided with a first die hole and a second die hole, and the financial module is disposed on the board and the lower module, and the upper module group is disposed on the upper layer and corresponds to the middle module, and the upper module Further, a punch is provided, and when the upper template is pressed down the template, the punch penetrates through the middle module and is punched toward any of the die holes of the lower module; accordingly, the module group only needs to be disassembled from the stamping die, and each is converted Setting the direction of the module, or replacing another Block group, i.e. to quickly and easily punched out material of different size or shape. The stamping die structure of the present invention further includes the following technical features: M443578 l. The lower side of the lower module is convexly provided with two limiting protrusions, and a limiting groove is formed between the two limiting protrusions. 2. The middle module has a doffering groove corresponding to the second limiting position, and a third die hole corresponding to the first die hole and a fourth die hole corresponding to the second die hole respectively on the two sides of the doping groove, The punch penetrates through the three-mold hole or the fourth die hole of the middle core block, and presses the material toward the first die hole or the second die hole corresponding to the lower module. 3 · The third view of the corresponding cap block is provided with a fifth die hole, and the fourth core hole of the upper module corresponding to the middle nuclear block is provided with a sixth die hole, and the punch is inserted in the fifth die Any of the holes or the sixth die hole. 4 progressing on the peripheral side of the lower template and having a feeding unit near the central solid component, and in the lower template „there is a spacing (the fourth guiding column), and the (four) guiding column is between the feeding unit and the inflammatory component and the cooling component The utility model comprises a sliding seat and a fixing block, and a sliding/moon ghost is arranged on the corresponding sliding seat of the upper template, and a positioning rib has a rib, and the convex rib is protruding between the two discharging guide columns. The material passes between the discharge guide columns and abuts against the ribs of the positioning block, and the upper template is pressed downwards toward the lower template, and the block is between the Wei slider recordings and the ship reading block. The lower template is provided with an assembly slot, and the lower module is disposed in the assembly slot, and the pressure plate is open-punched. The middle module is disposed in the through hole, and a positioning slot is formed in the upper layer, and the upper plate is opened. The module is set in the positioning slot. By assembling the groove, the perforation and the positioning groove, each module can be quickly disassembled and installed in the stamping die. Therefore, this creation can be said to be a kind of practical and progressive creation. It is quite worthy of promotion by the industry and public riding the public to make its society more progressive. 