M271399 捌、新型說明: 【新型所屬之技術領域】 特別是指一種豆漿自 本新型是有關於一種生產設備 動生產設備。 5 10 15 【先前技術】 —-般自動化生產豆㈣過程,依序是浸泡黃豆、研磨 :丑、過濾豆渣、蒸煮豆榘,及攪拌豆聚等步驟。在研磨 黃豆的過程中所使用的研磨裝置,是以-驅動馬達傳動磨 石旋轉以研磨黃豆,而研磨出之豆㈣導5丨至過遽裝置中 進行過濾,再進行蒸煮後即製成可供飲用之豆1。另外, 所研磨出之豆渣則可另作其他用途或丟棄。 由於習知豆漿生產設備僅能對黃豆進行一次研磨,而 所排出之豆料另作他用,因此,f知豆聚生產設備並無 法再度研磨豆渣,使豆渣重複被使用,在製造上,因不具 有多次研磨黃豆之製程而難以製成高純度之豆漿,達到充 刀利用頁旦之經濟效益,故習知豆漿生產設備仍有上述缺 失尚待改進。 【新型内容】 因此,本新型之目的,是在提供一種可在自動化生產 過程中多次研磨黃豆以製成高純度之豆漿,達到充分利用 更丑之經濟效益的豆漿自動生產設備。 於是’本新型豆漿自動生產設備,包含一補充單元、 一磨丑單元、一蒸煮單元、及一供應單元,該磨豆單元更 包含有一磨豆裝置,及第一、第二磨渣裝置。藉由該磨豆 20 M271399 政置對η豆進行研磨,另配合第一、第二磨渣裝置依序對 由磨豆裝置所排出之豆渣進行研磨,再將由第二磨渣裝置 所排出之豆渣導回第一磨渣裝置中進行研磨,而能在自動 化生產過程中多次研磨黃豆以製成高純度之豆漿,達到充 分利用黃豆之經濟效益。 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 以下配合參考圖式之一較佳實施例的詳細說明中,將可清 楚的明白。 參閱圖1,本新型豆漿自動生產設備1的一實施例, 包含:一補充單元2、一磨豆單元3、一蒸煮單元4、及一 供應單元5。 該補充單元2更包含: 一浸泡桶21,是用以浸泡黃豆。 一可抽取該浸泡桶21内之黃豆的第一泵浦20。 該磨豆單元3更包含·· 一落料斗31 ’用以承接該補充單元2之第一泵浦20 所抽取的黃豆。 一磨丑裝置3 2 ’對應設於該落料斗31下方而可研磨 由該落料斗31落下的黃豆。配合參閱圖2,該磨豆裝置 32具有一殼體321、一設於該殼體321内呈倒錐形狀之濾 網322、一設於該濾網322上之轉盤323、一設於該轉盤 323上用以研磨黃豆之磨石324、一設於濾網322下方而 可驅動轉盤323旋轉之驅動馬達325、一設於濾網322下 M271399 方而可導引豆漿流出之豆漿導管326,及一設於濾網322 上方而可導引豆渣排出之豆渣導管327。 一冷水注水管33,是對該磨豆裝置32内注入冷水。 一第一落渣斗34,用以承接由磨豆裝置32所排出之 5 10 15 豆渣。 一第一熱水注水管371,是對該第一落渣斗34内注入 熱水。 一第一磨渣裝置35,對應設於該第一落渣斗34下方, 而可研磨由該第一落渣斗34所落下之豆渣。續配合參閱 圖3,該第一磨渣裝35置具有一殼體351、一設於該殼體 351内呈倒錐形狀之濾網352、一設於該濾網352上之轉 盤353、一設於該轉盤353上用以研磨豆渣之磨石354、 一設於濾網352下方而可驅動轉盤353旋轉之驅動馬達 355、 一設於濾網352下方而可導引豆漿流出之豆漿導管 356, 及一設於濾網352上方而可導引豆渣排出之豆渣 管 357。 ~ 磨渣裝置35所排 一弟二洛〉查斗3 6,用以承接由第— 出之豆渣。 一第二熱水注水管 熱水。 372,是對該第 二落渣斗36内注入 一第二磨渣裝置38,對應設於該笫_ — κ弟〜落渣斗36下方, 而可再次研磨由該第二落渣斗36所茇卞 J洛下之豆渣。該第二 磨渣裝置38之構造與第一磨渣裝f 一 且03相同。 一回收桶39,用以承裝由第二磨 凌羞置38所研磨出 20 M271399 之豆漿。 一第二泵浦30,可將該回收桶39内之豆漿抽取至第 一落潰斗34中,供第一磨渣裝置35再次研磨。 一第一儲存桶300,用以承接由該磨豆裝置32與第一 磨〉查装置3 5所研磨出之豆漿。 該蒸煮單元4更包含: 一蒸煮裝置41,是用以煮熟豆漿。 第二泵浦40 ’可將該磨豆單元3之第一儲存桶3〇〇 内的豆漿抽取至蒸煮裝置41中蒸煮。 一第一容置器43,用以承接由該蒸煮裝置41所煮熟 之豆漿。 … '…、 一第四泵浦400,可將該蒸煮裝置41内之豆漿抽取至 第—容置器43中。 一精濾裝置45,用以過濾第一容置器43中所儲存之 豆漿。 一第二儲存桶46,用以承接由該精濾裝置45過濾後 之豆漿。 & 該供應單元5更包含: 一第二容置器51。 一第五泵浦50,可將該蒸煮單元4之第二儲存桶46 内的豆漿抽取至該第二容置器51中。 一攪拌器53,用以攪拌該第二容置器51内之豆漿。 —一供應器、54,設於該第二容置器、51底部,而可控制 豆漿由第二容置器51流出。 M271399 續如圖1所示,本新型豆漿自動生產設備1在使用 時’是先將適量之黃豆倒入該補充單元2之浸泡桶21中 浸泡,使黃豆吸收水份達一預設時間後,續藉由該第一泵 浦20將浸泡桶21内之黃豆抽取至磨豆單元3之落料斗31 内。配合圖2,當落料斗31内之黃豆逐量落入磨豆裝置 32時,該冷水注水管33便同時將冷水注入該磨豆裝置32 中,此時該驅動馬達325便會驅動轉盤323並連動磨石324 旋轉而對黃豆進行研磨。此時,該第一磨渣裝置35與第 一磨渣裝置38之驅動馬達355亦同時運轉。接續前述, 經一段時間後,由該磨豆裝置32所研磨出之豆漿便會由 濾網322内滲出並由豆漿導管326先行流入第一儲存桶 300中儲存。另一方面,所研磨出之豆渣便會由第一儲存 桶322上方排出並由豆渣導管327流入第一落渣斗内。 續配合圖3 ’當第一落渣斗34内之豆渣逐量落入第一 磨〉查裝置35日夺’該旋轉中之轉盤353同樣會連動磨石聊 方疋轉而對讀進行研磨,經_段時間後,所研磨出之豆聚 便會由濾網352内滲出並由豆漿導管挪先行流入第一儲 存桶3GG中儲存。另一方面,剩餘之豆潰便會再由濾、網352 上方排出並由豆渣導管357流人第二落渣斗36内。當第 二落渣斗36内之豆渣再落入第二磨渣裝i 38日夺,該第二 磨渣裝置38同樣是如第—磨渣裝㈣之作動模式對豆渣 進行研磨’而使所研磨出之豆漿會流入回收桶39中。 當該回收桶39内之豆漿達一定量之後,該第二泵浦 3Q便會再將以抽取至第-落料34中,再與磨豆裝置 M271399 32所排出之豆渣於第一磨渣裝置35中混合研磨,以重複 進订研磨作業’同時使再次研磨出之豆漿全部導入第一儲 存桶300中。如此,使黃豆由磨豆裝置犯、第一磨渣裝置 35、第一磨渣裝置38再回到第一磨渣裝置的循環路徑 5 中進行研磨,以重覆淬取豆漿,提高豆漿之產量。 ,接續,利用該蒸煮單元4之第三泵浦4〇將磨豆單元3 之第一儲存桶300内的豆漿抽取至蒸煮裝置41中蒸煮, 待,漿煮熟之後,再利用第四聚浦4〇〇將煮熟之豆聚抽取 至第谷置裔43内,並使豆漿逐量流入精濾裝置沾中進 1〇 ㈣濾而製得-純淨之豆漿,之後再將豆漿導入第二儲存 f 46中。