1373442 九、發明說明: 【發明所屬之技術領域】 本發明係關於一物料儲存與 依據工作產能而儲存與輸出物料 備。 【先前技術】1373442 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a material storage and storage and output materials according to work capacity. [Prior Art]
在一般習用之物料儲存與輸出設備中,多 :輸送道而同時將多個物料輸送至—儲存分配賴,曰^ 出至物料輸出區或次一工作站進行處理。 w㈣興輸出設備,由於受限於輸送道之載 里以及_分㈣之㈣空料雙重_ 物 :::暴增時,根本無法在有限之時間内將二 回堵Γ狀=配器’甚至還會因“造成物料在該輸送道In the conventional material storage and output equipment, there are many: conveyors that simultaneously transport multiple materials to the storage distribution, and output them to the material output area or the next workstation for processing. w(4) Xing output equipment, due to the limitation of the transport lane load and _ points (four) (four) empty material double _ matter::: when the surge, it is impossible to block the second time in a limited time = the adapter 'even Will cause "materials on the conveyor lane
輪出設備,特別是指一種 之物料調配儲存與輸出設 =的狀況也反應在物料輸出之狀況,當該儲存分配 2所囤積之物料達飽和狀態時,亦無法將 =送道而“,使後續輸人之物料無法儲存人該儲存分 ^》此來’亦會使物料自該儲存分配器回堵至物料 輸入區。 右夕^I有放解決这一類之問題’後來才逐漸發展出速結 有夕個輸送道之物料儲存與輸出設備。然而,在這此物料 儲存與輸出設備中,雖然可以提升輸送物料之速率,又因 為輸运道數量繁多而必須佔用較大之配置空間,而影響到 6 全·方之用地規劃,並且縮限了物料儲存與輸出S備的配置 數量與作業空間。 【發明内容】 本發明所欲解決之技術問題: 中H觀以上所述,對於結合單一輸送道之物料儲存與輸 ^備而έ f遍存在有處理速度不佳而造成之物料回堵 2 °對於結合多個輪送道之物料儲存與輸出設備而言, 二遍存在有因為必須佔用較大之配置空間而縮限了物料 储存與輸出設備的配魏量與作t空間之問題。 此外,在特定之物料處理過程中,不同工作.·站會對物 二面進订加1處理作業。因此,必須要翻轉物料才 此對㈣之不同面進行有效之處I 十才 與輸本發明之主要目的在於提供—種物料調配儲存 二Θ ’ 4物料調配儲存與輸出設備包含有-產# 子裝置、數個分職接於該 料 輸送道與出祖拎.,,+ 咕甘衣直之進料 -疊架進料區:二!道與出料輸送道分別在 〆、璺木出枓區段彼此間隔疊架配置。 設備本:::::::在於提供-種物料調配儲存與輪出 置物料之載料竿,各設備内包含有複數個用以承 送道之出料輪送面 之載料承載㈣高於該出料輪 本發明解決問題之技術手段:. 1373442 本發明為解決習知技術之問題所採用之技術手段係提 供一種物料調配儲存與輸出設備,其係依據工作產能而將 複數個物料自-物料輸人區調配輸人無存,然後再調配 輸出至一物料輸出區。該產能調配儲存設備包含有一產能 。周配儲存裝置、數個進料輸送道與出料輸送道,各進料輸 送道與出料輸送道係分別鄰接於該產能調配儲存裝置之調 配進料區與調配出料區。該產能調配儲存裝置係利用傳動 =條與齒⑽之驅動’而將物料自該進料輸送道送至載料 卞,」後冑輪動線,依序經由產能調配儲存裝置之調 配進料區與5周配出料區’而調配輸出至該出料輸送道。該 進料輸达道與出料輪送道分別在—φ架進料區段輿一疊架 出料區段彼此間隔疊架配置。 ’、 兮妝^本發明纟讀之實施财,當該載料架承載物料時, °自%=第—接觸面係接觸於該載料承載面。當將該物料 面==推向該出料輸送道時,由於載料架之載料承載 合翻w所對應之該出料輸送道之出料輸送面,該物料 曰翻轉承置於該出料輪送道,使該 於該出料輪送面。 +之苐一接觸面接觸 本發明對料·術之料: 供之存與輸出設備,本發明所提 出料輸送道彼此分別二=’猎由將數個進料輸送道與 升物料輪送處理之配置;方式,不僅能有效提 、’、更此有效郎省配置空間。此外, 1373442 利用各載料架之載料承載面係高於該出料輸送道之出料輸 送面的特性,可使該物料翻轉至不同面進行加工處理。 【實施方式】 請參閱第一圖至第四圖,第一圖係本發明較佳實施例 之第一立體示意圖,第二圖係本發明較佳實施例之第二立 體示意圖,第三圖係顯示本發明較佳實施例之上視示意 圖,第四圖係顯示本發明較佳實施例儲存與輸出物料之動 線示意圖。如圖所示,一物料調配儲存與輸出設備100, 係配置於一物料輸入區1與一物料輸出區2之間,藉以依 據工作產能而將複數個物料3自一物料輸入區.-1·調配輸入 儲存,然後再調配輸出至一物料輸出區2。 該產能調配儲存設備100包含有一產能調配儲存裝置 4、數個進料輸送道5、數個出料輸送道6、數個進料推送 機構7與數個出料推送機構8。該產能調配儲存裝置4包 含有一調配進料區41、一調配出料區42、一主支樓結構 43、一齒輪組44、一對傳動鍵條45、複數個載料架46、 數個配重組件47與數個驅動單元48。該齒輪組44包含有 複數個定齒輪441與動齒輪442。 該定齒輪441係結合於該主支撐結構43。該傳動鏈 條45係齒接與套附於該定齒輪441與動齒輪442,藉以形 成一預定之傳輸動線I,且該傳輸動線I經過該調配進料 區41與該調配出料區42。 該載料架46係結合於該傳動鏈條45,藉以承載該物 9 U/J442 Π 且件47係結合於該動齒輪442,藉以依據該 產月&调配儲存裝置4肉部夕兮共t,丨* … 内。卩之6玄載料架46承載與輸送該物 料3之狀況而調整配重。 48係定裝設於該產能調配儲存裝置4 =獨輸動線1經過之位置,並齒接套附於該傳動鍵 :条,错以驅動該傳動鏈條45沿該傳輸動線!運動。在 本發明較佳實施例中,哕 州斑-動力供二V 早 包含有一驅動齒輪 技/ 應70件482。其中,該驅動齒輪48】係齒 ===條45,該動力供應元件482係馬達,並 ==調配儲存裳置”鄰近該傳動鏈條“ 提^«« 4 4位置’亚連結於該驅動齒輪.、48〗,藉以 ki、该驅動齒輪481 運動之動力。 K專動鏈條45沿該傳輸動線jThe condition of the wheel-out equipment, especially the material storage storage and output setting = also reflects the condition of the material output. When the material stored in the storage allocation 2 is saturated, it cannot be sent to the road. Subsequent input materials cannot be stored. The storage group will also return the material from the storage dispenser to the material input area. Right Xi ^I have solved the problem of this type. There is a material storage and output device for the conveyor channel. However, in this material storage and output device, although the rate of conveying materials can be increased, and because of the large number of transport lanes, it is necessary to