M439070 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種具有可移動天平結構的滴液裝 置,尤指以同一計量天平可移動去計量有管路式滴液或無管 路式滴液,以降低染料原料總計量的誤差者。 【先前技術】 • 染料自動滴液的計量裝置,在傳統上,主要分為有管路 式及無管路式滴液兩種,其中有管路式之染料自動滴液計量 裝置,係在機台上方設置有一容器置放平台,其上列置有複 數個原料容器,每一個原料容器頂部設有一電磁閥及套接有 一支滴液導管,該滴液導管係延伸至容器置放平台之下方空 間。在該機台之下方位置設置有一圓形轉盤,並在該圓形轉 盤上環列有數個孔洞,每一個孔洞承置一個染杯。該圓形轉 盤由一馬達驅動旋動,以將其中 >個選定之染杯旋轉至一計 • 量天平上方之位置,以進行滴液量之計量作業。而,染料原 料係藉由一電腦控制及設於各個原料容器上之電磁閥之控 制,由不同之原料容器取出不同比例之原料,再經由滴液導 管及滴液頭滴落在染杯内,同時在該滴液過程中,由該計量 天平進行計量工作。 至於無管路之染料自動滴液計量裝置,則是以無管路式 之架構來取代前述之滴液導管,其係在一機架設置至少一原 料容器轉盤,原料容器轉盤上以環狀排列置複數個原料容 器,在原料容器轉盤之下方配置一染杯轉盤,染杯轉盤設有 3 M4390.70 數個壞列之孔洞,每一洞孔用以承置一個染杯,每一個染杯 下方由i托所承托,並在其下方設有〜計量天平。而,原 料則係藉由-電腦配合滴液裝置之㈣,0同之原料容器 取出不同比例之原料,再將原料由滴液装置赫在染杯内。 在實際拥上可能會__上述兩種計量裝置, 如要在兩種計量裝置間再移來移去, 拿錯而操作失誤,因此,乃有—種配w不方f更有可此 式滴液計量天平之染料自動滴液計量無官路式及有管路 在-機架上設置無管路式及有管路式係同時 無管路式滴液計量天平及有管路式滴液=二並】 機架設置至少一個原料容器轉盤,並/ ^ #在一 上列置複數锻有-滴液裝置之轉广㈣料容器轉盤 厚种谷器,在該原料容器棘 盤之下方配置一染杯轉盤,並由該染“㈣今器轉 在該染杯轉盤之下方,配置至少」個盤承置數個染杯, # «ρ # 彳固無管路式滴液計量天 平,用以靠統裝置滴落麵—之補計量另外 在該機架綠置至少―_料原料容器以一滴 液導管連通,錢液導官之崎h係延伸至純轉盤之上 方’並於該㈣轉盤之τ方配置至少—财管路式滴液計量 天平,用以對滴落在染杯内之原料予以計量。 而由上述可知’現有最衫的染料自^滴液計量裝置仍 明顯的以不同的天平去計4染料自動職,這樣做仍存在-個問題:不同的天平_計4以_影_計量㈣差。 【新型内容】 4 M439070 本創作係針對現有之染料自動滴液計量裝置,係分別針 對有管路式滴液計量與無管路式滴液計量而設置計量天 平,而難以降低總計量誤差之缺點,而提供使用者一種具有 可移動天平結構的滴液裝置,藉一驅動單元驅動一承載座移 動一計量天平,而可針對同一染杯在整個滴液流程一路到底 計量,而具有降低總誤差量而提昇精確率之增進功效。 所述之一種具有可移動天平結構的滴液裝置,係包括至 少一染杯移動機構、一計量天平、一承載座及一驅動單元, 所述的染杯移動機構係用以移動至少一染杯,所述的染杯係 用以盛裝染料原料的滴液,計量天平係用以對所述的染杯的 滴液加以計量,承載座係用以承載該計量天平,驅動單元係 用以驅動該承載座運動而變更位置,以令所述的計量天平對 應所述的染杯;藉之,所述的計量天平可隨所述的染杯而變 換位置,並在所述的染杯在整個滴液流程一路到底,針對不 同染料原料均以同一計量天平計量,達到降低總計量誤差之 增進功效。 所述之具有可移動天平結構的滴液裝置,其中所述的染 杯移動機構係一輸送帶或一轉盤之一;藉之,所述的染杯至 少可在二個以上的位置對應計量天平。 所述之具有可移動天平結構的滴液裝置,其係包括至少 一有管路滴液單元及至少一無管路滴液單元,其中所述的有 管路滴液單元對應一第一滴液位置,所述的無管路滴液單元 對應一第二滴液位置;藉之,所述的驅動單元驅動計量天平 至少可在二個以上的位置對應染杯。 5 M4390.70 所述之具有可移動天平結構的滴液裝置,其中所述的驅 動單元係驅動該承載座移動,而對應於所述的第一滴液位置 或所述的第二滴液位置之一;藉之,所述的驅動單元驅動計 量天平,而可分別對有管路滴液單元及無管路滴液單元提供 的滴液計量,提昇了滴液計量可以一計量天平一路到底之可 行性。 所述之具有可移動天平結構的滴液裝置,所述的驅動單 元係包括一壓缸以驅動該承載座;藉之,所述的驅動單元可 驅動計量天平至少可在二個以上的位置對應染杯,而可對有 管路滴液單元及無管路滴液單元提供的滴液均可計量。 所述之具有可移動天平結構的滴液裝置,其係包括一滑 軌,且該滑執對應供所述的承載座移動;藉之,可規範其移 動軌跡之穩定性。 所述之具有可移動天平結構的滴液裝置,其中所述的承 載座更包括複數個滚輪;藉之,可減少移動之摩擦力,減少 驅動單元的能量消耗。 而由上述可知本創作所提供之具有可移動天平結構的 滴液裝置,確實可讓染料之滴液奸量可以一計量天平一路到 底,且具有降低總計量誤差之增進功效。 本創作所採用的具體實施例,將藉由以下之實施例及附 呈圖式作進一步之說明。 【實施方式】 請參閱第1圖,係本創作實施例之構造示意圖兼操作示 6 M439070 意圖之一,如圖所示,本創作之實施例所述之一種具有可移 動天平結構的滴液裝置,係包括至少一染杯移動機構1、一 計量天平2、一承載座3及一驅動單元4,所述的染杯移動 機構1係設有托杯11A、11B用以移動至少一染杯12A、 12B,所述的染杯12A、12B係用以盛裝染料原料的滴液, 計量天平2係用以對所述的染杯12A、12B的滴液加以計 量,承載座3係用以承載該計量天平2,驅動單元4係用以 驅動該承載座3運動而變更位置,以令所述的計量天平2 對應所述的染杯12A、12B ;藉之,所述的計量天平2可隨 所述的染杯12A、12B而變換位置,並在所述的染杯12A、 12B在整個滴液流程一路到底,針對不同染料原料均以同一 計量天平2計量,達到降低總計量誤差之增進功效。 所述之具有可移動天平結構的滴液裝置,其中所述的染 杯移動機構1係一輸送帶或一轉盤之一,該輸送帶或一轉盤 可搭配一習知的馬達(未示)予以驅動,使該染杯移動機構1 以一上升方向II上升或一下降方向12下降。藉之,所述的 染杯12A、12B至少可在二個以上的位置對應計量天平2。 所述之具有可移動天平結構的滴液裝置,其係包括至少 一無管路滴液單元5及至少一有管路滴液單元6,其中所述 的無管路滴液單元5包括至少一容器51及至少一滴液閥 52,無管路滴液單元5係對應一第一滴液位置A,所述的有 管路滴液單元6包括一管路61,有管路滴液單元6係對應 一第二滴液位置B;藉之,所述的驅動單元4驅動計量天平 2至少可在二個以上的位置對應染杯12A、12B。 7 M439070 所述之具有可移動天平結構的滴液裝置,其中所述的驅 動單元4係驅動該承載座3移動,而對應於所述的第一滴液 位置A或所述的第二滴液位置B之一;藉之,所述的驅動 單元4驅動計量天平2,而可分別對無管路滴液單元5及有 管路滴液單元6提供的滴液計量,提昇了滴液計量可以一計 量天平2 —路到底之可行性。 所述之具有可移動天平結構的滴液裝置,所述的驅動單 元4係包括一壓缸41以驅動該承載座3 ;藉之,所述的驅 動單元4可驅動計量天平2至少可在二個以上的位置對應染 杯12A、12B,而可對無管路滴液單元5及有管路滴液單元 6提供的滴液均可計量。 所述之具有可移動天平結構的滴液裝置,其係包括一滑 執42,且該滑轨42對應供所述的承載座3移動;藉之,可 規範其移動軌跡之穩定性。 