5 M443578 [Embodiment] In order to achieve the above, the efficiency of the mold can be effectively reduced, and the efficiency is improved, and the effect and characteristics are mainly related to the single embodiment. Please refer to the first to third figures. Save working time and physical strength, and achieve a simple stamping die structure with the following related drawings, including an upper template (1) 'a template (2) and a module group (3), wherein: The template (2) is provided with a lost component (21 _ lost component (21) and a positioning block (22), and the clamping component (21) is clamped against the fixed material (4)' and the positioning block (22) is Providing the positioning of the material (4) after pushing the lower template (2);
(11)及-㈣板(12) ’又該壓料板(12)組設於上層板(11)—側且位於上層 板(11)與下模板(2)之間; 該模塊組(3)包括有一下模塊(31)、一中模塊(32)及一上模塊(33),該 下模塊(31)係裝設於下模板(2)並位於夾固組件(21)與定位塊(22)之間,且 下模塊(31)設有一第一模孔(311)及一第二模孔(312),而該中模塊(32)係 組設於壓料板(12)且對應下模塊(31),又該上模塊(33)組設於上層板(11) 且對應中模塊(32),且於上模塊(33)另設有一沖頭(331),該上模板(1)朝 下模板(2)下壓時,該沖頭(331)貫穿中模塊(32)並朝下模塊(31)的第一模 孔(311)或第二模孔(312)沖壓; 據此’只需把模塊組(3)拆卸離沖壓模具内,並轉換各模塊的設置方 向’或是更換另一模塊組(3),即得以快速且方便沖壓出不同尺寸或造型之 料件(4)(前述為本創作主實施例之主要技術特徵,其對應本案申請專利範 M443578 圍第一項的内容,得以詳知本創作之目的與實施型態,而其餘附屬申請專 利範圍所述的技術特徵是為對申lt專利範圍第一項内容的詳述或附加技術 特徵,而非用以限制申請專利範圍第一項的界定範圍,應知本案申請專利 範圍第一項不必要一定包含其餘附屬申請專利範圍所述的技術特徵)。 為了使料件(4)推送入沖壓模具内可穩固設置,在該下模塊(31)一側凸 設有二限位凸(313),且該二限位凸(313)係朝中模塊(32)設置方向凸伸, 又於一限位凸(313)之間形成有一限位溝(314),當料件(4)經推送並由限位 溝(314)穿設而過,二限位凸(313)係靠抵於料件(4)兩側,以限制料件(4) 在推送或加工時發生偏移的情況。 在進行沖壓加工時’為了方便設於上模塊(33)的沖頭(331)能順暢朝料 件(4)下沖,在中模塊(32)對應下模塊(31)的第一模孔(311)設有一第三模 孔(321),而中模塊(32)對應第二模孔(312)設有一第四模孔(322),又上模 塊(33)對應中模塊(32)的第三模孔(321)設有一第五模孔(332),且上模塊 (33)對應中模塊(32)的第四模孔(322)設有一第六模孔(333),該沖頭(331) 係插6又於第五板孔(332)或第六模孔(333)中任一孔,.而中模塊(32)與下模 塊(31)的各模孔則依照沖頭(331)的尺寸而有所變更,例如依照第二圖所 示,第一模孔(311)、第三模孔(321)及第五模孔(332)的尺寸皆為一致,第 二模孔(312)、第四模孔(322)及第六模孔(333)的尺寸皆為一致,且二組模 孔之尺寸為一大一小,當沖壓需為小尺寸時,沖頭(331)即插設於上模塊(33) 的第六模孔(333),而中模塊(32)對應沖頭(331)大小則使用第四模孔 (322),下模塊(31)則使用第二模孔(312); 續請參閱第四圖所示,又當沖壓需為大尺寸時,沖頭(331)即插設於上 7 M443578 核塊(33)的第五模孔(332),而巾模塊(32)及下模塊(31)則必須隨著沖頭 (331)尺寸的變更而改變裝設方向,聽合沖頭(331)沖驗大尺寸之料件 (4) ’藉由在同-模塊上設有二種不同大小尺寸之模孔,提供使用者無須耗 費時間與體力來整赠_具,且達職料力之姐(上祕以說明 本創作各模塊领個者絲而替換或變更,亦或裝設有兩支不同尺寸之 沖頭(331)以沖壓出兩種不同之尺寸料件⑷,而並非用以限定各模孔的大 小)。 又根據上述職明’除了模塊組⑶的各模塊對應沖頭(331)開設有模 儿’得以使沖頭(331)能下沖順暢’在中模塊(32)對應下模塊(31)的二限位 凸(313)係凹設有一閃避槽(323),且閃避槽(323)兩側分別為第三模孔(321) 與第四模孔(322) ’當壓料板(12)朝下模板(2)下壓時,下模塊(31)的二限 位凸(313)藉由中模塊(32)的閃避槽(323)設置,使下模塊(31)的二限位凸 (313)置入閃避槽(323)内,避免二限位凸(313)受中模塊(32)的撞擊而壞 損。 請參閱第二圖所示,本創作為了進一步使料件(4)在進行推送和打料 時,能穩固置於沖壓模具内,在下模板(2)周側且靠近失固組件(21)具有一 送料單元(5),而該下模板(2)上設有二間距設置之出料導柱(23),該出料 導柱(23)介於送料單元(5)與夾固組件(21)之間,該夾固組件(21)包括有一 滑座(211)與一固定塊(212),而上模板(1)對應滑座(211)設有一推滑塊 (111),又於該定位塊(22)設有一凸肋(221) ’且該凸肋(221)係朝下模塊(31) 的二限位凸(313)方向凸伸,當送料單元(5)將料件(4)朝出料導柱(23)之間 輸送,並朝定位塊(22)的凸肋(221)靠抵,而上模板(1)朝下模板(2)下壓 M443578 時,推滑塊(111)推抵滑座(211)使料件(4)穩固夹抵於滑座(211)與固定塊 (212)之間。 根據上述所說明組設於下模板(2)的各組件,現於下列詳細說明沖壓之 步驟,且請參閱第五圖至第九圖所示: 1 .首先利用送料單元(5)將料件(4)朝沖壓模具内推送,且料件(4)由 一出料導柱(23)之間的間距穿設,並朝定位塊(22)設置方向推送,且抵頂 於定位塊(22)的凸肋(221)。 2 ·當料件(4)抵頂定位塊(22)的凸肋(221)後,上模板(1)朝下模板(2) 下壓,而上模板(1)的壓料板(12)先碰抵於料件(4)的上端面。. 3 .又壓料板⑽碰抵料件⑷後,上模板⑴#的上層板(⑴接續墨料 板(12)朝下模板⑵沖壓,而上層板⑴)的下壓連同上模塊(33)沖頭⑽) 朝置於下模塊(31)的料件⑷下沖,且沖頭(331)由中模塊(32)所對應之模 孔貫穿,而在同-作動下,位於上層板⑴)的推滑塊〇11)推抵滑座(2⑴, 使其滑座(211)與固定塊(212)夾抵料件⑷的周側以予固定。 4 .當上層板(11)施予沖頭(331)下沖之力道,沖頭(331)能快速且穩 固朝料件⑷沖Μ,而料件⑷藉由沖頭⑽)的下沖,進_步沖打出與下模 塊(31)的模孔相同之形狀,且沖打後的料件⑷則由模孔内掉落出。 5 .最後’藉由送料單元⑸的推送,料件⑷持續朝沖顧具内推送, 而在上模板⑴喊設有—雜組⑹,麟雜_)設置介於上層板⑴) 顏料板⑽之間,藉由彈性組⑹組設於上層板⑴)麵料板⑽之間, 因上層板⑼灯錢得雜_)麵赵雜#力,而上難 彈性蓄力而持續反覆朝下模板⑵孩,進行沖壓打料之作動。 