200909164 九、發明說明: 【發明所屬之技術領域】 狀物,同時可以大幅 本發明涉及-種同時具備裁切與堆疊片 減少廢料的機器。 【先前技術】 電池的構祕純財正極、貞 =須:=殼内_ •為=== 而該吸收元======吸收元件, =:ί在可_的外殼’而正極導電柄則固定 外盍’因蚊得電解液能接_正極與負極,並形成電流 +所述吸收7〇件包含有正極料、貞極薄麟隔賴,該隔離 膜位於正、負極薄膜之間以避免正、負極接觸發生短路;其中的 正極薄膜結合所述正極導電柄,而負極薄賴結合負極導電柄。 傳統上對於魏元件的製造方^,是以馳減料續的正、負 極薄膜與隔離麟成筒狀,並將其壓成扁狀後再置人外殼内;但 因為以捲繞方式所製成的吸收元件體雜大,因而後來有些廢商 將所述正、負極薄膜直接裁切成單片式,將該些裁切下來的正、 負極薄膜片交錯堆疊起來,且正、負極薄膜片間以隔離膜予以隔 離,再置入外殼内,並於外殼内注入電解液。 基於需要連接正、負極導電柄的原因,所述製造電池用的薄 狀/7 la第才汉成d為如第七圖所示的成型片Α1。此外’習知用來 製造該成型片A1的方式是利用沖模來完成;因此,連續形態的 200909164 片狀物A經由輸送通過沖模進行沖製成型時,必齡如第七圖 所示地使成型片A1以外的片狀物A成為廢料,大大地提高了材 料成本。再者,其沖壓成型後的薄片還必須以另—製程來進行堆 宜工作’亦無法進—步提昇生產效率與降低時間及人工成本。 此外,其它非電池用的片狀物若需要成型特定形狀時, 有前述相同的問題。 【發明内容】 本發明的主要目的在於解決沖模將片狀物成型為特定形 狀時,會產生大量廢料,且成型後的成型片賴以另_製程來堆 疊,以致於材料成本、時間成本與人工成本均無法降低的缺失。 本發明的其巾—技射縣於提供具有制成㈣輪廊形狀 的极刀及刀座,利用送料單元將呈連續形態的片狀物輸送至模刀 與刀座之糾,賴刀顧於刀麵動時軸下來成為 成型片’同時使該成型片直減人堆疊模座中依序_,由於刀 座的設置’每-成㈣可以呈連接的方式直接從片狀物上裁切下 來(如第六圖所示)’進而大幅減少廢料的產生。 本發明的另-技術手段在料含有二組切模單元盘—堆最模 座,該堆疊模座包括有-刀座和—成則堆疊座,所述堆^座 受到一滑座控制何往復義,從而使該堆麵座❹座往復地 切模單元的模刀位置;該二組模刀則將相對應的兩組 ^狀物裁切下來,並且經由刀座落人成型片堆疊座中進行堆疊, 丄2賴座往復㈣至二組切模單元的位置,所以兩組片狀物 乂替地堆疊於成型片堆疊座中。 並利用第三送料單元將所述1二=::=堆 200909164 疊模座中’藉由堆疊模座往復移動,在裁切第—片狀物及第二片 狀物的同時’第三片狀物s型纏繞第__片狀物及第二片狀物,旅 且讓第二片狀物將第—與第二片狀物予以隔離。 本發明的特點’主要在於利用模刀裁切的方式取代習知利用 沖杈來成型片狀物,並且利用堆疊模座往復移動來交替模刀所裁 切的片狀物,使得不同的片狀物得以依序交錯的堆疊,因此較傅 統利用沖模成型的方式可以減少廢料的產生,且成型、堆疊的時 間與人力均較傳統的沖模方式更為減少,因而得以降低製造成 ° 【實施方式】 以下配合圖式及元件符號對本發明的實施方式做更詳細的說 明’俾使熟習該項技術者在研讀本說明書後能據以實施。 第一圖與第二圖係顯示利用本發明來裁切與堆疊電池用之吸 收元件的裝置,圖中顯示該實施例包括有一裁切單元1、一堆疊 模座4、第一至第三送料單元2、2,與2”以及第一至第三解料單 元3、3’與3”;其中的裁切單元1進一步包含有兩組切模單元u 與11’ ’堆疊模座4則設置在裁切單元1的下方。圖一中所示的 實施例是將第三解料單元3”與第三送料單元2”設置在中央位置 的上方與下方,而所述的第一、二解料單元3、3,;第一、二送 料單元2、2,與切模單元11、11’則設在以該第三解料單元3,為 中心的對稱位置。所述第一至第三解料單元3、3,、3”分別是用 來安置第一至第三片狀物ό、6’、6”的單元;在本實施例中,該 第一片狀物至第三片狀物6、6’、6”分別是製造電池用的負極薄 膜、正極薄膜與隔離膜;該第一至第三片狀物6、6,、6”係呈連 續的薄片狀物並捲繞安裝在所述第一至第三解料單元3、3,、3” 200909164 上’再分別通過第—至第三送料單元2、2’、 ^所述各送料翠元2、2,、2”主要是一種可以對=至裁二早凡 夾持及輸送的機構,藉 狀物進灯 於該㈣n 輸所述之裁切單元1 ·,由 ^送料70 2、2,、2,,的機構並非本發_求的託,故針於 該機構不做詳細說明。 ㈣點,故對於 u、= 迷細^元1進—步包括有二組設在對稱位置的切模單元 的模刀、U’姑㈣树叙舰輪廟 13和核刀13、13’旁邊設有的壓掣塊12、12,,該模 與壓細、12,受到動力元件驅動而做垂直方向:主 f線運動’藉以將片狀物裁切成鼓的形狀;所述動力元件可200909164 IX. INSTRUCTIONS: [Technical field to which the invention pertains] At the same time, it is possible to substantially enlarge the present invention to a machine which simultaneously has a cutting and stacking sheet to reduce waste. [Prior Art] The structure of the battery is pure and positive, 贞 = must: = inside the shell _ • = == and the absorption element ====== absorption element, =: ί in the shell of the _ and the positive electrode is conductive The handle is fixed to the outer 盍 'Insect mosquito electrolyte can be connected _ positive and negative, and the current is formed + the absorption 7 包含 contains the positive electrode material, the 贞 薄 , , , , , , , , , , , , , , , , , , To avoid short circuit between the positive and negative electrodes; the positive electrode film is combined with the positive electrode conductive handle, and the negative electrode is thinned to bond with the negative electrode conductive handle. Traditionally, the manufacturing method of the Wei component is to form a tubular film of the positive and negative electrodes and the separation of the lining, and press it into a flat shape, and then placed in the outer casing; The absorbing element body is so large that some of the negative and negative electrode films are