201208790 六、發明說明: 【發明所屬之技術領域】 以 連續提觸以金_生成裝置, ,* Μ 、 吏生成之金屬微粒散佈於密介質中,u* 止金屬微粒產生燃燒爆炸之危險情 、防 及安全性之金屬微粒之連續生產設^進而了大W什置產產能 【先前技術】 奈ί粉體應用領域不斷開發,使得 $開發於兼顧奈米微粒的性f及生 奈米粉體產能之量產技術及設備。t③之»况下,可提升 於製ϊΐϋ者ΐ化學方式進行製造奈米微粒,由於該化學方式 其化學活輪合適當的反應劑,因此,以 :粒 另有業 之;=?不適用於生產-般的金屬奈米i 射氣相合成法進行製造奈米微粒,其係可藉 :惟的屬丨if質的溫度永控制奈米微粒之粒徑乂 上受到相當多限制;因此,目前業者大多仍以物理 ίί行=徑分佈較小之奈米微粒,以乾式之=磨 磨成〔、係以工氣贡動粉塵,而利用粒子碰撞原理使粒子研 微粒;惟,該研磨方法所製造奈米微粒之粒徑分佈雖 命^而形成奈米粉塵,且該微粒之最小點火能量亦ίΐ i Iu 5易被龍’峰徑為奈米大小之鈦粉及鐵粉來說了其 能量係均小於lmJ ’而於製造過程中,若受到靜ΐ、ί 鎌料,祕奈米微粒之製 姆故有ί監於此,本發明人遂以其多年從事相關行業的研發盥製作 、、’驗’針對目前所面臨之問題深人研究,經過長期努力之研究與 去製造成本較高,所得狀粒徑分佈亦較大; 3 201208790 2缺生妓備,觸贿善習 【發明内容】 ' 主要έίϊϊί^的係提供—種金屬微粒之連續生產設備,其 供裝裝置,該生成裝置係設有 電源之正、倉缸^ 於該谷器之密介質中設有分別與 控制裝置押制」電性連接之第一導電元件及第二導電元件,該 依ίί::ϊί裝置輸送金屬線進入容器内,並使該金屬線 -、二導^元(件及第二導電元件,當金屬線接觸導通第 •金屬線蝴爆炸:輸爾龍,而使 屬曰r斷的產生電爆炸,以連續生成金屬微粒, 進而這到大从昇量產產能之實用目的。 係以ϊίΐΐί 種金屬微粒之連續生產設備,其 成之金屬_认電爆炸連續生成金屬微粒,且使生 之危險产質中’而可防止金屬微粒產生燃燒爆炸 之危兄相_大幅提昇製程安全性之剌目的。 【貫施方式】 竇2使廿員對本發明作更進一步之瞭解,兹舉一較佳 實施例,並配合圖式詳述如后: 权1主 備,11^^備11、〇2在\3^所示,本發明金屬微粒之連續生產設 該生產叹備1⑽包含有表面處 又 生成裝置1 3及控制裝置]4 . 一祉/ϋ/讀裝置1 2、 係由輸送通過該表面處理i 微粒之金屬線2 〇 金胸?。之1 1,該表面處理震置1 1係可於 金f線2 0之表面進仃加工(如化學_) ,生呈,狀且具有間隔距離之微結構2 ◦ i g係供連^运金屬線2 〇,並將金屬線2 〇導引至生成“ 之驅動輪1 2 2、可隨著轉動之從動輪i 2 3及 4 201208790 屬線2 0之導管124,該驅動輪122及從動輪工2 q往也 抵輸送金屬線2 0,並使該金屬線2 〇沿著導管12 4#、、夾 裝置13内;該生成裝置13係設有盛裝非導體密介f $含成 谷裔131 ;於本實施例中,該非導體之密介質13 2传可1之 水、丁醇或重油等無導電性之液體;另於該容器i 3之二二= 1 3 2中設有分別與電源1 3 3之正、負極作電性 電讀1 3 4及第二導電元件1 3 5,並使該金屬線2 送裝置12之導管12 4導引,而可依序接_第_4== ? ί,第二導電祕1 3 5,以形成電流導通迴路;該控制果置 1 4係可控制該生成裝置工3之電源丄3 3調變 測電壓’以供該控制裝置! 4偵測生成裝置i 3之第 ,件13 4、13 5導通狀態’並根據偵測之訊號,以進制 ,變該生成裝置13之電源13 3的輸出電壓及啟閉輸送裝^ 2之馬達1 2 1 ’祕侧f流未導稱,雜 、 制,送裝置1 2之馬達1 2 1,以進浦送以Π ^貞測電流導通時,則控制輸送裝置i 2之馬達丄2丄停止,且 (〇=生ίίΐΛ3之箱電源13 3的輸出電壓調變降為最小值 0V)後再調^輸出—預設之爆炸電壓,使金屬線2 〇產生 ==預简;又該 置14於預設之導通 以:二番4即控制切斷輸入的電壓,另於金層線2 導通的狀㉟裝置14於預設之導通時間(At)内摘測為未 成裝置1 3之電源1 3 3調變輸出預設 間之正初行;财實補巾’該導通時 生成示’本發明之生產設備1 0於進行連續 沾控制裝置1 4即控制該生成裝置1 3之電源 周Μ偵測生成裝置工201208790 VI. Description of the invention: [Technical field to which the invention pertains] The metal particles generated by the gold-generating device, *, Μ, and 连续 are continuously dispersed in a dense medium, and the metal particles of u* stop the danger of combustion and explosion. Continuous production of metal particles for prevention and safety, and further production capacity of large W. [Previous technology] The development of nano powder applications has enabled the development of both nano-particles and raw nano-powder production capacity. Mass production technology and equipment. Under the condition of t3, it can be improved by the sputum ΐ chemical method for the production of nano-particles, because the chemical method of its chemical coil is suitable as a reagent, therefore, the granules have another industry; The production of nano-particles by the gas-phase synthesis method for the production of nano-particles, the system can be: only the temperature of the 丨 if the temperature of the nano-particles is controlled to a considerable extent; therefore, currently Most of the industry still uses nanometer particles with a small distribution of physical