occupy a large configuration space, which affects It is planned to use 6 square meters, and the number of configuration and working space of material storage and output S is limited. [Technical Problem] The technical problem to be solved by the present invention is as follows: The material storage and output of the road is έ f there is a material handling failure caused by poor processing speed 2 ° for material storage and output equipment combined with multiple wheel lanes The second time exists because the large amount of configuration space must be occupied, and the problem of the amount of material storage and output equipment and the space of t is reduced. In addition, in the specific material processing process, different work. Two-sided ordering plus 1 processing operation. Therefore, it is necessary to invert the material to be effective on the different sides of (4). I. The main purpose of the invention is to provide a material storage and storage. 2 Material allocation storage And the output device includes - production # sub-device, several sub-joints connected to the material conveying channel and the ancestral 拎.,, + 咕 甘 衣 straight feeding - stacking feeding area: two! Road and discharge conveyor The equipment is arranged in a stacking arrangement between the rafts and the rafters. The equipment:::::::In the supply of materials, the storage and storage of the materials, the equipment contains a plurality of materials. The material carrying device of the feeding wheel of the conveying path (4) is higher than the discharging wheel. The technical means for solving the problem of the present invention: 1373442 The technical means adopted by the present invention for solving the problems of the prior art provides a material blending Storage and output device According to the working capacity, a plurality of materials are allocated from the material-input area, and then the output is output to a material output area. The capacity-dispensing storage device includes a capacity. The weekly storage device and the several feed channels And the discharge conveying lane, each of the feeding conveying lane and the discharging conveying lane are adjacent to the compounding feeding zone and the distribution discharging zone of the capacity-dispensing storage device respectively. The capacity-dispensing storage device utilizes the transmission=strip and the tooth (10) Drive 'and send the material from the feed conveyor to the load hopper," and then rotate the line, and then distribute the output to the output through the blending feed zone of the capacity-dispensing storage device and the 5-week dispensing zone. Material conveyor. The feed conveying path and the discharging wheel feeding path are respectively arranged in a stacking frame in the - φ frame feeding section and the stacking discharging section. ‘, 兮 ^ ^ The implementation of the present invention, when the carrier carries materials, ° from the % = first contact surface is in contact with the carrier bearing surface. When the material surface== is pushed to the discharge conveying path, the material is turned over and placed due to the discharging conveying surface of the discharging conveying passage corresponding to the loading and unloading w of the loading rack. The feed wheel is fed to the surface of the discharge wheel.