directly cut into a single piece, and the cut positive and negative film sheets are alternately stacked, and the positive and negative film sheets are stacked. The isolation is separated by a separator, placed in the outer casing, and the electrolyte is injected into the outer casing. The thin film / 7 la is a molded piece 1 as shown in the seventh figure, for the reason that it is necessary to connect the positive and negative conductive handles. Further, the conventional method for manufacturing the molded piece A1 is performed by using a die; therefore, when the continuous form of 200,909,164 pieces A is punched and formed by transporting through a die, the age is as shown in the seventh figure. The sheet A other than the molded piece A1 becomes a waste material, which greatly increases the material cost. Furthermore, the stamped and formed sheets must be stacked in a separate process. It is also impossible to further improve production efficiency and reduce time and labor costs. Further, other non-battery sheets have the same problems as described above if they are required to be molded into a specific shape. SUMMARY OF THE INVENTION The main object of the present invention is to solve the problem that when a die is formed into a specific shape, a large amount of waste is generated, and the formed molded piece is stacked by another process, so that material cost, time cost, and labor The lack of cost can not be reduced. The towel of the present invention, the technical county, provides a pole knife and a knife seat having a shape of a (four) wheel gallery, and uses a feeding unit to convey the sheet in a continuous form to the cutter knife and the knife seat. When the knives move, the shaft becomes the forming piece' at the same time, and the forming piece is directly reduced in the stacking mold base. _, because the setting of the knives 'every-four (four) can be cut directly from the sheet (as shown in Figure 6) 'and thus significantly reduce the production of waste. Another technical means of the present invention comprises two sets of die-cutting unit discs - stacking mold bases, the stacking mold bases comprising - knife holders and - forming stacking seats, the stacking blocks being controlled by a sliding seat Meaning, so that the stacking seat seat reciprocates the die cutter position of the die cutting unit; the two sets of die cutters cut the corresponding two sets of the shape, and drop the molded piece stacking seat through the knife seat The stacking is carried out, and the two sets of sheets are reciprocated (four) to the position of the two sets of die cutting units, so that two sets of sheets are stacked in the forming piece stacking seat. And using the third feeding unit to use the third feeding unit:::=reactor 200909164 in the stacking block to reciprocate by stacking the mold base, while cutting the first sheet and the second sheet while the third piece The s-shaped wraps the __sheet and the second sheet, and the second sheet is separated from the first sheet by the second sheet. The feature of the present invention is mainly to replace the conventional use of punching to form a sheet by means of a die cutter, and to reciprocate the stacked die holder to alternate the cut pieces of the die cutter so that different sheets are formed. The