M347815 八、新型說明: 【新型所屬之技術領域】 本創作係與培養液輸出設傷有關,特別是指—種可較 為穩定地輸出固定量之培養液輪出設備。 【先前技術】 在培養植物組織的時佐,..^ 入M S —般會先在分裝容器内先注 植物組織分株放人容器内吸收培養 液祕物組織可以在運送過程中維持生長狀態。 10 15 20 動,當”受域管之卿㈣培養基的流 田丨nm缸㈣時"即筒之吸引管路即可吸取培 蚕基,再使培養基經由各帥f Μ培養瓶内。 、、主入=述填充機是利用霄動培養基流動而 知从養瓶,母:人充填培養基的時候,都會受到 作 動狀態而影響其輸出量,使得备_ , ° =谷=都不同’無法穩定的輸出培養基4者,上述專 利案之、、、α構相當複雜,使用操作上較為不便。 【新型内容】 因此,本創作之主要目的乃在 設備,其可較為穩定輸出固定量之培魏。種4夜輸出 盆可3的則在於提供-種培養液輪出設備, 其可k為方便地進行培養液之承裝工作。 為達成前揭目的,本創作所提供之培養液輪出設備, 4 M347815 匕岂有儲液裝置、一供壓裝置、一流體控制閥 屮谅駐罢 n |』 Μ及一 產生儲液裝置儲備有培魏,該供壓裝置係用以 空氣’豸流體控制閥係連接該儲液裝置 土凌置,使該儲液裝置之培養液流入該流體控 :: ^置之壓縮空氣職該越控糊纽壓狀態地持綠蓄 輪出量,而該出液裝置具有-感測器、、’,該 置==培ί液即可由壓縮空氣之推動流出該出液裝 定量本創作即可達到每次皆較為穩定地輸出固 之k養液,且較為方便進行培養液之承裝工作。 【實施方式】 以下’茲配合圖式列舉一較佳實施例, 15 20 作之詳細結構與功效。 例用以說明本創 例圖L第二圖所示’係為本創作-較佳實施 培養液輸出設備,包含有-儲液裳置丨0、一供 土犮置2 〇、一流體控制閥3 〇,以及—出液裝置4 〇 ^儲^置㈣顯備有培錢,供㈣置 登掩’可持續地產生出壓縮空氣。 如第三圖所示,該流體控制閥3〇 連接儲液裝置H)與供壓裝置2G,使儲= ,其中—管一流體控制間3〇,:= =空=經由另一管路32連通至流體控制間 夜机入k體控侧30之後,培魏係域㈣氣所推動, 5 M347815 有頻率之開關即可持續蓄積培養液至 比 養液每一次的蓄積過程中,流體控制閥 白:使k錢保持於‘_狀態下流動。 Μ出液装置40係為具有一基座42以及一導管44,基 ^ 2具有一感測器46,當基座42設於一工作台48時,感 ^ 位於工作台48上方,導管44 一端連通於流體 二 >閥3〇,另—端則自基座42朝向工作台48方向。於本 :鈀::感測器46為紅外線感應器,如第四圖與第五圖所 10 15 =田感測裔46前方有物品時,感測器46即可啟動出液 衣置40而你— + 預疋輪出量之培養液由壓縮空氣之推動流 婉至預定輪出量之培養液完全流出出液裝置40為止。 ^由上述組成’當一容器50欲承裝培養液的時候,只 ^ ^50放置在出液裴置40之感測器46前方,使感測器 5Q50即可讓培養液流出導管44而裝入容器 -、於液係透過呈恆壓之流體控制閥30控制流動與 母次的蓄積與輸出量皆可維持穩定,不會讓培 輸出較多量’有時又較少。而且只需將容器50直 接放至承裝培養液,使關作皆便利。 可亩;^ it :所有的培養液輸出完畢之後,如第六圖所示, 片可纟—官44 —端套設一可通入蒸汽之蒸汽管60,使墓 :件=2 6〇回流至出液裝置4〇、流體控制閥30等 構件進而作為殺菌之作用。 出固即可達到每次皆較為穩定輪 4夜’且較為方便地進行培養液之承裝工作。 6 20 M347815 【圖式簡單說明】 第一圖係本創作一較佳實施例之示意圖。 第二圖係本創作一較佳實施例之示意圖,主要顯示出 培養液及壓縮空氣之流動狀態。 5 第三圖係本創作一較佳實施例之示意圖,主要顯示出 定量培養液之流動狀態。 第四圖係本創作一較佳實施例之示意圖,主要顯示容 器設於感測器前方。 第五圖係本創作一較佳實施例之立體圖。 10 第六圖係本創作一較佳實施例之示意圖,主要顯示出 液裝置套設一蒸汽管之狀態。 【主要元件符號說明】 10儲液裝置 20供壓裝置 15 30流體控制閥 32管路 40出液裝置 42基座 44導管 46感測器 48工作台 50容器 60蒸汽管 7M347815 VIII. New description: [New technical field] This creation is related to the output of the culture fluid, especially the culture fluid rotation equipment which can output a fixed amount of stability. [Prior Art] When planting tissue, it is necessary to first inject the plant tissue into the container, and then absorb the culture solution. The tissue can maintain growth during transportation. . 10 15 20 Move, when the flow field of the domain management (four) medium of the flow field 丨 nm cylinder (four), "the tube suction tube can absorb the silkworm base, and then the medium through the handsome f Μ culture bottle. , the main input = the filling machine is to use the turbulent medium to flow and know from the bottle, mother: when the human filling the medium, will be affected by the state of the output and affect its output, so that the preparation _, ° = valley = are different 'can not be stable The output medium of the above-mentioned patents, the α structure is quite complicated, and the operation is inconvenient. [New content] Therefore, the main purpose of the creation is in the equipment, which can stably output a fixed amount of Peiwei. The 4 night output basin 3 is provided by a seed culture wheeling device, which can conveniently carry out the preparation of the culture liquid. To achieve the purpose of the prior disclosure, the culture liquid supply device provided by the creation, 4 M347815 储 has a liquid storage device, a pressure supply device, a fluid control valve forgive station n | 』 and a production of liquid storage device reserves with Wei Wei, the pressure device is used for air '豸 fluid control valve Connecting the liquid storage device Putting the culture liquid of the liquid storage device into the fluid control:: The compressed air is placed in a controlled state, and the green storage wheel is discharged, and the liquid discharge device has a sensor, The set == 培 液 liquid can be pushed out by the compressed air to discharge the effluent volume. This creation can achieve a stable supply of solid nutrient solution every time, and it is convenient to carry out the preparation work of the culture liquid. BEST MODE