所述之具有可移動天平結構的滴液裝置,其中所述的承 載座3更包括複數個滚輪31;藉之,可減少移動之摩擦力, 減少驅動單元4的能量消耗。 本創作實施例操作時,請參閱第1圖至第6圖,其中第 1圖係為本創作實施例操作時之起始狀態,計量天平2於無 管路滴液單元5下方的第一滴液位置A,染杯移動機構1 以一上升方向II升起。染杯12A連同杯托11A受到染杯移 動機構1升起而與計量天平2脫離。 第2圖係無管路滴液單元5準備滴液狀態之示意圖,計 量天平2於第一滴液位置A,染杯移動機構1以一下降方向 8 M439070 12下降,染杯12A連同杯托11A與計量天平2接合且與染 杯移動機構1脫離,有管路滴液單元6開始滴液。 第3圖係本創作實施例之操作示意圖之三,係為無管路 滴液單元5滴液完成並回到起始,計量天平2仍於第一滴液 位置A,染杯移動機構1以一上升方向II升起,染杯12Α 連同杯托11A與計量天平2脫離且與染杯移動機構1接合。 第4圖係為有管路滴液單元6準備滴液狀態,計量天平 2移至有管路滴液單元6下方的第二滴液位置B,染杯移動 機構1以一下降方向12下降,染杯12B連同杯托11B與計 量天平合且與染杯移動機構1脫離,並開始滴液。 第5圖係為有管路滴液單元6滴液完成,計量天平2 仍於有管路滴液單元6下方的第二滴液位置B,染杯移動機 構1以一上升方向II升起,染杯12B連同杯托11B與計量 天平2脫離且與染杯移動機構1接合。 第6圖係為動作完成並回復至起始狀態,計量天平2 於無管路滴液單元5下方的第一滴液位置A,染杯移動機構 1以一上升方向II升起,染杯12A連同杯托11A與計量天 平2脫離但與染杯移動機構1接合。 而由上述可知本創作所提供之具有可移動天平結構的M439070 V. New description: [New technical field] This creation is about a drip device with a movable balance structure, especially if the same metering balance can be moved to measure piped drip or no pipe type. Drop the liquid to reduce the error in the total metering of the dye material. [Prior Art] • The metering device for automatic dye dropping is traditionally divided into two types: pipeline type and no line type drip. Among them, the line type dye automatic liquid metering device is attached to the machine. A container placement platform is arranged above the table, and a plurality of raw material containers are arranged on the top of each of the raw material containers, and a liquid valve is arranged on the top of each of the raw material containers and a drip conduit is connected, and the liquid drop conduit extends below the container placement platform. space. A circular turntable is arranged below the machine, and a plurality of holes are arranged in the circular turntable, and each hole carries a dyeing cup. The circular turn is driven by a motor to rotate the selected <selected dye cups to a position above the balance to perform the metering operation. The dye raw material is controlled by a computer controlled and solenoid valve disposed on each raw material container, and different raw materials are taken out from different raw material containers, and then dropped into the dyeing cup through the dropping conduit and the dripping head. At the same time, during the dripping process, the metering work is carried out by the metering balance. As for the automatic dye dropping measuring device without pipeline, the above-mentioned drip conduit is replaced by a non-pipeline structure, which is provided with at least one raw material container turntable in a rack, and the raw material container turntable is arranged in a ring shape. A plurality of raw material containers are placed, and a dye cup turntable is arranged below the turntable of the raw material container. The dye cup turntable is provided with 3 M4390.70 holes of several bad columns, each hole for holding one dye cup, each dye cup The bottom is supported by the i-tower and has a measuring balance below it. However, the raw material is taken out by the computer with the dropping device (4), and the raw material container of the same material is taken out in different proportions, and the raw material is placed in the dyeing cup by the dropping device. In the actual possession, there may be __the above two kinds of measuring devices, if