9 M443578 上述係為本創作之沖壓作動步驟,而為了達到方便使用者能依照需求來 製造零件,其模塊組(3)的各模塊在拆、裝相較就顯的更為重要,而本創作 在下模板(2)開設有一組裝槽(24),且下模塊(31)組設於組裝槽(24)内,而 位於壓料板(12)開設有一穿孔(121),該中模塊(32)組設於穿孔(121)内, 又於上層板(11)開設有一定位槽(112),且上模塊(33)係組設於定位槽(112) 内,藉由在沖壓模具内設有組裝槽(24)、穿孔(121)與定位槽(112),使模 塊組(3)的各模塊得以快速組裝定位於沖壓模具内,且達到簡易拆、裝之功 效0 由上所述者僅為用以解釋本創作之較佳實施例,並非企圖據以對本創 作做任何形式上之限制’是以,凡有在_之創作精神下所做有關本創作 之任何修飾或變更者’為其他可據以實施之型態且具有相同效果者,皆仍 應包括在本發明意圖保護之範疇内。 綜上所述,本創作「沖顧具結構」,其實用性及成本效益上,確實是 完全符合產紅發展所需,續揭露之賴_亦是具有麵未有的創朝 構造,树具有「_性」應無疑慮,又本創作可較制之結構更呈功 效之增進’因此亦具有「進步性」,其完全符合_專利法有關發明專利之 申請要件的規定,膽法提起專利申請,麵請柄早日審查,並 肯定。 【圖式簡單說明】 第一圖係本創作沖壓模具立體示意圖。 第二圖係本創作沖壓模具立體分解示意圖。 第三圖係本創作上模板與下模板立體分解示意圖。 M443578 第四圖係本創作模塊組轉向變換之沖壓模具立體分解示音圖。 第五圖係本創作料件尚未推送入沖麵具内之剖面示意圖。 第六圖係本創作料件推送人賴模具内,且抵頂於定位塊的凸肋之剖 面作動示意圖。 第七圖棘辦料件推送人沖麵具内之下模板舰示意圖。 第八圖係本創作上模板之壓料板壓抵料件剖面作動示意圖。 第九圖係本創作上層板下壓,且上模塊之沖頭沖壓料件之剖面作動示 意圖。 【主要元件符號說明】 上模板(1) 上層板(11) 推滑塊(111) 定位槽(112) 壓料板(12) 穿孔(121) 下模板(2) 夾固組件(21) 滑座(211) 固定塊(212) 定位塊(22) 凸肋(221) 出料導柱(23) 組裝槽(24) 模塊組(3) 下模塊(31) 第一模孔(311) 第二模孔(312) 限位凸(313) 限位溝(314) 中模塊(32) 第三模孔(321) 第四模孔(322) 閃避槽(323) 上模塊(33) 沖頭(331) 11 M443578 第五模孔(332) 第六模孔(333) 料件(4) 送料單元(5) 彈性組(6) 12(11) and - (4) plate (12) 'The pressure plate (12) is further disposed on the upper plate (11) side and between the upper plate (11) and the lower plate (2); The utility model comprises a lower module (31), a middle module (32) and an upper module (33), wherein the lower module (31) is mounted on the lower template (2) and is located at the clamping component (21) and the positioning block ( 22), and the lower module (31) is provided with a first die hole (311) and a second die hole (312), and the middle module (32) is assembled on the pressure plate (12) and correspondingly The module (31), the upper module (33) is disposed on the upper layer (11) and corresponds to the middle module (32), and the upper module (33) is further provided with a punch (331), the upper template (1) When the downward template (2) is pressed down, the punch (331) penetrates the middle module (32) and is punched toward the first die hole (311) or the second die hole (312) of the lower module (31); Simply remove the module group (3) from the stamping die and change the setting direction of each module' or replace another module group (3), which can quickly and easily punch out different sizes or shapes of materials (4) (The foregoing is the main technical feature of the author's embodiment, which corresponds to the first application patent model M443578 The content of the creation can be understood in detail, and the technical features described in the remaining scope of the patent application are detailed or additional technical features of the first content of the patent application scope, and are not intended to be limiting. In the scope of the definition of the first paragraph of the patent application scope, it should be noted that the first item of the scope of patent application in this case does not necessarily contain the technical features described in the scope of the remaining subsidiary patents). In order to push the material member (4) into the stamping die, the second limiting piece (313) is convexly disposed on one side of the lower module (31), and the two limiting protrusions (313) are facing the middle module ( 32) setting the direction protrusion, and forming a limit groove (314) between the limit protrusions (313), when the material piece (4) is pushed and passed through the limit groove (314), the second limit The positional projections (313) are placed against the sides of the material member (4) to limit the deviation of the material member (4) during pushing or machining. When performing