200950712 九、發明說明: 【發明所屬之技術領域】 本發明係涉及一種製造令。μ 程表以& 的設備,尤指一種自動化 的粉圓製造設備。 【先前技術】 既有粉圓的製造裝置得分π 辰罝f刀別獨立的設置,製造時係先 〇 ❹ 將叙圓的原料如澱粉、焦糖、水、香料倒入混合機中,藉 由混合機將粉圓的原料充分授拌而成為塊狀,然後以人工 :混合機内的塊狀原料取出’經由搬運再傾倒於粉碎機 中,以粉碎機將塊狀的原料粉碎成為粉狀。 以人卫搬運的手段將粉狀的原料取出後裝人粉圓成形 :圓細將粉狀原料成形為多數個繼 :“成形後由各個粉圓成形機朝下落下,最 後,將粉圓倒入震動分級器内, 將夂扒圆八& 以震動分級器的震動分類 將各泰圓分為不同尺寸的等級頰 不同的產品線。 #此將_分為大小顆粒 前述製造粉圓的各個裝置由 驴罟夕比π 、係獨立的設置,因此各 裝置之間皆須以人力搬運輸送原料才能各 此,產生以下製造上的缺點: 仃生產,因 1、由於製造流程中需要大量人力搬.軍 人力的成本。 人力搬運’因此增加了 送原料耗費 ’生產效率 時間,使得生產 不彰而無法大量 2、以人力搬運的方式輸 流程中的每個部分皆須需等候 生產粉圓。 4 200950712 【發明内容】 式才::既有粉圓的生產裝置使用時需要以人工搬運的方 :。:此仃土因此造成生產效率不彰以及人工昂貴的缺 各生產穿晉、查發明藉由輸送帶的設計輸送原料,藉此串連 • 自動化生產的效果,具有生產效率高以及 卽渴人力成本的功效。 機本發明一種粉圓製造設衡, © ^ 於該混合機的下方設有一混合機 的外端連接—備料筒,:::、f一輸达帶,以該輸送帶 ^於°玄備料疴的底部設有一可粉碎並 =批輸出原料的粉碎機,於該備料筒下方設有一第二 ‘轸送罄以第:輪达帶的外端連接一分裝輸送帶,於該分 .下方°又有複數個粉圓成形機,複數個粉圓成形機 方各設有-粉圓出口 ’對應各粉圓出口下方分別設有一 成品輸送帶,j 、 成輸送帶的外端連接一震動分級器。 © y本發明對應各粉圓成形機的上方於所述分裝 帶分別設有一輸入斗感應器,於各輸入斗感應器的下 =有-進料輸送帶,於各粉圓成形機的上方對應各進 ^送帶的前端分別設有—人料的輸人斗,所述分裝輸送 傾可循環轉動的方式連續設有多數個可朝各進料輸送帶 外^原料的盛盤’所述第二輸送帶朝向所述分裝輸送帶的 卜碥係位於各配合承盤的上方。 本發明使用時係將:伞V _ & 撼必 將知圓的原料倒入混合機,藉由混合 & ®的原料充分搜掉而成為塊狀,以該輸送帶接受混 5 200950712 合機輸出的塊狀原料後, 碎機粉碎為粉狀。原料輸人備料筒再由粉 第二:將粉狀原料分批朝下輪出於第二輸送帶,經由 以:將分批堆集的粉狀原料輪送至分裝輸送帶,以 為= = 成形機内成形 下,經由:成二圓成品成形後由各個粉圓成形機朝下落 由各震動、 帶運送至配合的各個震動分級器,藉 ©級。 ’我圓成。〇分類為不同尺寸的等 送帶:=設備藉由輸送帶、分裝輪送裝置以及分裝輸 Γ::粉碎機、各粉圓成形機以及震動分級器串 ,錯此進行-貫化的作業,因此具有以下優點: 力的1本自動化的製造過程不需人工搬運,因此能減少人 2、 由於各流.程之問;隹泣.,丄 連〜… ’不而等候人力的搬運’因此能夠 ❹率:二Γ: 大量製造的目的,提昇生產粉圓的效 率進而增加產量。 3、 由震動分級器可脾又π 方便使用者獲得大小二=:的:圓成品分級’能 為大小顆粒不同的產品線。固成一藉此輕易將粉圓分 【實施方式】 本發明係一種粉圓製造設備’請參看第一、二圖的生 產設備平面示意圖,本發明的㈣係包含: 一混合機(10) ’昆合機(10)於下方設有一混 6 200950712 〇 1 )的下方設 的外端延伸連接 口機開口( 1 〇 1 ),於混合機開口( 有一輸送帶(1 i ),以輸送帶(丄工 至一備料筒(1 2 )的上方; 備料筒(1 2 )的底部設有一可於 原料的粉碎機^ ^ ^ 杨奸並分批朝下輸出 吁機C 1 3 ),於粉碎機(Ί 山 二輸送帶(Η),第:輸送帶(14^下枝有-第 分裝輸送帶. )的外端延伸至一 ▼ c 1 5 )的端部上方,於 ❹ ❹ 設有複數個輪入斗感應器(152),:輪达冑(15) 應器於複數個輸入斗威 …2)的下方設有複數個 1 於複數個進料輸送帶(153)的前^^(153), 圓成形機(χ 6 ); 鳊下方設有複數個粉 複數個粉圓成形機(16)的 口 ( 1 6 1、 μ々, 刀別s又有一粉圓出 丄)’於各粉圓成形機 輸送帶(15Ί、从b )上方對應各進料 於分裂輸送帶( 抖的輸入斗(1 6 2 ), 個可朝各進料輸逆*動的方式連續設有多數 並由各輸二:7二3州 内的原料裝填程厂,” 應各輸入斗(1 6 2 ) 具矛王度’決定各盛盤(151、9尤± 送帶丄&1)疋否朝進料輸 輸送帶(1 5、琳處# ^ 1 6 2 )内;分裝 (151)# 輸送帶(14)外端位置的盛盤 各粉圓出口 c ] β 、 丄4 ;外鳊的下方;對應 ^ . σ )的下方設有一成品輸送帶(;[7 ), 8 ) 。 1 7 )的外端係連接至一震動分級器(工 7 200950712 本卷明的設備用於製造粉圓的流程如下: A混合攪拌原料·_將粉圓的原料如澱粉、播^ 料倒入混合機(彳n a M , 水、香 料充分攪拌而成為塊狀。 知圓的原 • B、塊狀原料輸送 入粉碎機:以輸送帶(1 混合機(]_〇)於)接雙 U )輸出的塊狀原料,將塊狀的 (12)輸入。 τ 叶朝備料筒 C .粕碎原料分批送出: ❹边她fiQ、, 同(12)底部的格 碎機(1 3 )粉碎塊狀的原料, 畚 ψ%,5 ^ ^ 並將叔碎的粉狀原料分拙 出科至第一輸送帶(14),以第二輸送帶( 刀抵 批的粉狀原料依次輸送至分褒輪送帶(將分 51),使分裝輸迻罄的盛盤 裝輸运帶(15)平均地盛載粉狀的原料 D :輸送粉碎的料以粉圓成形機:以分裝輸 (1 5 )的各盛盤(1 5 1 )盛載粉狀原料,並由::: 感應器:152)感應各輸人斗= 程度,藉此決定各盛盤裝真 © 疋否朝進料輸送帶(Ί 5 3 )傾倒原料,當盛盤(1 5 ^ 1200950712 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a manufacturing order. The equipment of the &, especially an automated powder manufacturing equipment. [Prior Art] The existing powder round manufacturing equipment scores π 罝 罝 刀 刀 独立 独立 独立 独立 独立 独立 独立 独立 独立 独立 独立 独立 独立 独立 独立 独立 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造In the mixer, the powdery raw material is sufficiently mixed and