they are to be moved between the two measuring devices, and the mistakes are made. Therefore, there is a kind of matching w, which is more suitable for this type. Drip metering balance dye automatic drip metering without official road type and pipeline on-rack setting without pipeline type and pipeline type without pipeline type drip metering balance and pipe type drip =二二】 The rack is equipped with at least one raw material container turntable, and / ^ # is placed on top of a plurality of forged-drip devices, and the wide (four) material container turntable thick seeder is disposed under the raw material container ratchet A dyed cup carousel, and the dyed "(4) is transferred to the bottom of the dyeing cup turntable, and at least one of the trays is provided with several dye cups, # «ρ # 彳固无线式滴液计量balance, with In addition to the drip surface of the device - the metering is additionally placed in the rack at least the material container is connected by a drop of liquid conduit, and the liquid liquid guide is extended to the top of the pure turntable and is in the (four) turntable. τ side configuration at least - financial pipeline type liquid metering balance for the material dropped in the dye cup the amount. From the above, it can be seen that the 'existing most shirt dyes' from the liquid drop metering device still clearly counts 4 dyes automatically with different balances, and this still exists - a problem: different balances _ 4 to _ shadow _ meter (four) difference. [New Content] 4 M439070 This creation is based on the existing automatic dye metering device for dyes. It is designed to set metering balances for pipe-type drip metering and pipe-free drip metering, and it is difficult to reduce the shortcomings of total metering error. Providing a user with a drip device having a movable balance structure, by driving a carrier to drive a metering balance, and measuring the entire dyeing process for the same dyeing cup, and reducing the total error amount And improve the accuracy of the improvement. The drip device having a movable balance structure includes at least one dye cup moving mechanism, a metering balance, a carrier and a driving unit, wherein the dye cup moving mechanism is used to move at least one dye cup The dyeing cup is used for containing the dripping liquid of the dye raw material, and the measuring balance is used for measuring the dripping liquid of the dyeing cup, the carrying base is used for carrying the measuring balance, and the driving unit is used for driving the dyeing cup. The carrier moves to change position so that the metering balance corresponds to the dyeing cup; thereby, the metering balance can change position with the dyeing cup, and the dyeing cup is in the whole drop The liquid flow all the way to the end, for the different dye raw materials are measured by the same metering balance, to achieve the effect of reducing the total measurement error. The drip device with a movable balance structure, wherein the dye cup moving mechanism is one of a conveyor belt or a turntable; the dye cup can be used for at least two positions corresponding to the metering balance . The drip device having a movable balance structure, comprising at least one pipe drip unit and at least one pipe drip unit, wherein the pipe drip unit corresponds to a first drop The position of the line-free drip unit corresponds to a second drop position; wherein the drive unit drives the metering balance to correspond to the dye cup at least two positions. 