material can be stacked in a staggered manner, so that the use of the die forming method can reduce the generation of waste materials, and the molding and stacking time and manpower are reduced more than the conventional die mode, thereby reducing the manufacturing into °. The embodiments of the present invention will be described in more detail below with reference to the drawings and the components and symbols, which can be implemented by those skilled in the art after studying this specification. The first and second figures show a device for cutting and stacking the absorbing elements for a battery using the present invention, which shows that the embodiment includes a cutting unit 1, a stacking die holder 4, and first to third feedings. Units 2, 2, and 2" and first to third dissolving units 3, 3' and 3"; wherein the cutting unit 1 further comprises two sets of die-cutting units u and 11'' Below the cutting unit 1. The embodiment shown in Figure 1 is such that the third and third dosing units 3" and "3" are disposed above and below the central position, and the first and second dissolving units 3, 3, The first and second feeding units 2, 2 and the cutting unit 11, 11' are disposed at a symmetrical position centered on the third dissolving unit 3. The first to third dissolving units 3, 3, 3" are units for arranging the first to third sheets ό, 6', 6", respectively; in the embodiment, the first sheet The third to sixth sheets 6, 6', 6" are respectively a negative electrode film for producing a battery, a positive electrode film and a separator; the first to third sheets 6, 6, and 6" are continuous. Sheets are wound and mounted on the first to third dissolving units 3, 3, 3" 200909164 and then passed through the first to third feeding units 2, 2', ^ respectively 2, 2, 2" is mainly a mechanism that can hold and transport the = to the second, and the light is fed into the cutting unit 1 of the (4) n, and the feeding 70 2 The organization of , , 2,, is not the support of this issue, so the needle does not elaborate on this institution. (4) Point, so for u, = fanding ^ yuan 1 step - including two sets of die cutters in the symmetrical position of the die cutter, U' Gu (four) tree Xuanyuan Temple 13 and nuclear knife 13, 13' next to The pressing block 12, 12 is provided, and the die and the pressing die 12 are driven by the power component to be in a vertical direction: the main f-line motion 'to cut the sheet into the shape of the drum; the power component can be
Si:壓=油壓缸’藉由氣壓或油壓控制而使模刀對片狀物進 廓ί= 圖至第五靖斤示,該模刀13、13,的端面輪 ^應成型片61輪廓形狀的封閉形態,因而在模刀進行裁切 片狀物形成對應形狀的成型片。壓擎塊12、-分 觸於苐—與第二片狀物6、6,上面,所述模刀13、13,在對第 二片狀物6、6,進行裁切時,可避免第—與第二片狀物6、 、移動第-片狀物6與第二片狀物6,係分別在水平狀態下 通過第-送料單元2與第二補單元2,後分別進人域單元 的卫作區’而第二片狀物6則是在垂直狀態下通過第三送 料單元2’’後進入堆疊模座4。 、 所述堆疊模座4係設在誠切單元1的下方,該堆疊模座4 包含刀座4卜-成型片堆疊座42和_滑座43。該刀座41 可供前述模刀13、13,伸人且具有對應該模刀的輪_狀,該成 型片堆叠座42可容納裁切下來的成型片於其中加以堆疊,該刀 座W設於該成型轉疊座42之上’該滑座43可驅動^堆^模 座4於切模單元u與n,的工作區下方往復_,亦即刀座μ 200909164 隨著成型片堆疊座42 對應該二組模刀〗3、 對具有動力的滑軌5, 方向相互垂直(如第二 11與11’的工作區。 在復移動’從而使該刀S 41往復地移動至 的位置。此外,本發明還進一步設置一 °亥⑺執5的移動方向係與滑座43的移動 圖所不),可將該堆疊模座4移出切模單元 错由:述本發明的裁切裝置,紅作方式,砂用第一與第 -送料早元2、2,分期歇性地輸送第—麵二綠物^,進入 切模單元u與η,.魏,且利料三送料單元2,,_生地 輪送第三片狀物6,,經由刀座41進入成型片堆疊座42,於此同 時,滑座43 _動堆疊模座4在兩切模單元η、η,之間往復移 動,以使刀座41交替地移動至對應該二_刀13與13,的位置; 在刀座41交替地移動至模刀13或13’下方時,第三片狀物6” 也隨之被拖拉至模77 13或13,下方,進而使第三片狀物6,,位於 第-片狀物6或第二片狀物6’的下方;此時,模刀13或13,受驅 動而下降,直接將第一片狀物6,或第二片狀物6,裁切下來,但 並不裁切第二片狀物6”,第一片狀物6或第二片狀物6,裁切下 來的成塑片經由刀座41落下至成型片堆疊座42,並將第三片狀 物6’’壓在其下方。