formed into a block shape, and then taken out in a manual manner: the bulk material in the mixer is taken out and poured into a pulverizer by conveyance, and the block-shaped raw material is pulverized into a powder shape by a pulverizer. The powdered raw material is taken out by the means of human transportation, and the powder is rounded and formed: the powdery raw material is formed into a plurality of rounds: "after forming, the powder forming machine is falling down, and finally, the powder is poured down. Into the vibration classifier, the rounded eight & vibration classification of the vibration classifier will be divided into different sizes of the different grades of the cheek product line. #This will be divided into large and small particles of the aforementioned manufacturing of the powder circle The device is set up independently by 驴罟 比, and therefore each device must be transported by hand to transport the raw materials to each other, resulting in the following manufacturing defects: 仃 production, due to 1, a large amount of manpower required in the manufacturing process The cost of military manpower. Manpower handling 'thus increases the cost of sending raw materials' production efficiency, making production inconspicuous and incapable of mass. 2. Each part of the process of transporting by manpower must wait for the production of powder. 200950712 [Summary of the Invention] The formula:: The powdery production equipment needs to be manually transported when it is used:: This bauxite is therefore inefficient in production and expensive in labor. Each production through Jinjin, the invention of the invention conveys the raw materials by the design of the conveyor belt, thereby connecting the effects of automatic production, and has the effects of high production efficiency and thirst labor cost. Machine of the present invention, a powder circle design and balance, © ^ The outer end of the mixer is connected to the bottom of the mixer-preparation cylinder, and the:::, f-transport belt is provided with a pulverizable and batch-output raw material at the bottom of the conveyor belt. The pulverizer is provided with a second 'send 罄 under the preparation cylinder to connect the outer end of the rim belt to a sub-package conveyor belt, and below the sub-section, there are a plurality of powder round forming machines, a plurality of powders Each of the round forming machines is provided with a - powder round outlet corresponding to each of the powder round outlets respectively provided with a finished conveyor belt, j, and the outer end of the conveyor belt is connected with a vibration classifier. © y The present invention corresponds to each powder round forming machine An input bucket sensor is respectively disposed on the dispensing belt, and a lower=inclusive-feeding conveyor belt of each input bucket inductor is respectively disposed at a front end of each of the powder feeding machines corresponding to each of