5 M4390.70, the drip device having a movable balance structure, wherein the driving unit drives the carrier to move, and corresponds to the first drip position or the second drip position In one case, the driving unit drives the metering balance, and the drip metering provided by the pipeline drip unit and the no-system drip unit respectively can improve the drip metering and measure the balance all the way. feasibility. The drip device having a movable balance structure, the drive unit includes a pressure cylinder to drive the carrier; wherein the drive unit can drive the metering balance to correspond to at least two positions The cup is dyed, and the drip provided by the line drip unit and the line-free drip unit can be metered. The drip device having a movable balance structure includes a slide rail, and the slipper corresponds to the movement of the carrier; thereby, the stability of the movement trajectory can be regulated. The drip device having a movable balance structure, wherein the carrier further comprises a plurality of rollers; thereby reducing the friction of the movement and reducing the energy consumption of the driving unit. From the above, it can be seen that the drip device with the movable balance structure provided by the present invention can make the amount of dye dripping can be measured all the way to the bottom, and has the effect of reducing the total measurement error. Specific embodiments of the present invention will be further illustrated by the following examples and the accompanying drawings. [Embodiment] Please refer to FIG. 1 , which is a schematic diagram of the design of the present embodiment and an operation guide 6 M439070. As shown in the figure, a drip device with a movable balance structure according to an embodiment of the present invention is shown. The utility model comprises at least one dyeing cup moving mechanism 1, a measuring balance 2, a bearing base 3 and a driving unit 4, wherein the dyeing cup moving mechanism 1 is provided with the supporting cups 11A, 11B for moving at least one dyeing cup 12A. 12B, the dye cups 12A and 12B are used for containing the dripping liquid of the dye raw material, and the measuring balance 2 is used for measuring the dripping liquid of the dyeing cups 12A and 12B, and the bearing base 3 is used for carrying the same. Measuring the balance 2, the driving unit 4 is used to drive the movement of the carrier 3 to change the position, so that the measuring balance 2 corresponds to the dyeing cups 12A, 12B; by the above, the measuring balance 2 can be used The dyeing cups 12A and 12B are changed in position, and the dyeing cups 12A and 12B are all in the same way in the whole dripping process, and the dyeing materials are metered by the same metering balance 2 to achieve the effect of reducing the total metering error. The drip device having a movable balance structure, wherein the dye cup moving mechanism 1 is a conveyor belt or a turntable, and the conveyor belt or a turntable