當滑座43往復移動至模刀丨3或13,下方時, 模刀13或丨3’將交替地將所對應的第一片狀物6或第二片狀物6, 裁切下來,堆疊於成型片堆疊座42中,因第三片狀物6”被壓在 每一裁切下來的成型片下方,所以第三片狀物6”將第一與第二 片狀物6、6’互相隔離。 第彡Α至三F圖顯示第一片狀物6、第二片狀物6,的交替裁 切過輕以及裁切下來的成型片與連續狀第三片狀物6”的纏繞和 堆疊之過程。第三A圖顯示第三片狀物6”經由刀座41進入成型 片堆疊# 42,滑座43則推動刀座41和成型片堆疊座42向左移 200909164 動至模刀13下方,第一片狀物6位於模刀13和刀座41之間, 第三片狀物6”被拖拉至模刀13的下方,且位於第一片狀物6的 下方。第三B圖顯示模刀13將第一片狀物6切下,但並未裁切 第三片狀物6” ’裁切下來的第一片狀物6落至成型片堆疊座^ 中,並壓在第三片狀物6,,的上方。第三c圖顯示滑座43推動刀 座41和成型片堆疊座42向右至模刀13,的下方,此時有—段 三片狀物6”被壓在第-片狀物6的下方,其餘的第三片狀物& 被拖拉至模刀13,的下方,錄於第二片狀物6,的下方。第二〇 圖顯示模刀Π,將第二片狀物6,切下,但並未裁切第三片狀= 6” ’裁切下來的第二片狀物6,紅成型片堆疊座42巾,並 第三片狀物6”的上方,此時部份第三片狀物6,,被壓在第 物6的下方,另-部份的第三片狀物6,,位於裁切下來的第 狀物6和第二片狀物6’之間,並將兩片狀物6、6,隔離 狀物6”始終未被裁切,連續地纏繞於第-與第二片狀物6、:, 之間來將兩者離,以上諸步驟成為一循環。第三E、三 顯示滑座43再度推叙π^ —七圖 下方,第-/ 1和趟堆疊座42向左至模刀13 過箱。Μ 、第三片狀物6、6’、6”的裁切和纏繞堆叠之 ° " 上41往復對應該模刀13或13,的方式,得 得到第一盥第J刀叭侍以最終 疊座42中,且連續6_、6,依序堆疊於堆疊模座4的成型片堆 堆疊至適當厚声後目, 堆疊形態(如第四圖所示)。當 片離開切模單二i ’:由滑執5推動堆疊模座4,使堆疊的成型 製程。 、1的工作區(如第二圖所示),以進行後— 本發明之裁切裝IM t 刀13、13,對片狀物I 於,利用具有預定輪廓形狀的模 句進仃裁切以取代傳統的沖壓成型方式,因此, 10 200909164 的成型片61連|_時’可以如第六圖所示地將所欲裁切下來 的端邊,僅冑㈣,並且直接以片狀物的邊緣做為成型片 此可以大量減少欲做為成型片的片狀廢料62即可’因 為-生產且裁切後又能自動地堆疊排列整齊, 以對纽㈣者料㈣轉本㈣讀佳實闕,並非企圖具 ’明做任何形式上之限制,是以,凡有在相同之發明 伴本發明之任何修倚或變更’皆仍應包括在本發明意圖 【圖式簡單說明】 圖為,„1示本發a賊切及堆疊裝置之實施例前視平面示意圖( ^圖為顯林發賊城堆魏置之實施纖視平面示意圖£ 弟-A-二F g為顯示本發明㈣及堆疊裝置之實施例,片狀物 的裁切、堆疊、纏繞連續示意圖。 =四圖為顯示之片狀物被裁切後,成型片的堆疊、纏繞之示意圖。 第五A圖為顯示本發明裁切及堆疊裝置之實施例,模刀形狀之 示意圖。 第五B圖為顯示為顯示本發明裁切及堆疊裝置之實施例,裁切下 來的成型片之示意圖。 第六圖為顯別狀物經由本發明之裝置賴切位置分佈實施例 示意圖。 第七圖為顯示習知沖壓機對連續的片狀物的裁切位置分佈示意 11 200909164 【主要元件符號說明】 1 裁切單元 11 、 11, 切模單元 12 、 12, 壓掣塊 13 、 13, 模刀 2 第一送料單元 2, 第二送料單元 2,, 第三送料單元 3 第一解料單元 3, 第二解料單元 3,, 第三解料單元 4 堆疊模座 41 刀座 42 成型片堆疊座 43 滑座 5 滑執 6 第一片狀物 6, 第二片狀物 6” 第三片狀物 61 成型片 62 廢料 A 片狀物 A1 成型片 12Si: pressure = hydraulic cylinder 'by the air pressure or oil pressure control to make the die cutter to the sheet ί = figure to the fifth Jing Jin, the die cutter 13, 13, the end face wheel should be molded piece 61 The closed shape of the contour shape is such that the die cutter cuts the shaped piece into a correspondingly shaped piece. The pressure block 12, the sub-contact with the second sheet 6, 6 and the upper, the mold cutters 13, 13 are cut when the second sheet 6, 6 is cut. - with the second sheet 6, moving the first sheet 6 and the second sheet 6, respectively, passing through the first feeding unit 2 and the second filling unit 2 in a horizontal state, respectively, and then entering the human domain unit separately The second sheet 6 enters the stacking mold base 4 after passing through the third feeding unit 2'' in a vertical state. The stacking die holder 4 is disposed below the cutting unit 1, and the stacking die holder 4 includes a blade holder 4 - a forming sheet stacking seat 42 and a shoe slider 43. The holder 41 can be used for the former cutters 13, 13 to extend and have a wheel shape corresponding to the mold cutter. The molding sheet stacking seat 42 can accommodate the cut molded pieces stacked therein, and the holder W is disposed. On the forming sub-stack 42, the sliding seat 43 can drive the stacking mold base 4 to reciprocate under the working area of the cutting unit u and n, that is, the holder μ 200909164 along with the forming sheet stacking seat 42 Corresponding to the two sets of die cutters 〖3, for the