最後,利用該供應單元5之第五泵浦50將蒸煮 單兀4之第二儲存桶46内的豆漿抽取至第二容置器51 中一同時將砂糖加入第二容置器51中並以一攪拌器Μ攪 拌丑漿’猎以調配豆浆之甜度。當欲飲用所製成之豆讓 15 時,再控制該供應器54呈開啟狀態,即可使豆漿由該第 二容置器、51巾流出以供飲用。 “由月述可知,本新型豆衆自動生產設備1在使用上, 精由该磨且單元3之磨豆裝置32對黃豆進行研磨後,另 ^ 第磨渣裝置35、第二磨渣裝置38依序對由磨豆 2〇 彳置32所排出之豆渣進行研磨,同時先將由該磨豆裝置 32與第一磨oir 一衷置35所研磨出之豆漿先行導入第一儲存 桶300中,另_士二 ^ 万面,再將由第二磨渣裝置38所排出之 豆造導回第-磨潰裝置35中,並與磨豆裝置32所排出之 一-;第磨渣裝置35中混合研磨,以重複進行研磨作 M271399 業,進而使豆漿全部導入第一儲存桶300中。如此,使黃 豆由磨豆裝置32、第一磨渣裝置35、第二磨渣裝置38再 回到第一磨渣裝置35的循環路徑中進行研磨,以重覆淬 取丑漿,提高豆漿之產量。因此,本新型豆漿自動生產設 5 備1在設計上,能在自動化生產過程中多次研磨黃豆以製 成南純度之豆漿’達到充分利用黃豆之經濟效益。 歸納上述,本新型豆漿自動生產設備i在生產作業過 程中,可多次研磨黃豆以製成高純度之豆漿,達到充分利 用黃豆之經濟效益,故確實能達到本新型之目的。 10 惟以上所述者,僅為本新型之較佳實施例而已,當不 能以此限定本新型實施之範圍,即大凡依本新型申請專利 範圍及新型說明書内容所作之簡單的等效變化與修飾,皆 應仍屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 15 圖1是本新型豆漿自動生產設備一較佳實施例之一側 視不意圖; 圖2是一側視剖視圖,說明該磨豆裝置之構造;及 圖3是一側視剖視圖,說明該第一磨渣裝置與第二磨 渣裝置之構造。 20 10 M271399 【圖式之主要元件代表符號說明】 漿自動生產設備 39 回收桶 2 補充單元 30 弟二果浦 3 磨豆單元 300 第一儲存桶 4 蒸煮單元 41 蒸煮裝置 5 供應單元 40 第三泵浦 21 浸泡桶 43 第一容置器 20 第一泵浦 400 弟四豕、浦 31 落料斗 45 精濾裝置 32 磨豆裝置 46 第二儲存桶 321 、351 殼體 51 第二容置器 322 、352 濾網 50 第五泵浦 323 、353 轉盤 53 攪拌器 324 、354 磨石 54 供應器 325 、355驅動馬達 326 、356豆漿導管 327 、357豆渣導管 33 冷水注水管 34 第一落渣斗 371 第一熱水注水管 35 第一磨渣裝置 36 第二落渣斗 372第二熱水注水管 38 第二磨渣裝置M271399 新型 Description of the new type: [Technical field to which the new type belongs] In particular, it refers to a kind of soybean milk. The new type relates to a production equipment and a dynamic production equipment. 5 10 15 [Previous technology] --- Generally automated production process of tempeh, which is followed by steps of soaking soybeans, grinding: ugly, filtering bean dregs, cooking tempeh, and stirring the beans. The grinding device used in the process of grinding soybeans is a-driving motor to drive the grinding stone to rotate to grind the soybeans, and the ground soybeans are guided to the filtering device for 5 蒸, and then cooked. Beans for drinking 1. In addition, the ground bean dregs can be used for other purposes or discarded. Because the conventional soybean milk production equipment can only grind soy beans once, and the discharged soybean material is used for other purposes, the known soybean poly production equipment cannot grind the soybean dregs again, making the soybean dregs reused. It is difficult to make high-purity soymilk without the process of grinding soybeans multiple times, and it can achieve the economic benefits of filling and using the sheet. Therefore, it is known that the soymilk production equipment still has the above-mentioned shortcomings and needs to be improved. [New content] Therefore, the purpose of this new model is to provide an automatic soybean milk production equipment that can grind soy beans multiple times in an automated production process to make high-purity soymilk and make full use of more ugly economic benefits. Therefore, the new automatic soybean milk production equipment includes a supplementing unit, a grinder unit, a cooking unit, and a supply unit. The bean grinder unit further includes a bean