can be combined with a conventional motor (not shown). The driving moves the dyeing cup moving mechanism 1 downward in a rising direction II or in a falling direction 12. The dye cups 12A, 12B can be used to measure the balance 2 at least two positions. The drip device having a movable balance structure includes at least one line-free drip unit 5 and at least one line drip unit 6, wherein the line-free drip unit 5 includes at least one The container 51 and the at least one drip valve 52, the no-system drip unit 5 corresponds to a first drip position A, and the line drip unit 6 comprises a line 61 having a line drip unit 6 Corresponding to a second drip position B; the drive unit 4 drives the metering balance 2 to correspond to the dye cups 12A, 12B at least two positions. 7 M439070, the drip device having a movable balance structure, wherein the driving unit 4 drives the carrier 3 to move, and corresponds to the first drip position A or the second drip The drive unit 4 drives the metering balance 2, and the metering of the drip liquid provided by the line-free drip unit 5 and the line drip unit 6 respectively can improve the drip metering. A metering balance 2 - the feasibility of the road. The drip device having a movable balance structure, the drive unit 4 includes a pressure cylinder 41 to drive the carrier 3; the drive unit 4 can drive the metering balance 2 at least two More than one position corresponds to the dye cups 12A, 12B, and the dripping liquid provided by the line-free drip unit 5 and the line drip unit 6 can be metered. The drip device having the movable balance structure includes a slide 42 which is corresponding to the movement of the carrier 3; thereby, the stability of the movement track can be regulated. The drip device having the movable balance structure further includes a plurality of rollers 31; thereby, the frictional force of the movement is reduced, and the energy consumption of the driving unit 4 is reduced. For the operation of the present embodiment, please refer to FIG. 1 to FIG. 6 , wherein FIG. 1 is the initial state of the operation of the present embodiment, and the first drop of the metering balance 2 under the no-system drip unit 5 At the liquid position A, the dyeing cup moving mechanism 1 is raised in a rising direction II. The dyeing cup 12A together with the cup holder 11A is lifted by the dyeing cup moving mechanism 1 to be separated from the weighing balance 2. Fig. 2 is a schematic diagram of the state in which the no-drop dripping unit 5 prepares the dripping state, the measuring balance 2 is at the first drip position A, the dyeing cup moving mechanism 1 is lowered in a descending direction 8 M439070 12, the dyeing cup 12A together with the cup holder 11A When the metering balance 2 is engaged and disengaged from the dyeing cup moving mechanism 1, the pipe drip unit 6 starts to drip. Figure 3 is the third schematic diagram of the operation of the present embodiment, in which the drip-free liquid drop unit 5 is completed and returned to the start, the metering balance 2 is still at the first drip position A, and the dyeing cup moving mechanism 1 A rising direction II rises and the dyeing cup 12 is disengaged from the metering balance 2 together with the cup holder 