powered slide rails 5, the directions are perpendicular to each other (such as the working areas of the second 11 and 11'. In the complex movement, the position of the knife S 41 is reciprocally moved to. The present invention further provides that the movement direction of the one-step (7) 5 and the movement of the slider 43 are not included, and the stacking die holder 4 can be removed from the die-cutting unit: the cutting device of the present invention, red In the way, the sand uses the first and first-feeding elements 2, 2, and the first-stage two-green matter is intermittently conveyed, and the cutting unit u and η, Wei, and the three feeding units 2, The third sheet 6 is rotated by the raw material, and enters the forming sheet stacking seat 42 via the holder 41. At the same time, the sliding block 43_moving the stacked mold base 4 is cut in two The units η, η are reciprocated to move the blade holder 41 alternately to the position corresponding to the two knives 13 and 13, and when the blade holder 41 is alternately moved below the die cutter 13 or 13', the third The sheet 6" is also dragged to the mold 77 13 or 13, below, so that the third sheet 6, located below the first sheet 6 or the second sheet 6'; at this time, The die cutter 13 or 13 is driven to descend, directly cutting the first sheet 6, or the second sheet 6, but not cutting the second sheet 6", the first sheet 6 or the second sheet 6, the cut plastic sheet is dropped to the forming sheet stacking seat 42 via the holder 41, and the third sheet 6'' is pressed under it. When the carriage 43 reciprocates to the lower side of the die cutter 3 or 13, the die cutter 13 or the jaw 3' will alternately cut the corresponding first sheet 6 or second sheet 6, and stack In the molded piece stacking seat 42, since the third sheet 6" is pressed under each of the cut molded pieces, the third sheet 6" will be the first and second sheets 6, 6' Isolated from each other. Figures 1-3 to F show the alternately cut light of the first sheet 6, the second sheet 6, and the winding and stacking of the cut sheet and the continuous third sheet 6" The third A-picture shows that the third sheet 6" enters the forming sheet stack via the holder 41. The slider 43 pushes the holder 41 and the forming sheet stacking seat 42 to the left to move to the lower side of the die cutter 13, The first sheet 6 is located between the die cutter 13 and the holder 41, and the third sheet 6" is dragged under the die 13 and below the first sheet 6. The third B shows the mold The knife 13 cuts the first sheet 6 but does not cut the third sheet 6" 'The cut first sheet 6 falls into the forming sheet stacking ^ and is pressed against the third sheet Above the object 6, . The third c-picture shows that the carriage 43 pushes the blade holder 41 and the molded piece stacking seat 42 to the right to the lower side of the die cutter 13, at which time the three-piece piece 6" is pressed under the first sheet-like member 6. The remaining third sheet & is dragged to the lower side of the die cutter 13, and recorded under the second sheet 6. The second figure shows the die cutter, and the second sheet 6 is cut. Next, but the third piece is not cut = 6" 'cut the second piece 6, the red forming piece stacking seat 42, and the third piece 6" above, at this