the stamping process, the punch (331) provided for the upper module (33) can be smoothly punched toward the material member (4), and the middle module (32) corresponds to the first die hole of the lower module (31) ( 311) a third die hole (321) is provided, and the middle module (32) is provided with a fourth die hole (322) corresponding to the second die hole (312), and the upper module (33) corresponds to the middle module (32) The third die hole (321) is provided with a fifth die hole (332), and the upper die (322) corresponding to the middle die (322) of the middle module (32) is provided with a sixth die hole (333), the punch ( 331) The plug 6 is further in any one of the fifth plate hole (332) or the sixth die hole (333), and the die holes of the middle module (32) and the lower module (31) are in accordance with the punch (331). The size of the ) is changed. For example, according to the second figure, the first die hole (311), the third die hole (321), and the fifth die hole (332) are all the same size, and the second die hole ( 312), the fourth die hole (322) and the sixth die hole (333) are all the same size, and the size of the two die holes is one big and one small, when the punching needs to be a small size, the punch (331) That is, the sixth die hole (333) is inserted in the upper module (33), and the middle module (32) is corresponding to the size of the punch (331). The fourth die hole (322) and the lower module (31) use the second die hole (312); Continuation, as shown in the fourth figure, and when the stamping needs to be large, the punch (331) is inserted in The fifth die hole (332) of the upper 7 M443578 core block (33), while the towel module (32) and the lower module (31) must change the mounting direction as the size of the punch (331) changes, listening to the punch The head (331) rushes to check the large-sized material (4) 'By providing two different sizes of die holes on the same-module, the user can provide the user with no time and effort to get a gift. The sister of the material force (the secret is to replace or change the wire of each module of the creation, or two punches of different sizes (331) are installed to punch out two different sizes of materials (4), and It is not intended to limit the size of each die hole). In addition, according to the above-mentioned job description, in addition to the module (3) of the module group (3), the corresponding punch (331) is provided with a mold to enable the punch (331) to be flushed smoothly [in the middle module (32) corresponding to the lower module (31) The limiting protrusion (313) is recessed with a dodging groove (323), and the two sides of the dodging groove (323) are a third die hole (321) and a fourth die hole (322) respectively. When the pressure plate (12) faces When the lower template (2) is pressed, the second limit protrusion (313) of the lower module (31) is set by the dodging slot (323) of the middle module (32), so that the second module of the lower module (31) is convex (313). ) is placed in the dodge slot (323) to prevent the second limit protrusion (313) from being damaged by the impact of the middle module (32). Referring to the second figure, in order to further enable the material (4) to be pushed and fed, it can be stably placed in the stamping die, on the side of the lower die plate (2) and close to the lost component (21). a feeding unit (5), wherein the lower template (2) is provided with a two-pitch discharge guide post (23), and the discharge guide post (23) is interposed between the feeding unit (5) and the clamping component (21) Between the two, the clamping assembly (21) includes a sliding seat (211) and a fixing block (212), and the upper template (1) corresponding slider (211) is provided with a pushing slider (111), and The positioning block (22) is provided with a rib (221) ' and the rib (221) protrudes in the direction of the second limiting protrusion (313) of the lower module (31), when the feeding unit (5) feeds the material (4) ) is transported between the discharge guide columns (23) and abuts against the ribs (221) of the positioning block (22), and when the upper template (1) is pressed down the M443578 toward the lower template (2), the slider is pushed ( 111) Pushing against the carriage (211) securely clamps the material member (4) between the carriage (211) and the fixed block (212). According to the components described above which are arranged in the lower die plate (2), the steps of stamping are described in detail below, and please refer to the fifth to ninth figures: 1. First, the feeding unit (5) is used to feed the parts. (4) Pushing into the stamping die, and the material member (4) is pierced by the spacing between the discharge guide columns (23), and is pushed toward the positioning block (22), and is placed against the positioning block (22). The rib (221). 2 · When the material (4) abuts the rib (221) of the top positioning block (22), the upper template (1) is pressed down the lower template (2), and the pressing plate (12) of the upper template (1) First touch the upper end surface of the material (4). 3. After the pressing plate (10) hits the material (4), the upper plate of the upper die plate (1)# ((1) the ink plate (12) is pressed toward the lower die plate (2), and the lower plate (1) is pressed down together with the upper module (33). The punch (10) is punched toward the material (4) placed on the lower module (31), and the punch (331) is penetrated by the die hole corresponding to the middle module (32), and under the same-action, is located on the upper plate (1) The push slider 〇 11) is pushed against the slide (2 (1) so that the slide seat (211) and the fixed block (212) are clamped to the circumferential side of the retaining member (4) to be fixed. 4. When the upper plate (11) is applied The punch (331) is under the force of the punch, the punch (331) can be quickly and stably rushed toward the material (4), and the material (4) is punched out and the lower module by the undershoot of the punch (10). The die holes have the same shape, and the punched material (4) is dropped from the die holes. 5. Finally, by the push of the feeding unit (5), the material (4) continues to push into the tool, while the upper template (1) is shouted with - miscellaneous (6), and the argon _) is set between the upper plate (1) and the pigment plate (10) Between the fabric panels (10) set by the elastic group (6) in the upper layer (1), because the upper layer (9) is lightly mixed with the _) surface, and the upper and lower templates are continued. Child, the action of stamping and feeding. 