grinder device, and first and second grinder devices. With this grind bean 20 M271399, the η beans are ground, and the first and second grinders are used to sequentially grind the bean dregs discharged from the grinder, and then the grinder is discharged from the second grinder. It is returned to the first slag grinding device for grinding, and the soybeans can be ground multiple times in an automated production process to make high-purity soybean milk, so as to fully utilize the economic benefits of soybeans. [Embodiment] The foregoing and other technical contents, features, and effects of the present invention will be clearly understood in the following detailed description of a preferred embodiment with reference to the accompanying drawings. Referring to FIG. 1, an embodiment of the new automatic soybean milk production equipment 1 includes: a replenishing unit 2, a bean grinding unit 3, a cooking unit 4, and a supply unit 5. The supplementary unit 2 further includes: a soaking bucket 21 for soaking soybeans. A first pump 20 that can extract the soybeans in the soaking bucket 21. The grind bean unit 3 further includes a drop hopper 31 ′ for receiving the soybeans drawn by the first pump 20 of the supplementary unit 2. An ugly grinding device 3 2 'is provided below the falling hopper 31 and can grind the soybeans dropped from the falling hopper 31. With reference to FIG. 2, the grinder device 32 has a housing 321, a filter 322 having an inverted cone shape provided in the housing 321, a turntable 323 provided on the filter 322, and a turntable A grindstone 324 on 323 for grinding soybeans, a drive motor 325 provided under the filter 322 and capable of driving the turntable 323 to rotate, a soybean milk duct 326 provided under the filter 322 M271399 to guide the flow of soybean milk, and An okara tube 327 is provided above the screen 322 to guide the okara discharge. A cold water injection pipe 33 is used to inject cold water into the grinder device 32. A first dross hopper 34 is used to receive the 5 10 15 dregs discharged from the bean grinder 32. A first hot water injection pipe 371 injects hot water into the first dross hopper 34. A first dross grinding device 35 is disposed below the first dross hopper 34 and can grind bean dregs dropped by the first dross hopper 34. Continuing with reference to FIG. 3, the first grinding slag device 35 has a housing 351, a filter 352 provided in the housing 351 in an inverted cone shape, a turntable 353 provided on the filter 352, A grindstone 354 provided on the turntable 353 for grinding bean dregs, a drive motor 355 provided under the filter 352 and capable of driving the turntable 353 to rotate, and a soybean milk duct 356 provided under the filter 352 to guide the flow of soybean milk And a dregs tube 357 provided above the strainer 352 to guide the dregs discharge. ~ Row 35 of the slag grinding device One younger two Luo> Cha Dou 36, used to receive the bean dregs from the first. A