time part a three-piece 6, which is pressed under the object 6, and a third portion of the other portion 6, between the cut body 6 and the second sheet 6', and The two sheets 6, 6 and the separator 6" are not cut at all times, and are continuously wound between the first and second sheets 6, and are separated from each other, and the above steps become a cycle. . The third E and the third display slides 43 are again deduced from the π^-seven diagram. Below the first//1 and 趟 stacking blocks 42 are left to the die cutter 13 through the box. Μ, the third sheet 6, 6', 6" cutting and winding stack ° " 41 reciprocal corresponding to the cutter 13 or 13, the way to get the first 盥 J knife In the stack 42 and continuously 6_, 6, the stacked stacks of the stacked mold bases 4 are stacked in a stack to a suitable thick sound, in a stacked form (as shown in the fourth figure). ': The stacking die holder 4 is pushed by the slipper 5 to make the stacking process. The working area of the 1 (as shown in the second figure) is carried out - the cutting device IM t knives 13, 13 of the present invention, The sheet I is cut by a pattern having a predetermined contour shape to replace the conventional stamping method. Therefore, the molded piece 61 of 200909164 can be as shown in the sixth figure. Cut the end edge, only 胄 (4), and directly use the edge of the sheet as a molded piece. This can greatly reduce the sheet scrap 62 to be used as a molded piece. 'Because - production and automatic cutting The stacking of the ground is neatly arranged, and the reading of the New Zealand (4) material (4) is better than the attempt to read the best. Any modification or alteration of the invention in the same invention should still be included in the present invention. [Simplified illustration of the drawings] Fig. 1 shows a front view of an embodiment of the hair cutting and stacking device. Schematic diagram of the plane (^ is a schematic diagram of the implementation of the fiber diagram of the display of the lining of the thief.) -A-two F g is an embodiment showing the invention (four) and the stacking device, cutting, stacking and winding of the sheet Continuous diagram. = Four diagrams are schematic diagrams showing the stacking and winding of the formed sheets after the sheets are cut. Fig. 5A is a schematic view showing the shape of the cutter according to an embodiment of the cutting and stacking apparatus of the present invention. Figure 5B is a schematic view showing a cut piece formed by an embodiment of the cutting and stacking apparatus of the present invention. Fig. 6 is a schematic view showing an embodiment of the position of the display by the device of the present invention. The figure shows the distribution of the cutting position of the conventional sheet by a conventional punching machine. 11 200909164 [Major component symbol description] 1 Cutting unit 11 , 11, cutting unit 12 , 12 , pressing block 13 , 13 Knife 2 first feeding list 2, the second feeding unit 2, the third feeding unit 3, the first dissolving unit 3, the second dissolving unit 3, the third dissolving unit 4, the stacking mold base 41, the holder 42, the forming piece stacking seat 43, the sliding seat 5 Slipper 6 first sheet 6, second sheet 6" third sheet 61 formed sheet 62 scrap A sheet A1 formed sheet 12