苐 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触 接触The configuration; the way, not only can effectively raise, ', and more effective Lang province configuration space. In addition, 1373442 utilizes the characteristics of the load carrying surface of each carrier to be higher than the discharge conveying surface of the discharge conveyor, so that the material can be turned over to different sides for processing. [First Embodiment] The first drawing is a first perspective view of a preferred embodiment of the present invention, and the second drawing is a second perspective view of a preferred embodiment of the present invention. The top view of the preferred embodiment of the present invention is shown. The fourth figure shows a schematic diagram of the moving line for storing and outputting materials according to a preferred embodiment of the present invention. As shown in the figure, a material preparation storage and output device 100 is disposed between a material input area 1 and a material output area 2, so that a plurality of materials 3 are input from a material input area according to the working capacity. The input storage is adjusted, and then the output is adjusted to a material output area 2. The capacity-dispensing storage device 100 includes a capacity-distributing storage device 4, a plurality of feed conveyors 5, a plurality of discharge conveyors 6, a plurality of feed-feeding mechanisms 7, and a plurality of discharge-feeding mechanisms 8. The capacity-dispensing storage device 4 comprises a compounding feeding area 41, a dispensing and discharging area 42, a main branch structure 43, a gear set 44, a pair of transmission key strips 45, a plurality of loading racks 46, and a plurality of matching The heavy component 47 is coupled to a plurality of drive units 48. The gear set 44 includes a plurality of fixed gears 441 and a movable gear 442. The fixed gear 441 is coupled to the main support structure 43. The transmission chain 45 is attached and sleeved to the fixed gear 441 and the movable gear 442 to form a predetermined transmission moving line I, and the transmission moving line I passes through the compounding feeding area 41 and the dispensing discharge area 42. . The loading frame 46 is coupled to the transmission chain 45 to carry the object 9 U/J 442 且 and the member 47 is coupled to the moving gear 442, thereby arranging the meat storage unit according to the production month & , 丨* ... inside. The weight of the material is adjusted and the weight is adjusted by carrying the material of the material. The 48 series is installed in the capacity distribution storage device 4 = the position where the single transmission line 1 passes, and the toothed sleeve is attached to the transmission key: strip, which is wrong to drive the transmission chain 45 along the transmission line! motion. In a preferred embodiment of the invention, the zebra-power supply two V includes a drive gear/70 482. Wherein, the driving gear 48] is a tooth===strip 45, the power supply component 482 is a motor, and == the deployment storage skirt is adjacent to the transmission chain. The lifting position is connected to the driving gear. ., 48〗, by ki, the driving gear 481 movement power. K special chain 45 along the transmission line j
If ;^進料輸②道5係鄰接於該調配進料區41,且分別 具備有一進料輸入端51、— 且刀別 53及-與該進料側緣53相對之推::52 : 一進料側緣 端51係鄰接於該物料輸入區〗料5二各進料輸入 該進料輸入端51,,⑼ 輸“ 52係連通 並可在該推_緣^==娜料側㈣, 時,防止物料因為推播成'、以在物枓集中推送 道5。回&々私 偏移重心而下滑出該進料輪逆 同時,各進料輪送道5係 抖輸运 間隔疊架配置,鈐以_,丨、— 且木入枓區段55彼此 置精以即喝該進料輸送道5之配 各出料輪送道6分別具備有 二間。 料輪出端62、-疊架出料輪送道63盘屮61、-出 與一水平出料輪送道 f4,該出料輸入端61係位於該調配出料區之鄰近位置, j出料輸出端62係依序經由該水平出料輸送道64與該疊 木出料輸送道63而連通該出料輸入端61,並 ::料輪出區2。同時.各出科輪送道6之叠架:: 係在一疊架出料區段631彼此間隔疊架配 以 該出料輸送道6之配置空間。 猎乂卽名 各進料推送機構7係分別對應裝設於該進科輸出端 二2?進料區41之鄰近位置。各出料推送機構8係 ㈣應裝設於該詞配出料區42與該出料輸入端Η之鄰 物料3時,該物料係自該物 輪入端而傳送至該進料輪出广^輪^經由該_ 構7而推送至爷庙出而52,猎由該進料推送機 後…存裝置4之調配進料區4卜狄 仗w傳輸動'線W送至該產能調 …、 6出料區42 ’藉由該出料推送機構8而推送至;出二 61,並經由該叠架出料輪送道63而出枓輸入知 64轉為水平配置輪送之型 而在料平出料輸送道 最後,再輸送至該物料輸出;2輯至該出料輸出端I »月參閱第五圖,其俜 示意圖,藉以說明物料二 四圖中目Α戶斤示區域之 所示,該載料架46具備有_載料架翻轉下架之原理。