200948471 九、發明說明: 【發明所屬之技術領域】 -種超音波微賴機,尤指可製造⑽接縫微贿囊之超音 : 波微膠囊機。 • 【先前技術】 按,娜囊包覆技術自年研發迄今已四十频微膠囊 具有可使包覆物諸止揮發、減緩概、延長儲存料效用。微 膠囊包覆技術目前已廣泛期於醫療、食品、_、印刷照相、 化妝品、肥料、接著劑、抗菌劑、芳香劑及清潔劑等,隨著人類 科技發展的成就累積,以微膠囊技術提昇生活品質的影響 且廣。 / : 細,在微職製作祕猶時,需以人工憑概監視針頭 •=包_液液面之距離’適時調節包覆液之進料流量,以維持固 疋液面同’且針頭阻糾若不即畴除,會導朗高溫而變性凝 固,阻塞整個供料管路。 φ 所以,要如何有效_微膠囊微小化,並簡化操作膠囊機的 困難度’即為相關業者所亟欲發展之方向。 【發明内容】 :本發明之主要目的乃在於,利用震盈器破壞原料與凝膠之表 r面張力’使㈣與;轉分散細微化,進*製造㈣加微小化之勝 囊。 ^ 本發明之-人要目的乃在於,原料由成型喷頭流出時,原料外 200948471 緣為會直接附著郷並落人成舰巾,進而避免習知技術中需以 人工憑經驗監視針頭到包覆溶液液面之距離,以減少生產過程中 • 問題的發生。 騎上述目的,本發_設置有可儲存液騎料之成型喷頭 與可儲存_之凝賴,且凝_τ方設置有可供郷流出之成 型口 ’而成型口為位於成型喷頭之出口下方並靠近於出口,俾使 原料由出口抓出時,原料外緣為會直接附著凝膠並使凝膠固化 成型,進而製成轉,且凝軸補職i器破壞其表面張力, 使原料與凝膠分散細微化,進而使膠囊可微小化。 【實施方式】 : 請參閱第―®所示’ _巾可清楚看出,本發明之超音波微 :膠囊機係設置有成型喷頭工、凝膠槽2及成型槽3,其中; 該成型喷頭1内為容置有液態原料11,且成型喷頭工下方 為設置有可供原料U流出之出口 12,而出口12為位於娜 © 槽2内。 ' 該凝膠槽2内為容置有液態凝膠21,並於凝膠槽2下方為 設置有可供凝膠21流出之成型口 2 2,而成型口 三 '出口 1 2,且成型口 2 2為位於出口12下方並靠近於出口 i 21 » 該成型槽3為容置有成型液31’且成型槽之開口32為位 於成型口22之下方。 ” 藉上’當原料11由成型噴頭1之出口12流出時,該原料 1 1外緣為會接觸凝膠槽2内之液態凝膠2 i,使原料丄1於节 6 200948471 出出口12的過程中’直接於外緣附著凝膠2工,而當包覆凝膠 21後,為會落人成型槽3之成型液3 i中,使凝則i於成塑 __ 液3 1中固化成型’進而製成膠囊。 * 再者,補11由出σ 1 2流出時,原料1 1外緣為直接附 著凝膠21並落入成型液3 i中,因此,本發明之超音波微膠囊 機於生產過程中,只需添加原料!i與凝膠2 i至成型喷頭工與 凝膠槽2即可,而不需習知技射需以人工憑經驗監視針頭到包 β覆溶液液面之距離,進而有效避免生產過程中問題的發生。 又,該·賴可為低溫凝@成型雜學反應方式成型。 請參閱第二圖所示,由圖中可清楚看出,該凝膠槽2之下端 .為可直接浸人成型槽3之成魏3 1巾,並於成型槽3内增設授 拌機3 3,使攪拌機3 3於授動成型液31時,成型液31會於 成型槽3内產生流動’俾使’包覆原料1i之凝膠2 i由成型口 2 2流出時’為會藉由成型液31之帶動,而快速的離開成型口 ® 2 2,進而加快整個生產過程,以有效的增加產能。 請參閱第三圖所示’由圖中可清楚看出,該凝膠槽2與成型 槽3之間為可進一步設置有回流裝置4,該回流裝置4為設置有 : 回流管4 1,且回流管4 1連接有馬達4 2,而馬達4 2為可抽 » 取成型槽3内之成型液31,並灌入回流管41一侧,且成型液 31會由回流管41之另侧流出至成型槽3内,而凝膠槽2之下 端為浸入回流管41内,而當本發明於生產膠囊時,該馬達4 2 7 200948471 為會持續的運轉,俾使’成型液31不斷的從成型槽3内抽出, 並經由回流管41流回成型槽3,使成型液31不斷的於回流管 41内流動,而讓包覆原料丄J之凝膠2丄由成型口 2 2流出 ’ 時,為會藉由成型液31之帶動,而快速的離開成型口 2 2,並 流入成型槽3内,進而加快整個生產過程,以有效的增加產能。 清參閱第四圖所示,由圖中可清楚看出,本發明為可增加震 盪器5,利用震盪器5來破壞原料11與凝膠2丄之表面張力, ©使原料11與凝膠21分散細微化,進而讓原料i i於流出出口 12時可更加之微小,而凝膠21於包覆原料1i時為可形成更 薄的包覆,俾使,成品可更加的微小化。 - 再者’該震盪器5可為超音波震盪器。200948471 IX. Description of the invention: [Technical field to which the invention pertains] - Ultrasonic micro-slipping machine, especially a super-sound that can be manufactured (10) seam micro-brace: wave micro-capsule machine. • 【Previous Technology】 According to the technology, the nanocapsule coating technology has been developed since the year. The 40-frequency microcapsules have the functions of volatilizing, slowing down and prolonging the storage materials. Microcapsule coating technology has been widely used in medical, food, _, printing photography, cosmetics, fertilizers, adhesives, antibacterial agents, fragrances and detergents. With the development of human science and technology, microcapsule technology has been upgraded. The impact of quality of life is wide. / : Fine, in the micro-professional production of the secret, it is necessary to monitor the needle with the artificial point of view • = package _ liquid surface distance 'timely adjust the feed flow of the coating liquid to maintain the solid surface of the same liquid and the needle resistance If the correction is not correct, it will lead to high temperature and degeneration and solidification, blocking the entire supply pipeline. φ Therefore, how to be effective _ microcapsule miniaturization, and simplify the difficulty of operating the capsule machine is the direction that the relevant industry is eager to develop. SUMMARY OF THE INVENTION The main object of the present invention is to destroy the surface tension of the raw material and the gel by the shaker to make (4) and to diversify the dispersion, and to make (4) the miniaturized capsule. ^ The purpose of the present invention is that when the raw material is discharged from the molding nozzle, the outer edge of the raw material 200948471 is directly attached to the crucible and falls into a marine towel, thereby avoiding the need to manually monitor the needle to the package in the prior art. The distance from the solution surface to reduce the occurrence of problems during the production process. In order to ride the above purpose, the present invention is provided with a molding nozzle capable of storing a liquid riding and a condensable storage, and the condensation port is provided with a molding port for the outflow of the crucible, and the molding port is located in the molding nozzle. Below the outlet and close to the outlet, when the raw material is taken out from the outlet, the outer edge of the raw material will directly adhere to the gel and solidify the gel, and then make a turn, and the rectifying shaft will repair the surface tension and make the raw material. The gel is finely dispersed to further miniaturize the capsule. [Embodiment]: Please refer to the '- shown in the '- towel. It can be clearly seen that the ultrasonic micro-capsule machine of the present invention is provided with a molding nozzle, a gel tank 2 and a molding tank 3, wherein the molding The liquid material 11 is accommodated in the nozzle 1, and the outlet 12 is provided below the molding nozzle, and the outlet 12 is located in the tank. 'The gel chamber 2 is provided with a liquid gel 21, and below the gel tank 2 is a molding port 2 2 for the gel 21 to flow out, and a forming port 3' outlet 1 2, and a molding port 2 2 is located below the outlet 12 and close to the outlet i 21 » The molding groove 3 is a molding liquid 31 ′ and the opening 32 of the molding groove is located below the molding opening 22 . When the raw material 11 flows out from the outlet 12 of the forming nozzle 1, the outer edge of the raw material 1 1 is in contact with the liquid gel 2 i in the gel tank 2, so that the raw material 丄1 is at the exit 12 of the section 6 200948471. In the process, the gel is attached directly to the outer edge, and when the gel 21 is coated, it is in the molding liquid 3 i which will fall into the molding groove 3, so that the condensation is solidified in the plastic__ liquid 3 1 Forming 'further into a capsule. * Further, when the effluent 11 flows out of the σ 1 2 , the outer edge of the raw material 1 1 directly adheres to the gel 21 and falls into the molding liquid 3 i , and therefore, the ultrasonic microcapsule of the present invention In the production process, it is only necessary to add the raw materials!i and gel 2 i to the molding nozzle and the gel tank 2, without the need to know the technique, it is necessary to manually monitor