diameters, dry-type = grinding, [using the working gas to mobilize the dust, and using the particle collision principle to make the particles into particles; however, the grinding method The particle size distribution of the manufactured nanoparticles forms a nano dust, and the minimum ignition energy of the particles is also ΐI Iu 5 is easily identifiable by the dragon's peak diameter of nanometer titanium powder and iron powder. The system is smaller than lmJ ', and in the manufacturing process, if it is subjected to quietness and 镰 , , , , , , 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘 秘'Experience' is a deep-seated study on the problems currently facing The long-term efforts and the cost of manufacturing are relatively high, and the particle size distribution of the obtained samples is also large; 3 201208790 2 lack of raw materials, bribes and good habits [invention] [mainly έίϊϊί^ provides continuous production of metal particles And a device for supplying the device, the generating device is provided with a power source, and the cylinder is provided with a first conductive element and a second conductive element electrically connected to the control device respectively in the dense medium of the grain device The ίί::ϊί device transports the metal wire into the container, and causes the metal wire-, the two-conductor element (the piece and the second conductive element, when the metal wire is in contact with the conduction wire), the metal wire butterfly explodes: And the electric explosion caused by the 曰r break to continuously generate metal particles, and this is the practical purpose of the large-scale production capacity. The continuous production equipment of the metal particles is formed into a continuous metal explosion. Produce metal particles, and make it dangerous in the production of quality, and prevent the metal particles from burning and exploding. The safety of the process is greatly improved. [Comprehensive mode] Sinus 2 makes the staff more to the present invention. A one-step understanding, a preferred embodiment, and the detailed description of the following figures: 权1 main and standby, 11^^11, 〇2 shown in \3^, the continuous production of the metal particles of the present invention Production sigh 1 (10) includes a surface generating device 13 and a control device] 4. A 祉 / ϋ / reading device 1 2, is a metal wire 2 〇 gold chest conveyed through the surface treatment i particles. 1 1 The surface treatment of the 1 1 system can be processed on the surface of the gold f-line 20 (such as chemical _), which is formed in a shape and has a separation distance of the microstructure 2 ◦ ig system for connecting the metal wire 2 〇 And guiding the wire 2 至 to the conduit 124 that generates the "drive wheel 1 2 2, the driven wheel i 2 3 and the 4 201208790 line 20, the drive wheel 122 and the driven wheel 2 q And the metal wire 2 is also conveyed along the conduit 12 4#, and the clamp device 13; the generating device 13 is provided