second hot water injection pipe 372 is to inject a second slag grinding device 38 into the second slag hopper 36, which is located below the 笫-κ-~ under the slag hopper 36, and can be ground again by the second slag hopper 36豆 J Luo under the bean dregs. The structure of the second slag grinding device 38 is the same as that of the first slag grinding device f_03. A recovery barrel 39 is used to hold the 20 M271399 soybean milk ground by the second mill 38. A second pump 30 can extract the soybean milk in the recovery bucket 39 into the first falling hopper 34 for the first grinding device 35 to grind again. A first storage bucket 300 is used for receiving the soybean milk ground by the bean grinder device 32 and the first grinder device 35. The cooking unit 4 further includes: a cooking device 41 for cooking soybean milk. The second pump 40 'can extract the soybean milk in the first storage bucket 300 of the grind bean unit 3 into the cooking device 41 for cooking. A first container 43 is used for receiving the soybean milk cooked by the cooking device 41. … ', A fourth pump 400 can extract the soybean milk in the cooking device 41 into the first container 43. A fine filtering device 45 is used to filter the soybean milk stored in the first container 43. A second storage bucket 46 is used for receiving the soybean milk filtered by the fine filtering device 45. & The supply unit 5 further includes: a second container 51. A fifth pump 50 can extract the soybean milk in the second storage bucket 46 of the cooking unit 4 into the second container 51. A stirrer 53 is used to stir the soybean milk in the second container 51. -A supply device 54 is provided at the bottom of the second container 51 to control the flow of soybean milk from the second container 51. M271399 continued as shown in Figure 1. When using this new type of automatic soybean milk production equipment 1, 'the appropriate amount of soybeans are first poured into the soaking bucket 21 of the supplement unit 2 soaked, so that the soybeans absorb water for a preset time, Continue to use the first pump 20 to extract the soybeans in the soaking bucket 21 into the falling hopper 31 of the grind bean unit 3. With reference to FIG. 2, when the soybeans in the falling hopper 31 fall into the grinder device 32 in a quantity, the cold water injection pipe 33 simultaneously fills the cold water into the grinder device 32. At this time, the driving motor 325 will drive the turntable 323 and The soya beans are ground by rotating the grinding stone 324. At this time, the driving motor 355 of the first slag grinding device 35 and the first slag grinding device 38 are also operated at the same time. Continuing from the foregoing, after a period of time, the soybean milk ground by the bean grinder 32 will seep out of the strainer 322 and flow into the first storage bucket 300 through the soybean milk duct 326 in advance. On the other hand, the ground bean dregs are discharged