the needle to the package β solution solution. The distance between the surfaces can effectively avoid the problems in the production process. In addition, the Lai can be formed by the low temperature condensation @ molding hybrid reaction method. Please refer to the second figure, it can be clearly seen from the figure that the gel The lower end of the tank 2 is a Wei 3 1 towel which can be directly immersed in the forming tank 3, and a mixer 3 3 is added in the forming tank 3 to make the mixer 3 3 actuated. In the case of the molding liquid 31, the molding liquid 31 generates a flow in the molding tank 3, so that when the gel 2 i of the coating raw material 1i flows out from the molding opening 2 2, it is driven by the molding liquid 31, and is fast. Leaving the Forming Port® 2 2, which speeds up the entire production process to increase productivity. See the third figure. As can be clearly seen from the figure, the gel tank 2 and the forming tank 3 can be further set. There is a reflow device 4 which is provided with a return pipe 4 1 and a return pipe 4 1 to which a motor 42 is connected, and the motor 42 is capable of pumping the molding liquid 31 in the molding tank 3 and pouring it. On the side of the return pipe 41, the molding liquid 31 flows out from the other side of the return pipe 41 into the molding tank 3, and the lower end of the gel tank 2 is immersed in the return pipe 41, and when the present invention produces a capsule, the motor 4 2 7 200948471 In order to continue the operation, the molding liquid 31 is continuously withdrawn from the molding tank 3, and flows back to the molding tank 3 via the return pipe 41, so that the molding liquid 31 continuously flows in the return pipe 41. When the gel 2 of the coated raw material 丄J is discharged from the molding port 2 2 , it is driven by the molding liquid 31 And quickly exiting the forming port 2 2 and flowing into the forming tank 3, thereby accelerating the entire production process to effectively increase the production capacity. As shown in the fourth figure, it can be clearly seen from the figure that the present invention can be increased. The oscillator 5 uses the oscillator 5 to break the surface tension of the raw material 11 and the gel 2, and makes the raw material 11 and the gel 21 finely dispersed, so that the raw material ii can be made even smaller when flowing out of the outlet 12, and the gel 21 can form a thinner coating when the raw material 1i is coated, so that the finished product can be further miniaturized. - Again, the oscillator 5 can be an ultrasonic oscillator.
C : 請參閱第五圖所示,由圖中可清楚看出,該成型噴頭】與凝 膠槽2 -側為進-步分別設置有供料管6,並於供料管上為分別 設置有震in5,俾使,原料11與凝膠2丄由供料管6輸送至 ❹成射頭1與凝膠槽2_過程巾,震如5會破壞原料^與 凝膠21之表面張力,使原料11與凝膠2 i分散細微化,再進 入成型喷頭1與凝膠槽2,使原料1 1於如出σ i 2時可更加 :之财’喊膠2 1於包覆原料1 1時為可形毅薄的包覆,讓 成品可更加的微小化。 請參閱第六圖所示’㈣中可清楚看出,該供料f6一侧為 分別連接有祕供賴7與》供料槽8,且雜供料槽7與凝 8 i 200948471 膠供料槽8為分別設置有震盪器5 ’使儲存於原料供料槽7與凝 膠供料槽8内之原料11與凝膠21 ’為預先於原料供料槽7與 凝膠供料槽8内利用震盪器5破壞表面張力,使原料11與凝膠 : 21分散細微化,再藉由供料管6將原料11與凝膠12分別送 : 至成型喷頭1與凝膠槽2,讓原料11於流出出口12時可更加 之微小,而凝膠21於包覆原料11時為可形成更薄的包覆,讓 成品可更加的微小化,且因原料供料槽7與凝膠供料槽8之設 〇 置’俾使超音波微膠囊機可更加長時間的生產,而減少生產過程 中換料或補料的次數,進而降低生產成本。 【圖式簡單說明】 第一圖係為本發明第一較佳實施例之示意圖。 第二圖係為本發明第二較佳實施例之示意圖。 