9 M443578 The above is the stamping action step of the creation, and in order to facilitate the user to manufacture the parts according to the requirements, the modules of the module group (3) are more important in the disassembly and assembly, and the creation is more important. An assembly slot (24) is defined in the lower template (2), and the lower module (31) is disposed in the assembly slot (24), and a through hole (121) is defined in the pressure plate (12), and the middle module (32) The positioning hole (112) is disposed in the upper plate (11), and the upper module (33) is assembled in the positioning groove (112), and is assembled in the stamping die. The groove (24), the perforation (121) and the positioning groove (112) enable the modules of the module group (3) to be quickly assembled and positioned in the stamping die, and the functions of the simple disassembly and assembly are achieved. The preferred embodiment for explaining the present invention is not intended to impose any form of restriction on the creation of the author's own. Anyone who makes any modification or change in the creation of the creation in the spirit of creation is 'other According to the type of implementation and the same effect, it should still be included in the intention of the present invention. Within the domain. To sum up, the practicality and cost-effectiveness of this creation, which is in line with the practicality and cost-effectiveness, is indeed in full compliance with the development of the production of red, and the continuation of the disclosure is also a non-existent creation of the dynasty. "_sex" should be undoubtedly considered, and this creation can be more effective in improving the structure of the system. Therefore, it is also "progressive". It fully complies with the provisions of the patent law relating to the application requirements of invention patents, and makes a patent application. Please ask for an early review and be sure. [Simple description of the drawing] The first picture is a three-dimensional schematic diagram of the stamping die of this creation. The second picture is a three-dimensional exploded view of the stamping die of this creation. The third figure is a schematic exploded view of the template and the lower template. M443578 The fourth picture shows the stereo decomposition of the stamping die of the transformation module of this creation module group. The fifth picture is a schematic cross-sectional view of the original material that has not been pushed into the punch mask. The sixth figure is a schematic diagram of the movement of the ribs in the mold piece and the ribs of the locating block. The seventh figure shows the schematic diagram of the template ship under the mask. The eighth figure is a schematic diagram of the cross-section of the pressing plate of the template on the creation of the template. The ninth figure is the lowering of the upper layer of the creation, and the cross-section of the stamping material of the upper module is shown. [Main component symbol description] Upper template (1) Upper plate (11) Push slider (111) Positioning groove (112) Pressure plate (12) Perforation (121) Lower template (2) Clamping assembly (21) Slide (211) Fixed block (212) Positioning block (22) Rib (221) Discharge guide (23) Assembly groove (24) Module group (3) Lower module (31) First die hole (311) Second mode Hole (312) Limiting convex (313) Limiting groove (314) Medium module (32) Third die hole (321) Fourth die hole (322) Dodge slot (323) Upper module (33) Punch (331) 11 M443578 Fifth die hole (332) Sixth die hole (333) Material (4) Feed unit (5) Elastic group (6) 12