the feeding belts. - the input of human beings, the packaging a plurality of trays that can be circulated and rotated in a manner that can be circulated and rotated. The second conveyor belt of the second conveyor belt toward the conveyor belt is located above each of the mating trays. When the invention is used, the umbrella V _ & 撼 倒 倒 倒 的 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒 倒After the block material is output by the machine, the crusher is pulverized into powder. The raw material is fed to the preparation cylinder and then the powder is second. The powdery raw materials are batched downwards out of the second conveyor belt, and the batch is stacked. The powdered raw material is sent to the sub-package conveyor belt, so that it is formed in the forming machine, and after being formed into two round-shaped finished products, each of the powder-forming machines is transported to the respective vibration classifiers, which are transported by the vibrations and belts to each other. © level. 'I am a success. 〇Classified into different sizes of conveyor belts:=The equipment is transported by conveyor belt, sub-distribution and trans-shipment:: pulverizer, each powder forming machine and vibration classifier string. Work, therefore, has the following advantages: 1 automated manufacturing process of force does not require manual handling, so it can reduce people 2, because of the flow of each process; weeping., Qilian ~... 'No waiting for human handling' Therefore, the rate can be reduced: two: the purpose of mass production, improve the efficiency of production of powder rounds and increase production. 3. The vibrating classifier can be used for the spleen and π to facilitate the user to obtain the size 2 =: the round product grade can be a product line with different sizes and sizes. The present invention is a powder round manufacturing apparatus. Please refer to the schematic diagram of the production equipment of the first and second figures. The (4) of the present invention comprises: a mixer (10) 'Kun The machine (10) is provided with an outer end extension port opening (1 〇1) underneath a mix 6 200950712 〇1 ), at the mixer opening (having a conveyor belt (1 i ) to the conveyor belt (丄) Working up to the top of the preparation cylinder (1 2 ); at the bottom of the preparation cylinder (1 2 ) is provided a raw material crusher ^ ^ ^ Yang rape and outputted in batches to the machine C 1 3 ), in the crusher ( Ί山二输送带(Η), the outer belt of the conveyor belt (14^下枝-分分输送带.) extends over the end of a ▼ c 1 5 ), and has multiple rounds in the ❹ ❹ Into the bucket sensor (152), the rim (15) is placed in front of a plurality of input fighters... 