如圖 道ό具備有一出料輪送面65載料承載面46卜該出料輸送 31與-第二接觸面32 料:物料具備有-第-接觸面 第一接觸面31係接觸於 1373442 該裁料承載面46卜該載料承載面461係 :二料輸送面65。當該載料架46搭載該:料;所 ,輪動線I而輸送至該調配出料區42 : ' ’。衣 構8會將該物料3自該载料承载面461推出遠出料推送機 3之第二接觸面32接觸於該出料輸送面65,:使4物料 料3翻轉承置於該出料輸送面65。 進而使該物 舉凡;ίΑ省相關技藝之人士皆能理解,绿&If ; ^ feed 2 lanes 5 are adjacent to the blending feed zone 41, and respectively have a feed input end 51, - and the cutter 53 and - opposite the feed side edge 53: 52: A feeding side edge end 51 is adjacent to the material input area, and each of the feeds is input to the feed input end 51, (9) is input "52 series connected and can be on the push_edge ^==na material side (four) , to prevent the material from being pushed into ', to push the road 5 in the object. The back and the center of gravity shift out of the feed wheel and the feed wheel is 5 In the stacking configuration, the 枓, 丨, - and the wood enthalpy sections 55 are placed in close proximity to each other to drink the feeding conveyor 5, and each of the discharging wheels 6 is provided with two compartments. , - the stack discharge wheel 63 屮 61, - out and a horizontal discharge wheel delivery line f4, the discharge input end 61 is located adjacent to the deployment discharge area, j discharge output end 62 The discharge input end 61 is sequentially connected to the stack discharge conveyance path 63 via the horizontal discharge conveyance path 64, and: the material wheel exit area 2. At the same time, the stack of each of the delivery lines 6 is: : tied in a stack The material sections 631 are spaced apart from each other and are arranged with the arrangement space of the discharge conveying path 6. Each of the feeding and pushing mechanisms 7 of the hunting stalks is respectively arranged adjacent to the feeding area of the second feeding area 41 of the entrance. Position: Each discharge pushing mechanism 8 (4) should be installed in the word dispensing area 42 and the adjacent material 3 of the discharging input end, the material is transferred from the object wheel end to the feeding wheel Out of the wide ^ wheel ^ is pushed to the temple through the _ structure 7 and 52, after hunting by the feed pusher... the loading device 4 of the storage device 4 Bu Di 仗 w transmission 'line W to the capacity The adjustment ..., 6 discharge area 42 ' is pushed by the discharge pushing mechanism 8; the second 61 is outputted through the stack discharge wheel 63, and the input is 64 to the horizontal arrangement. At the end of the leveling discharge conveyor, the material is sent to the output of the material; 2 to the output end of the discharge I » month, see the fifth picture, which is a schematic diagram to illustrate the area of the material in the picture As shown, the loading rack 46 is provided with the principle that the loading rack is turned down. The weir is provided with a discharging wheel feeding surface 65 carrying material carrying surface 46. 31 and - second contact surface 32 material: material has a - first contact surface first contact surface 31 is in contact with 1373442. The material carrying surface 46 is the carrier carrying surface 461 system: two material conveying surface 65. The loading rack 46 carries the material: and the rolling line I is transported to the dispensing and discharging area 42: '. The clothing 8 will push the material 3 from the loading surface 461 to the far discharging pusher 3 The second contact surface 32 is in contact with the discharge conveying surface 65, so that the material 4 is inverted and placed on the discharge conveying surface 65. Further, the object can be understood; those skilled in the art can understand that Green &
