M365928 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種碳管材料生成設備,尤其涉及一種奈米碳 管材料生成設備’屬於化工設備技術領域。 【先前技術】 ^在習知技術中,製備碳管材料通常是將稠狀的觸媒放置於石 英船堝(盤體)裝置上,然後將該石英船堝置入中空的石英管(可耐 熱至攝氏1400—1500。〇内並加熱至攝氏1〇〇〇—u〇(rc,通過觸 媒與經進氣管道進來的甲烷(methane)等原料進行混合及催化反 應’最後生成所需要的碳管材料。但是,因為受到現有的碳管材 料生成賴所限’甲鮮原料均直接接觸觸媒材料,其混合、催 化反應過程必須經歷較長時間,才能夠生成品質合格的奈米碳 柘如此’方面將長期大量地耗費能源,難免增大了生產成本 開支;另-方面也不利於甲院等原料的高效利用(據估算一般僅能 ,到約50%的_率)。對於後者,儘管可以通過排氣管道將甲烧 2原料予以回收、循環利用,但是碳粉的產能也必然將受此限制, 難以獲得穩定提高。 【新型内容】 有鑒於此’本創作之目的在於提供—種奈米碳管材料生成設 f ’匕能夠雜各捕在奈米碳管材料的 =地混合及催化反應’從而有效地解決現有技術中存=述 偌,述本創作之目的,本創作之奈米碳管材料生成設 ,匕括反應1、錄峡贿反應㈣上❸加 於該反應8上的進躲置、職裝置與餘收«置它 M365928 「進料裝置’其連接於所述反應器上,由其人口所進物料可與所 述進氣裝倾進的氣體在所述反應||的人㈣進行混合;一反應 管,其裝驗所述反應器_部;以及—動力旋轉裝置,其連^ 於所述反應管上並可帶動該反應管進行旋轉運動。 、 此外,該奈米碳管材料生成設備還進—步包括:—基座,其 固定安裝於所述域裝置的底部,並可支#該加熱裝置進行上了 下升降運動’用以方便操作者可於不同高度進行操控使用。 在上述本創作之奈米碳管材料生成設備中,所述反應管為螺 Φ紋式滾筒反應管,其兩端分別固定安裝在設於該反應器内的支撐 裝置上;絲力旋魏置躺套磁力錢旋賊置,其分別裝設 於=述螺紋式滾筒反應管的兩端;該進料裝置上設有聽控制下 料量的元件;該加熱裝置為高溫電阻爐;以及該排氣裝置上另設 有回收機構,其上設有溫控元件。 又 具體而言,在本創作之奈米碳储料生成設備中,完全捨棄 了傳統的石英舰)駭,而改將賴㈣龍進料裝置進^ 裝入,對於生成碳粉的主要原料—甲制由進氣裝置輸入反庳哭 •内部’並將該反應器套裝設於一個高溫電阻爐内,並在該反應器 内設置-個螺紋式滾筒反應管,其由支撐裝置架設於反應器^ 並通過分設於㈣的触異性磁鋪置通紐娜雖異性相斥 原理產生磁動力而帶轉動。高溫電阻雜通電源後受熱升溫可 -達f攝氏1GG(TC以上,通·帶的溫控元件可進行溫度的設定與 -調節。觸騎料主魏_紋式滾狀絲的槪轉動而帶動滾 動,它經受熱後產生高溫並伴隨著螺旋縫隙向前端流動,甲烧氣 ,也跟隨著在該螺旋縫时與觸媒相互接觸,並經觸媒的催化而 厌化產生奈米碳粉。因為螺旋縫隙的空間較小,二者可以實現緊 德、-,口口 ’所以上述的混合、催化效果更純好,即被催化率得以 4 M365928 大幅提高,從而有效提升了奈米碳粉的生產量。當螺紋式滾筒反 應管的螺旋轉速減緩時,上述效果則更好,此時的甲燒剩餘量相 對降低,完全可以根據現場的情況來免掉回收時的耗損以及回收 的程序。按照上述方式生成的奈米碳粉,最後在反應㈣前端出 :處被收置於產物收集裝置中,而未被完全催化的代則通過排 氣裝置(其上還可另設回收機構,進行氣體回收再利用)進行排出。 本創作奈米碳管材料生成設備的功效係在於其整體構造緊 湊汉计&理可罪,可以保證各原料在奈米碳管材料的製備過程 • 中進行充分、高效地混合及催化反應,從而能在有效提升產能的 同時,大幅度地減少能源耗費並降低生產成本。 【實施方式】 以下結合關和實施例,對本創作的技術方案作進—步 細描述。 如第-圖所不,本創作之奈米碳管材料生成設備包括反應器 ^螺紋式滾筒反應管5、高溫電阻爐7、進氣管3、進料腔4、排 氣e 8、產物收集器9、磁力感應旋轉裝置i、支撐架2和基座1〇。 其中’南溫電阻爐7套裝固定在該反應器6上,其上安裝有溫控 元件(圖巾未顯示);基座1G随於高溫電_ 7的底部,它可二 支撐後者進仃上、下鱗運動;進繼4連接於反顏6上,其 上安控制獨元件(圖巾未顯示);螺紋式滚筒反應管 ^定安裝於反應器6的内部,其兩端分別固裝在設於該反應器6 :、後端部的兩個支縣2上;兩套磁域紐機置i分別 ,接遽在驗式輯反鮮5的兩端,它們在接通電力後能夠 2工作磁力’然如此來帶動該歡式滾筒反應管5進行旋轉 ’其他的進氣皆3、排氣管8與產物收集器9也都各自連接在 M365928 反應If 6上’其中排氣# 8上還另外安裝了回收機構(财未顯示) 用於進行原料氣體的回收再利用。 在使用本創作之奈米碳管材料生成設備進行生產時,首先要 $觸媒㈣由進繼4狀反剌6巾,_絲義通過進氣 官3導入反應器6内。高溫電阻爐7在輸入電力後進行能量轉換, 它所產生的熱能集聚後可以達到攝氏1〇〇(rc以上,操作者可以通 過溫控元件來設定、調節工作溫度。隨後,觸媒材料在高溫環境 下隨著螺紋式滾筒反鮮5的_轉__滾動,此時的甲烧 籲氣體也伴隨著在其螺旋縫隙中與觸媒相互接觸混合、催化,經過 炭化反應過程而產生奈米雜。在此過財,縣職縫隙空間 狹小’這將使得混合、慨的效果非f良好,催化率大幅提高, 奈米碳粉的生產量也得財效提升。此外,為了取得更佳效果, 還可參照生產現場的實際情況將上述歡式滾筒反應f 5的螺旋 轉速適度減緩。在歷經以上全部過程之後,最終就可以在設於反 應器6出口處的產物收集器9中得到高品質的奈米碳管材料成品。 ^上實施麵供·賴倾佳實施m,而非對本創 作之範_制,在视離本_的精神和制的情況下,熟悉本 領域的技術人員當可依據本創作之技術内容與構造作出各種變形 和改進’目此,所有等效的技術方案均應屬於本創作的範嘴並為 本創作的各項專利範圍所界定。 * 【圖式簡單說明】 第-圖是本創作奈米碳管材料生成設備實施例的結構示意 圖。 【主要元件符號說明】 2 支撐架 1磁力感應旋轉裝置 M365928 3進氣管 4 進料腔 5螺紋式滾筒反應管 6 反應器 7高溫電阻爐 8 排氣管 9產物收集器 10 基座M365928 V. New description: [New technical field] This creation is about a carbon tube material generating equipment, especially a nano carbon tube material generating equipment' belongs to the technical field of chemical equipment. [Prior Art] ^ In the prior art, the preparation of the carbon tube material is usually carried out by placing a thick catalyst on a quartz stern (disc) device, and then placing the quartz stern into a hollow quartz tube (heat resistant) To 1400-1500 Celsius. Heated and heated to 1 〇〇〇-u〇 (rc, mixed and catalytically reacted with raw materials such as methane fed through the intake pipe by the catalyst) to finally produce the required carbon. Tube material. However, because it is limited by the existing carbon tube material generation, the fresh raw materials are directly in contact with the catalytic material, and the mixing and catalytic reaction process must take a long time to produce qualified carbon nanotubes. 