2) with a plurality of 1 in front of a plurality of feeding conveyors (153) ^ (153) , round forming machine (χ 6 ); under the 鳊 there are a plurality of powder multi-powder forming machine (16) mouth (1 6 1 , μ々, knife s and powder Round out 丄)' in each of the powder forming machine conveyor belts (15Ί, from b) corresponding to each feeding on the split conveyor belt (shake input hopper (1 6 2), one can be reversed to each feed The mode is continuously provided with a majority and each of the two is replaced by a raw material loading and unloading factory in the state of 7:3, “The input hopper (1 6 2 ) with the spear king degree” determines each plate (151, 9 especially ± belt 丄&1) 疋 No towards the feed conveyor belt (1 5, Lin Shi # ^ 1 6 2 ); sub-package (151) # conveyor belt (14) at the outer end of the disk, each powder circle outlet c ] β , 丄4; below the outer raft; corresponding to ^. σ) is provided with a finished conveyor belt (; [7), 8). The outer end of the 1 7) is connected to a vibration classifier (Working 7 200950712) The process for manufacturing the powder circle is as follows: A Mixing and stirring raw materials··Pour the round raw materials such as starch and sowing materials into the mixer (彳na M, water and spices are fully stirred to form a block. Original • B, block material is conveyed into the pulverizer: the block material (12) is input by the conveyor belt (1 mixer (] _ 〇))), and the block (12) is input. C.粕The raw materials are sent out in batches: 她 她 her fiQ, with the bottom of the (12) grid crusher (1 3) crush the block of raw materials, 畚ψ%, 5 ^ ^ and the unbroken powdered raw materials are separated into The first conveyor belt (14) is conveyed by the second conveyor belt (the powdered raw material of the knife in batches is sequentially sent to the branching belt (to be divided into 51), so as to carry out the loading and transporting belt of the packaging conveyor (15) The powdery raw material D is evenly distributed: the pulverized material is conveyed to the powder round forming machine: each of the platters (1 5 1 ) of the partial loading (15) carries the powdery raw material, and is::: induction Device: 152) Inductively change the degree of each person's bucket = to determine the true value of each plate. © 疋 No to the feed conveyor belt (Ί 5 3) dump the raw materials, when the plate (1 5 ^ 1
0、 b 1 )朝進料輸送帶(i R 3 )傾倒原料後,係以各進料輪送帶 b 入配合的輸入斗(162),藉此將粉狀原料 粉圓成形機(1 6 )内,接著以粉圓士 p ▲ 合個 杨圓成形機(1 6 )將伞v 狀原料成形為多數個粉圓成品,客* 种物 夕數個粉圓成品成形後由 各個粉圓成形機(16)朝下落下。 Ε :成品製造完成並分級:由夂加, 由各個粉圓成形機(i 6 ) 落下的多數個粉圓成品經由成品輪读册 Ό ; 疋▼ ( 1 7 )的運送, 8 200950712 分別送至配合的各個震動分級器( ^ 級器(1 8 )的處理將粉圓成品分 猎由各震動刀 刀頌馬不冋尺寸的等級。 本發明藉由前述的設備使得生 屋淞圓的製程得以一貫 化作業,v粉圓的原料倒入混合機 详· , 1& 飛、1 0 )後’能藉由輸 送"(1/)、弟二輸送帶(以)、分褒輸送帶(15), 以及成品輸送帶(1 7)等設置,违 達成自動化運輸的製造 過私,自動化的設計使個各裝置之間不需人工搬運,如此 除了能減少人工的成本以外,還能提昇生產粉圓的效率。 而本發明的設備於後端設有的震動分級器(丨8 ),則是 能將不同大小的粉圓成品分級,方便使用者獲得大小分= 的粉圓成品,藉此分為不同的產品線。 以上所述,僅是本發明設備的較佳實施例,並非對本 發月作任何形式上的限制,任何所屬技術領域中具有通常 知識者,若在不脫離本發明所提技術特徵的範圍内,利用 本發明所揭示技術内容所作出局部更動或修飾的等效實施 ❹例,並且未脫離本發明的技術特徵内纟,均仍屬於本發明 技術特徵的範圍内。 