與輸出設備1GG更能结合習用之物、& ;缝儲存 /… 仏…用之物流流率監控系統,並可 配進料區41與該調配出料區42,甚至是該載料架 之鄰近位置分別裝設物料_計數單元,並將偵測么士果 連結於物流流率監控系統’據以分別調配該物料遣入_ 配進料區41與該職出料區42之數量與速率,亦即調整 該傳動鏈條45、該進料輸送道5與該出料輸送道6之運^ 速率。例如’當該產能調配儲存裝置4内所囤積之該物料 3趨近飽和狀態時,就會加速該傳動鏈條^與該出料輸送 道6之運作速率’藉以將大量之物料3輸出至該物料輸出 區2 〇 藉由上述之本發明實施例可知,本發明確具產業上之 利用價值。惟以上之實施例說明,僅為本發明之較佳實施 例說明’凡習於此項技術者當可依據本發明之上述實施例 說明而作其他種種之改良及變化。然而這些依據本發明實 施例所作的種種改良及變化,當仍屬於本發明之發明精神 及界定之專利範圍内。 12 1373442 【圖式簡單說明】 第一圖係本發明較佳實施例之第一立體示意圖; 第二圖係本發明較佳實施例之第二立體示意圖; 第三圖係顯示本發明較佳實施例之上視示意圖; 第四圖係顯示本發明較佳實施例儲存與輸出物料之動線示 意圖; 第五圖係顯示第四圖中圈A所示區域之示意圖。 【主要元件符號說明】 100 物料調配儲存與輸出設備 1 物料輸入區 .、· ·· 2 物料輸出區 3 物料 31 第一接觸面 32 第二接觸面 4 產能調配儲存裝置 41 調配進料區 42 調配出料區 43 主支撐結構 44 齒輪組 441 定齒輪 442 動齒輪 45 傳動鏈條 46 載料架 1373442 461 載料承載面 47 配重組件 48 驅動單元 481 482 5 51 52 53 驅動齒輪 動力供應元件 進料輸送道 進料輸入端 進料輸出端 進料側緣 54 推料側緣 55 疊架入料區段 6 出料輸送道It can be combined with the output device 1GG, the storage flow rate monitoring system, and can be equipped with a feed zone 41 and the dispensing discharge zone 42, even the carrier. A material_counting unit is installed in the adjacent position, and the detection of the nectar fruit is linked to the logistics flow rate monitoring system to separately allocate the quantity and rate of the material displacing area 41 and the job discharging area 42 respectively. That is, the transmission rate of the transmission chain 45, the feed conveying path 5 and the discharge conveying path 6 is adjusted. For example, when the material 3 accumulated in the capacity-dispensing storage device 4 approaches a saturated state, the operating speed of the transmission chain and the discharge conveyor 6 is accelerated, so that a large amount of the material 3 is output to the material. Output Area 2 As can be seen from the above-described embodiments of the present invention, the present invention has industrial use value. However, the above embodiments are merely illustrative of the preferred embodiments of the present invention, and other modifications and changes can be made by those skilled in the art in light of the above-described embodiments of the present invention. However, various modifications and changes made in accordance with the embodiments of the present invention are still within the scope of the invention and the scope of the invention. 1 is a first perspective view of a preferred embodiment of the present invention; a second perspective view of a preferred embodiment of the present invention; and a third perspective view showing a preferred embodiment of the present invention. FIG. 4 is a schematic view showing the moving line of the storage and output materials in the preferred embodiment of the present invention; and the fifth drawing is a schematic view showing the area shown by the circle A in the fourth figure. [Main component symbol description] 100 Material preparation storage and output device 1 Material input area., ··· 2 Material output area 3 Material 31 First contact surface 32 Second contact surface 4 Capacity preparation storage device 41 Preparation feeding area 42 Provisioning Discharge area 43 Main support structure 44 Gear set 441 Fixed gear 442 Moving gear 45 Drive chain 46 Carrier frame 1373442 461 Carrier bearing surface 47 Counterweight assembly 48 Drive unit 481 482 5 51 52 53 Drive gear power supply element feed conveying Feed input end feed output end feed side edge 54 pusher side edge 55 stack feed section 6 discharge conveyor
61 62 63 631 64 出料輸入端 出料輸出端 疊架出料輸送道 疊架出料區段 水平出料輸送道 65 出料輸送面 7 進料推送機構 8 出料推送機構 1461 62 63 631 64 Discharge input Discharge output Stack discharge conveyor Stack discharge section Horizontal discharge conveyor 65 Discharge conveying surface 7 Feed push mechanism 8 Discharge push mechanism 14