'The aspect will consume a lot of energy for a long time, and it will inevitably increase the production cost; the other side is also not conducive to the efficient use of raw materials such as the hospital (estimated, generally only, about 50% _ rate). For the latter, although The raw material of the smoldering 2 can be recovered and recycled through the exhaust pipe, but the production capacity of the carbon powder is bound to be limited by this, and it is difficult to obtain a stable increase. [New content] In view of this, the purpose of this creation It is to provide a kind of carbon nanotube material to create a design, and to mix the carbon nanotube material with the ground mixing and catalytic reaction to effectively solve the problem in the prior art. The creation of the carbon nanotube material of this creation, including the reaction 1, the record of the british bribe (four), the addition of the upper sputum to the reaction 8, the device and the surplus «set it M365928 "feed device" its connection In the reactor, the material ingested by the population may be mixed with the gas poured into the air intake device in the reaction (|); a reaction tube, which is inspected for the reactor portion; And a power rotating device connected to the reaction tube and capable of driving the reaction tube to perform a rotary motion. Further, the carbon nanotube material generating device further comprises: a base fixedly mounted on the The bottom of the domain device, and the heating device can perform the upper and lower lifting movements to facilitate the operator to control and use at different heights. In the above-mentioned carbon nanotube material generating device of the present invention, The reaction tube is a screw Φ type drum reaction tube The two ends are respectively fixedly mounted on the supporting device disposed in the reactor; the wire force is placed on the two sides of the threaded drum reaction tube; The device is provided with an element for controlling the amount of material to be fed; the heating device is a high temperature resistance furnace; and the exhaust device is further provided with a recycling mechanism, which is provided with a temperature control element. Specifically, in the present invention In the rice carbon storage production equipment, the traditional quartz ship 骇 is completely abandoned, and the Lai (4) dragon feeding device is installed, and the main raw material for generating carbon powder is made by the air intake device. • Internal 'and set the reactor in a high temperature resistance furnace, and set a threaded drum reaction tube in the reactor, which is supported by the support device in the reactor ^ and passed through the (4) The magnetic paving of the Tunena, although the principle of resentment of the opposite sex produces magnetism and rotates. After the high-temperature resistor is connected to the power supply, it can be heated up to -1 °C (TC above TC, the temperature control component of the through-band can be set and adjusted. The driving of the main Wei-grain rolling wire drives Rolling, which is subjected to heat, generates high temperature and flows toward the front end with a spiral slit. A gas is also brought into contact with the catalyst at the time of the spiral slit, and is neutralized by the catalyst to produce nano carbon powder. Because the space of the spiral gap is small, the two can achieve tightness, -, mouth 'so the above mixing, the catalytic effect is more pure, that is, the catalytic rate is greatly improved by 4 M365928, thereby effectively improving the nano carbon powder. Production volume. When the screw speed of the threaded drum reaction tube is slowed down, the above effect is better. At this time, the remaining amount of the burnt yarn is relatively reduced, and the loss and recovery procedure at the time of recovery can be completely eliminated according to the situation on the spot. The nano carbon powder produced in the above manner is finally collected in the product collection device at the front end of the reaction (4), and the exhaust catalyst is passed through the exhaust device (there is also a separate recovery mechanism, The gas is recycled and reused for discharge. The efficacy of the carbon nanotube material generation equipment in this creation is that the overall structure is compact and it is a crime to ensure that each raw material is prepared in the preparation process of the carbon nanotube material. Fully