FOR CARRYING OUT THE INVENTION The following is a detailed description of the structure and effect of a preferred embodiment, 15 20 . The example is used to illustrate the second embodiment of the present diagram L. Output equipment, including - liquid storage 丨 0, a soil supply 2 〇, a fluid control valve 3 〇, and - liquid discharge device 4 〇 ^ storage ^ (4) display with money, for (4) set The cover air can be continuously produced with compressed air. As shown in the third figure, the fluid control valve 3 is connected to the liquid storage device H) and the pressure supply device 2G, so that the storage is controlled, wherein the tube-fluid control room is 3〇, = = null = via another line 32 to the fluid control room night machine into the k-control side 30, the Pei Wei system (four) gas Push, 5 M347815 The frequency switch is the continuous accumulation of the culture solution to the accumulation of the nutrient solution every time, the fluid control valve white: keeps the k money flowing in the '_ state. The liquid discharge device 40 has one The base 42 and a conduit 44 have a sensor 46. When the base 42 is disposed on a table 48, the sensor is located above the table 48, and one end of the conduit 44 is connected to the fluid two > The other end is from the base 42 toward the table 48. In this: the palladium:: sensor 46 is an infrared sensor, as shown in the fourth and fifth figures 10 15 = there are items in front of the field sense 46 At the same time, the sensor 46 can activate the liquid dispensing device 40 and you - the pre-twisting amount of the culture liquid is pushed by the compressed air until the predetermined round-off amount of the culture liquid completely flows out of the liquid discharging device 40. ^ Composition of the above - When a container 50 is intended to hold the culture solution, only ^^50 is placed in front of the sensor 46 of the liquid discharge device 40, so that the sensor 5Q50 can let the culture liquid flow out of the conduit 44. Into the container - the liquid system passes through the constant pressure fluid control valve 30 to control the flow and the mother's accumulation and output can be maintained stable, and will not allow the output to be more "sometimes less." Moreover, it is only necessary to place the container 50 directly to the receiving culture liquid, which makes the operation convenient. Can be mu; ^ it: After all the culture liquid output is completed, as shown in the sixth figure, the piece can be 纟 官 - 官 44 - end set a steam tube 60 that can be steamed, so that the tomb: piece = 2 6 〇 reflux The components such as the liquid discharge device 4 and the fluid control valve 30 function as a sterilization. It can be used to achieve a stable wheel for 4 nights each time and it is convenient to carry out the preparation of the culture liquid. 6 20 M347815 [Simple Description of the Drawings] The first drawing is a schematic diagram of a preferred embodiment of the present invention. The second drawing is a schematic view of a preferred embodiment of the present invention, mainly showing the flow state of the culture solution and compressed air. 5 The third drawing is a schematic view of a preferred embodiment of the present invention, which mainly shows the flow state of the quantitative culture solution. The fourth figure is a schematic view of a preferred embodiment of the present invention, which mainly shows that the container is disposed in front of the sensor. The fifth drawing is a perspective view of a preferred embodiment of the present invention. 10 is a schematic view of a preferred embodiment of the present invention, mainly showing the state in which the liquid discharge device is sleeved with a steam pipe. [Main component symbol description] 10 liquid storage device 20 pressure supply device 15 30 fluid control valve 32 pipe 40 liquid discharge device 42 base 44 pipe 46 sensor 48 work table 50 container 60 steam pipe 7