【圖式簡單說明】 第一圖係本發明較佳實施例前段設備之平面示意圖 第二圖係本發明較佳實施例後段設備之平面示意圖 【主要元件符號說明】 (1〇)混合機 (1 1 )輸送帶 (13)粉碎機 (10 1) (1 2 )備料筒 (1 4 )第二輪送帶 200950712 (1 5 )分裝輸送帶 (1 (152)輸入斗感應器(1 (1 6 )粉圓成形機 (1 (1 6 2 )輸入斗 (1 (1 8 )震動分級器 5 1 )盛盤 5 3 )進料輸送帶 6 1 )粉圓出口 7 )成品輸送帶0, b 1) After pouring the raw material toward the feed conveyor belt (i R 3 ), the feed hopper (b) is fed into each of the feed belts b, thereby forming a powdery raw material powder forming machine (1 6 Inside, the powder v-shaped material is formed into a plurality of powder round products by a powder round p ▲ and a Yang round forming machine (16), and the powder is formed by various powder rounds after forming a powder round product. The machine (16) is falling down. Ε : Finished product manufacturing completed and graded: According to the addition, most of the powdered round products dropped by each powder forming machine (i 6 ) are read through the finished product wheel; 疋▼ (1 7 ), 8 200950712 are sent separately The processing of each vibration classifier (^ classifier (18) is used to classify the powder round product by the size of each vibrating knife. The present invention enables the process of rounding the house by the aforementioned equipment. Consistent operation, p-powder raw material poured into the mixer details, 1& fly, 1 0) after 'can be transported' (1/), 2nd conveyor belt (to), tiller conveyor belt (15 ), as well as the finished conveyor belt (17) and other settings, in violation of the automated transport of the manufacturing of the private, automated design allows no manual handling between the devices, so in addition to reducing labor costs, but also improve the production of powder Round efficiency. The vibration classifier (丨8) provided on the back end of the device of the invention can classify the powder round products of different sizes, and is convenient for the user to obtain the powder round product of size==, thereby dividing into different products. line. The above description is only a preferred embodiment of the device of the present invention, and is not intended to limit the scope of the present invention. Any one of ordinary skill in the art, without departing from the technical features of the present invention, Equivalent embodiments of the local modification or modification made by the technical content of the present invention, and without departing from the technical features of the present invention, are still within the scope of the technical features of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a schematic plan view of a front-end device of a preferred embodiment of the present invention. The second drawing is a schematic plan view of a rear-end device of a preferred embodiment of the present invention. [Main component symbol description] (1〇) Mixer (1) 1) Conveyor belt (13) Crusher (10 1) (1 2 ) Preparation cylinder (1 4) Second wheel conveyor belt 200950712 (1 5 ) Packing conveyor belt (1 (152) input bucket sensor (1 (1) 6) Powder round forming machine (1 (1 6 2 ) input bucket (1 (1 8 ) vibration classifier 5 1) tray 5 3 ) Feed conveyor belt 6 1 ) Powder round outlet 7) Finished conveyor belt
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