第三圖係為本發明第三較佳實施例之示意圖。 第四圖係為本發明第四較佳實施例之示意圖。 ❿第五圖係為本發明第五較佳實施例之示意圖。 第六圖係為本發明第六較佳實施例之示意圖。 【主要元件符號說明】 、 1、成型喷頭 » 1 1、原料 1 2、出 π 9 200948471 2、 凝膠槽 21、液態凝膠 2 2、成型口 « 3、 成型槽 31、成型液 3 2、開口 〇 4、 回流裝置 41、回流管 ; 4 2、馬達 5、 震盪器 © 6、供料管 7、原料供料槽 * ¥ 8、與凝膠供料槽C : Please refer to the figure in the fifth figure. It can be clearly seen from the figure that the forming nozzle is provided with the feeding tube 6 separately from the side of the gel tank 2 - and is separately set on the feeding tube. There is a shock in5, and the raw material 11 and the gel 2 are transported from the supply pipe 6 to the sputum forming head 1 and the gel tank 2_ process towel, and the shock of 5 destroys the surface tension of the raw material and the gel 21, Dispersing and diluting the raw material 11 and the gel 2 i, and then entering the molding nozzle 1 and the gel tank 2, so that the raw material 1 1 can be more like the σ i 2 At 1 o'clock, it is a shapeable and thin coating, which makes the finished product more miniaturized. Please refer to the figure (4) shown in the sixth figure. It can be clearly seen that the side of the feed f6 is connected with the secret supply and the feed tank 8, respectively, and the miscellaneous feed tank 7 and the cement supply. The tank 8 is provided with an oscillator 5', respectively, so that the raw material 11 and the gel 21' stored in the raw material supply tank 7 and the gel supply tank 8 are in advance in the raw material supply tank 7 and the gel supply tank 8. The surface tension is broken by the oscillator 5, the raw material 11 and the gel: 21 are dispersed and finely divided, and the raw material 11 and the gel 12 are separately sent by the supply pipe 6 to the molding nozzle 1 and the gel tank 2, and the raw material is made. 11 can be even smaller when flowing out of the outlet 12, and the gel 21 can form a thinner coating when the raw material 11 is coated, so that the finished product can be further miniaturized, and the raw material supply tank 7 and the gel supply are supplied. The arrangement of the tank 8 enables the ultrasonic microcapsule machine to be produced for a longer period of time, thereby reducing the number of refueling or feeding in the production process, thereby reducing the production cost. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a schematic view of a first preferred embodiment of the present invention. The second drawing is a schematic view of a second preferred embodiment of the present invention. The third figure is a schematic view of a third preferred embodiment of the present invention. The fourth figure is a schematic view of a fourth preferred embodiment of the present invention. The fifth drawing is a schematic view of a fifth preferred embodiment of the present invention. Figure 6 is a schematic view of a sixth preferred embodiment of the present invention. [Description of main components] 1. Plastic nozzle » 1 1. Raw material 1 2. Out π 9 200948471 2. Gel tank 21, liquid gel 2 2. Forming port « 3. Forming tank 31, molding liquid 3 2 , opening 〇 4, reflux device 41, return pipe; 4 2, motor 5, oscillator © 6, feed pipe 7, raw material supply tank * ¥ 8, with gel feed tank