from above the first storage barrel 322 and flowed into the first dross hopper through the bean dregs duct 327. Continue to cooperate with Figure 3 'When the bean dregs in the first dross hopper 34 fall into the first mill one by one> The checking device won on the 35th' The rotating turntable 353 will also link the millstone chatter to the reading mill, After a period of time, the ground bean aggregate will leak out of the filter 352 and be transferred by the soybean milk duct into the first storage bucket 3GG for storage. On the other hand, the remaining bean rupture will be discharged from above the filter and net 352 and flowed into the second dross hopper 36 through the dregs conduit 357. When the bean dregs in the second dross hopper 36 falls into the second dross loading device 38, the second dross grinding device 38 is also used to grind the dross as described in the operation mode of the first dross loading operation. The ground soybean milk will flow into the recovery barrel 39. When the amount of soybean milk in the recovery barrel 39 reaches a certain amount, the second pump 3Q will again extract to the first-blank 34, and then with the soybean residue discharged from the bean grinding device M271399 32 in the first grinding device 35 is mixed and ground to repeat the order grinding operation, and at the same time, all the soy milk ground again is introduced into the first storage bucket 300. In this way, the soybeans are made from the bean grinder, the first slag grinder 35, and the first slag grinder 38 and returned to the circulation path 5 of the first slag grinder for grinding, so as to repeatedly quench the soybean milk and increase the yield of soybean milk. . Next, the third pump 40 of the cooking unit 4 is used to extract the soybean milk in the first storage bucket 300 of the grind bean unit 3 into the cooking device 41 for cooking. After the slurry is cooked, the fourth polypu 400. Extract the cooked beans into Digu Zhiye 43, and make the soybean milk flow into the fine filtering device and dip it into the filter to obtain pure soybean milk, and then import the soybean milk into the second storage. f 46. Finally, the fifth pump 50 of the supply unit 5 is used to extract the soybean milk in the second storage bucket 46 of the cooking unit 4 into the second container 51 while adding sugar to the second container 51 and using the A stirrer M stirs the ugly milk to hunt for the sweetness of soy milk. When the prepared bean is allowed to drink for 15 hours, then the supply device 54 is controlled to be in an open state, so that the milk can flow out of the second container and 51 towels for drinking. "It can be seen from the monthly description that the new automatic bean production equipment 1 is in use. After grinding the soybeans by the bean grinder 32 of the unit 3, the third grinder device 35 and the second grinder device 38 are used. Grind the bean dregs discharged from the grind bean 20 × 32 in