with a non-conductor dense medium f $ inclusion into the valley 131; In this embodiment, the non-conductor dense medium 13 2 transmits a non-conductive liquid such as water, butanol or heavy oil; and the container i 3 has a The positive and negative electrodes of the source 1 3 3 are electrically read 1 3 4 and the second conductive element 1 3 5, and the conduit 12 4 of the wire 2 feeding device 12 is guided, and can be sequentially connected to the__4 == ? ί, the second conductive secret 1 3 5, to form a current conducting loop; the control fruit setting 14 can control the power generating device 3 of the generating device 3 to adjust the voltage for the control device! 4 detecting the generating device i 3, the device 13 4, 13 5 conducting state 'and according to the detected signal, in hexadecimal, changing the output voltage of the power source 13 3 of the generating device 13 and opening and closing the transport device 2 Motor 1 2 1 'The secret side f flow is not referred to, the miscellaneous, the system, the motor 1 2 of the sending device 1 2 is sent to the pump to send the current to conduct the current, then the motor 丄 2 of the conveying device i 2 is controlled丄 Stop, and (〇=生ίίΐΛ3 box power supply 13 3 output voltage modulation is reduced to a minimum value of 0V) and then adjust the output - the default explosion voltage, so that the metal wire 2 〇 produces == pre-simplification; Set 14 to the preset conduction to: quadruple 4 to control the voltage of the cut-off input, and the device 14 that is turned on in the gold layer line 2 is measured as a non-device 1 in the preset on-time (At) The first line of the power supply 1 3 3 modulation output preset; the financial patch 'this turn-on generates the production equipment 10 of the present invention to control the power of the generating device 1 4 Zhou Wei detection and generation device
SJ 線2 0係尚未與生辭l ? 3 5導通㈣,此時,該金屬[ 、王絲置13之第―、二導電耕134、13 201208790 5接觸’雜制裝置1 4即偵測出未導通之訊號,並根據未導通 之訊號’控制啟動輸送裝置12之馬達i 2 i,而以該驅動m 2三及從動輪12 3夾抵輸送金屬線2 〇,該金屬線2 〇即沿著 導官1^ 4輸入生成裝置13之容器131内;請參閲第3、5、 6圖所示’控制該輸钱置! 2持續輸送金屬線2 〇進入容器工 3 1内’使得該金屬線2 0之端雜序接觸生成裝置丨3之第一 ί電3 4及第二導電元件1 3 5,而形成電流導通迴路, ίΞί ί f 通之訊號,並根據導通之訊號,控制SJ line 2 0 system has not been connected with the birth words l ? 3 5 (four), at this time, the metal [, Wang Si set 13 of the first -, two conductive plough 134, 13 201208790 5 contact 'miscellaneous device 1 4 is detected The signal that is not turned on, and according to the unconducted signal 'control, the motor i 2 i of the starting conveyor 12 is controlled, and the driving wire m 2 and the driven wheel 12 3 are clamped to the conveying metal wire 2 〇, the wire 2 is along the edge The guide 1^4 is input into the container 131 of the generating device 13; please refer to the figures 3, 5, and 6 to control the money change! 2Continuously transporting the metal wire 2 〇 into the container 3 1 'so that the end of the metal wire 20 is in contact with the first electrode 3 4 of the generating device 3 and the second conductive element 1 3 5 to form a current conducting circuit , ίΞί ί f signal, and according to the signal of conduction, control