11A and engaged with the dyeing cup moving mechanism 1. Figure 4 is a state in which the drip unit 6 is ready for dripping, the metering balance 2 is moved to the second drip position B below the drip unit 6, and the dyeing cup moving mechanism 1 is lowered in a descending direction 12 The dyeing cup 12B, together with the cup holder 11B, is combined with the metering balance and disengaged from the dyeing cup moving mechanism 1 and starts to drip. Figure 5 is the completion of the dripping of the pipe drip unit 6, the metering balance 2 is still in the second drip position B below the pipe drip unit 6, and the dyeing cup moving mechanism 1 is raised in a rising direction II, The dye cup 12B, together with the cup holder 11B, is detached from the metering balance 2 and engaged with the dye cup moving mechanism 1. Figure 6 is the completion of the action and return to the initial state, the balance 2 is at the first drop position A below the no-drop drip unit 5, the dye cup moving mechanism 1 is raised in a rising direction II, the dye cup 12A Together with the cup holder 11A and the metering balance 2, it is engaged with the dye cup moving mechanism 1. From the above, it is known that the creation provided by the creation has a movable balance structure.
I 滴液裝置,確實可讓染料之滴液計量可以一計量天平一路到 底,且具有降低總計量誤差之增進功效。 以上所舉實施例僅係用以說明本創作,並非用以限制本 創作之範圍,因此,舉凡與上述實施例等效,均仍應包含於 本創作之精神範圍内。 9 M439070 【圖式簡單說明】 第1圖係本創作實施例之構造示意圖且顯示操作時之 起始狀態示意圖。 第2圖係本創作無管路滴液單元準備滴液狀態之示意 圖。 第3圖係本創作無管路滴液單元滴液完成並回到起始 狀態之示意圖。 第4圖係本創作有管路滴液單元準備滴液狀態之示意 圖。 第5圖係本創作有管路滴液單元滴液完成並回到起始 狀態之示意圖。 第6.圖係本創作動作完成並回復至起始狀態之示意圖。 【主要元件符號說明】 1 染杯移動機構 11A、11B 托杯 12A > 12B 染杯 2 計量天平 3 承載座 31 滚輪 4 驅動單元 41 壓缸 42 滑軌 M439070I drip device, which can make the metering of dyes can measure the balance all the way to the bottom, and has the effect of reducing the total measurement error. The above-mentioned embodiments are only intended to illustrate the present invention and are not intended to limit the scope of the present invention. Therefore, all equivalents to the above embodiments are still included in the spirit of the present invention. 9 M439070 [Simplified description of the drawings] Fig. 1 is a schematic view showing the construction of the present embodiment and showing a schematic diagram of the initial state at the time of operation. Figure 2 is a schematic diagram of the state in which the drip-free unit is prepared for dripping. Figure 3 is a schematic diagram of the creation of the drop-free drip unit in this creation and returning to the initial state. Fig. 4 is a schematic view showing the state in which the drip unit is prepared for dripping. Figure 5 is a schematic diagram of the creation of the drip unit of the pipe drip unit and returning to the initial state. Figure 6. Schematic diagram of the creation of the creation and returning to the initial state. [Main component symbol description] 1 Dye cup moving mechanism 11A, 11B cup 12A > 12B dye cup 2 Metering balance 3 Carrier 31 Roller 4 Drive unit 41 Pressure cylinder 42 Slide rail M439070
5 無管路滴液單元 51 容器 52 滴液閥 6 有管路滴液單元 61 管路 A 第一滴液位置 B 第二滴液位置 11 上升方向 12 下降方向5 No line drip unit 51 Container 52 Drip valve 6 With line drip unit 61 Line A First drop position B Second drop position 11 Ascending direction 12 Falling direction