order. At the same time, the soybean milk grinded by the grinder device 32 and the first grinder oir 35 is first introduced into the first storage bucket 300, and the other _Shi Er ^ noodles, and then the beans discharged from the second grinding device 38 are returned to the first grinding device 35 and mixed with one of the beans from the grinding device 32; To repeat grinding for M271399, so that the soy milk is all introduced into the first storage bucket 300. In this way, the soybeans are returned to the first mill from the bean grinder device 32, the first grinder device 35, and the second grinder device 38. Grinding is carried out in the circulation path of the slag device 35 to repeatedly quench the ugly milk and increase the yield of soybean milk. Therefore, the new automatic soybean milk production equipment 5 and equipment 1 are designed to grind soy beans multiple times in the automated production process to produce Chengnan Purity Soymilk 'Reaches the Economy of Making Full Use of Soy Beans In summary, the new automatic soybean milk production equipment i can grind soy beans multiple times during the production operation to make high-purity soy milk, so as to fully utilize the economic benefits of soy beans, so it can indeed achieve the purpose of this new model. 10 But The above are only the preferred embodiments of the new model. When the scope of implementation of the new model cannot be limited by this, that is, the simple equivalent changes and modifications made according to the scope of the patent application of the new model and the content of the new specification, It should still be within the scope of the new patent. [Simplified illustration of the drawing] 15 Figure 1 is a side view of one of the preferred embodiments of the new automatic soybean milk production equipment; Figure 2 is a side sectional view illustrating the mill The structure of the bean device; and FIG. 3 is a side cross-sectional view illustrating the structure of the first slag grinding device and the second slag grinding device. 20 10 M271399 [Description of the main symbols of the main components of the drawing] Automatic pulp production equipment 39 Recovery barrel 2 Replenishing unit 30 Di Erguopu 3 Grinding bean unit 300 First storage bucket 4 Cooking unit 41 Cooking unit 5 Supply unit 40 Third pump 21 Soaking bucket 43 The first container 20 The first pump 400 The fourth sibling, Pu 31 The dropping hopper 45 The fine filter device 32 The grinder device 46 The second storage bucket 321, 351 The housing 51 The second container 322, 352 The filter 50 The first Five pumps 323, 353, turntable 53 agitator 324, 354 millstone 54 supplier 325, 355 drive motor 326, 356 soymilk duct 327, 357 soybean residue duct 33 cold water injection pipe 34 first slag hopper 371 first hot water injection pipe 35 The first slag grinding device 36 the second slag dropping bucket 372 the second hot water injection pipe 38 the second slag grinding device