ft,置1 2之馬達1 2 1停止,錢將該生成裝置1 3之電源 上3 3 J輸出電壓調變降為最小值㈣後 電 J丄氕閱第3、7、8圖所示,於控制輸出爆炸電U爆= 表面處理裝置11時’係於表面進行加工,、 導流經金屬線2 0時’將使爆炸能量集中於金屬 2 0 1,而於金屬線2 〇之微結構2 〇丄處產 金屬微粒2 1,且於電爆炸德,即㈣齡,爆乍以產生 ㈣附“罢爆炸後 成斷路’該控制裝置1 4即 2之電源1 3 3調_貞測電壓;請參閱第 裝置1 4即控制啟動輸送裝置丄2之馬達丄控制 送金屬線2 0,進而可於生成裝置1 3容器1 3 1之密輸 2中反覆進行電爆炸之生成動作,以連續進行生產金仏$ 1,而生成之金屬微粒21即散佈於密介質工 ^ 才2 金屬微粒2 1發生燃燒爆炸之危險情況,進 °曰3 產能及製程安全性之實用效益。 建】大巾田棱歼$產 【圖式簡單說明】 第1圖:本發明之結構示意圖。 第2圖:係第1圖之a部分放大示意圖。 第3圖:本發明控制之架構示意圖。 第4圖:本發明之動作示意圖(一)。 第5圖:本發明之動作示意圖(二)。 201208790 第6圖:係第5圖之B部分放大示意圖。 第7圖:本發明之動作示意圖(三)。 第8圖:係第7圖之C部分放大示意圖。 第9圖:本發明之動作示意圖(四)。 【主要元件符號說明】 本發明部份: 10 :生產設備 1 1 :表面處理裝置 12:輸送裝置 1 2 1 :馬達 1 2 2 :驅動輪 12 3 :從動輪 1 2 4 :導管 13 :生成裝置 1 31 :容器 13 2 :密介質 1 3 3 :電源 1 3 4 :第一導電元件 1 3 5 :第二導電元件 14:控制裝置 2 0 :金屬線 2 01 :微結構 21:金屬微粒 △ t :導通時間Ft, set the motor of 1 2 1 2 1 to stop, the money will reduce the output voltage of the 3 3 J output on the power supply of the generating device 1 3 to the minimum value (4), after the electric power J, see the third, seventh, and eighth figures, When controlling the output of the explosion electric U blast = surface treatment device 11 'being on the surface for processing, and guiding the flow through the metal wire 20 'will concentrate the explosion energy on the metal 2 0 1 and the microstructure of the metal wire 2 〇 2 〇丄 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属 金属Please refer to the device 14 to control the motor of the starter conveyor 丄2 to control the wire 200, and further generate the electric explosion in the container 2 1 1 1 of the generating device 1 3 to continuously perform the electric explosion. Production of gold 仏 $ 1, and the generated metal particles 21 is scattered in the dense medium. 2 Metal particles 2 1 combustion and explosion hazard, the practical benefits of the production capacity and process safety.歼 歼 产 [Product Description] Figure 1: Schematic diagram of the structure of the present invention. Figure 2: Figure 1 a partial enlarged view. Fig. 3: Schematic diagram of the control of the present invention. Fig. 4: Schematic diagram of the operation of the present invention (1). Fig. 5: Schematic diagram of the operation of the present invention (2) 201208790 Fig. 6: Department 5 Figure B is an enlarged schematic view. Fig. 7 is a schematic view of the operation of the present invention (3). Fig. 8 is an enlarged view of a portion C of Fig. 7. Fig. 9 is a schematic view of the operation of the present invention (4). DESCRIPTION OF REFERENCE NUMERALS: Part of the invention: 10: Production equipment 1 1 : Surface treatment device 12: Conveying device 1 2 1 : Motor 1 2 2 : Driving wheel 12 3 : Drive wheel 1 2 4 : Catheter 13 : Generating device 1 31 : Container 13 2 : dense medium 1 3 3 : power supply 1 3 4 : first conductive element 1 3 5 : second conductive element 14 : control device 2 0 : metal line 2 01 : microstructure 21 : metal particles Δ t : on time