and efficiently mixing and catalyzing the reaction, thereby effectively reducing the energy consumption and reducing the production cost while effectively increasing the production capacity. [Embodiment] The following technical solutions are prepared in accordance with the relevant embodiments and steps. Description: As shown in the first figure, the carbon nanotube material generating apparatus of the present invention includes a reactor, a threaded drum reaction tube 5, a high temperature resistance furnace 7, an intake pipe 3, a feed chamber 4, and an exhaust gas e8. a product collector 9, a magnetic induction rotating device i, a support frame 2 and a base 1〇. wherein a 'Southern temperature resistance furnace 7 set is fixed on the reactor 6, and a temperature control element is mounted thereon (not shown); The pedestal 1G follows the bottom of the high-temperature _7, which can support the latter to move the upper and lower scales; the continuation 4 is connected to the reverse color 6, and the upper control unit is independent (the towel is not shown); Roller reaction tube Installed in the interior of the reactor 6, the two ends of which are respectively fixed on two branch counties 2 disposed at the rear end of the reactor 6; two sets of magnetic domain new machines are respectively set to i, respectively At both ends of the anti-fresh 5, they can work 2 after the power is turned on. 'But the carousel reaction tube 5 is rotated by the rotation. 'Other intakes are 3, the exhaust pipe 8 and the product collector 9 are also Each is connected to the M365928 reaction If 6 'where the exhaust gas # 8 is additionally equipped with a recycling mechanism (not shown) for recycling and recycling of the raw material gas. Production is carried out using the carbon nanotube material generation equipment of the present invention. When, first, the catalyst (4) is fed into the reactor 6 by the inlet 4, and the wire is introduced into the reactor 6 through the inlet officer 3. The high-temperature resistance furnace 7 performs energy conversion after inputting electric power, and the heat energy generated by it is concentrated. It can reach 1 摄 Celsius (rc or more, the operator can set and adjust the working temperature through the temperature control component. Subsequently, the catalyst material rolls with the threaded drum in the high temperature environment. At this time, the gas is also mixed with the catalyst in its spiral gap, catalyzed, and carbonized. The reaction process produces nano-hetero. In this case, the gap between the county and the county is small. This will make the mixed effect, the effect is not good, the catalytic rate is greatly improved, and the production of nano-carbon powder is also improved. In addition, in order to obtain a better effect, the spiral speed of the above-mentioned car-rolling reaction f 5 can be moderately reduced with reference to the actual situation at the production site. After all of the above processes, a finished product of high quality carbon nanotube material can be finally obtained in the product collector 9 provided at the outlet of the reactor 6. ^Implementation of the implementation of the Lai Jiajia implementation m, rather than the scope of this creation, in the context of the spirit and system of the _, familiar with the technical personnel of the field can be based on the technical content and construction of the creation Various modifications and improvements have been made. All equivalent technical solutions should be included in the scope of this creation and are defined by the scope of each patent. * [Simple description of the drawing] The first figure is a schematic structural view of an embodiment of the present carbon nanotube material generating apparatus. [Main component symbol description] 2 Support frame 1 Magnetic induction rotating device M365928 3 Intake pipe 4 Feeding chamber 5 Threaded drum reaction tube 6 Reactor 7 High temperature resistance furnace 8 Exhaust pipe 9 Product collector 10 Base