M437748 五、新型說明: 【新型所屬之技術領域】 本創作有關於無機元件的清洗之技術領域,特別有關於一 種無機元件的清洗裝置。 【先前技術】 無機元件的清洗裝置,例如玻璃清洗機,是玻璃在製鏡、 真空鍍膜、鋼化、熱彎、中空合片等加工技術前對玻璃表面 進行清潔、乾燥處理的專用設備。玻璃清洗機通常由傳動系 統、刷洗、清水沖洗、純水沖洗、冷熱風乾、電控系統等組 成。 習知技術之玻璃清洗程式為:把平板玻璃放到玻璃清洗機 上後,由傳動輥托著玻璃進入刷洗室,藉由喷水於上下直毛 刷來刷洗’織進人沖洗_純淨水沖洗、賴風吹,再加 上電熱烘乾系驗乾,以達到乾燥、乾淨的清洗效果。 然而’在製作例如液晶顯示器之影像顯示設備用的玻璃面 板時’經常會削、尺寸㈣藉由㈣娜合於大尺寸玻璃表 面在貼合過t巾難免在小尺寸玻璃的邊緣部分產生溢膝的 情況,而造成在大尺寸玻璃之表面上形成殘膠。同理,在I 它-些無機it件貼合過程中也會出現類似的問題 ’例如觸控 面板的基板貼合過財也相溢#而出現殘夥。 I余技術之玻^洗機的上下直毛刷清洗僅能清除破璃 表面的灰塵和少量雜質,對_等其他無機元件表面不易溶 TF1004557 M437748 解的殘膠難㈣除,因此,贿提供—種清除錢元件表面 殘膠的清洗裝置,以克服上述缺陷。 【新型内容】 有鏗於習知技術的問題,本創作係提供一種無機元件的清 洗裝置,藉由㈣結合脫㈣和滚顯無機元件進行清洗, 不僅能清除無機元件表面之灰塵、雜f,更具有清除無機元 件表面的殘膠之功能。 根據本創狀i關,係提供_種錢元件的清洗裝 置匕έ依序又置於機架上的盤刷段和滾刷段,盤刷段上安 裝有多個盤刷,用於配合脫膠劑刷洗無機元件的表面之殘 谬;滾刷段上錢衫㈣刷,科清除無機元件表面之殘 膠及該脫膠劑。 具體而言,本創作之無機元件的清洗裝置是藉由盤刷結合 脫膠劑和滾賴無機元件的表面進行清洗,不僅能清除無機 兀件的表面之灰塵、雜質,更具有清除無機元件的表面的殘 膠之功能。 【實施方式】 為使热習本創作所屬技術領域之一般技藝者能更進一步 瞭解本創作’下文特列舉本創作之較佳實施方式,並配合所 附圖式’詳細說明本創作的構成内容及所欲達成之功效。 圖1為本創作實施例之無機元件的清洗裝置之結構的示 意圖,圖2為圖1之無機元件的清洗裝置的俯視圖。請參照 TF1004557 5 M437748 圖1與圖2,無機元件的清洗裝置loo包含依序設置於機架 9〇上的盤刷段1和滾刷段2。其中,盤刷段1上安裝有多個 盤刷10,用於配合脫膠劑刷洗無機元件的表面之殘膠。滾 刷段2上安裝有多個滾刷20,用於清除無機元件的表面之 殘膠及脫膠劑。具體而言,盤刷1 〇可安裝於盤刷擺動架(圖 未示)上,而由一盤刷驅動電機(圖未示)以360度旋轉來驅 動。盤刷10配合脫膠劑,例如東莞市邁騰橡塑材料有限公 司所生產之mw730快幹膠脫膠劑,刷洗無機元件之表面的 殘膠,使大部份殘膠溶解,不再黏附在無機元件的表面。滾 刷20以中性液體,例如純水,進一步清除無機元件表面的 少量殘膠、殘留的脫膠劑及灰塵等髒汙。 更具體而言,在本創作實施例中,盤刷段丨還包含有第一 噴淋管組件11,設置於各盤刷1〇之上方。喷淋管組件u 包含複數個導管,平行排列於盤刷1〇之上方,導管上密佈 有複數個噴嘴,導管一端連接於一脫膠劑存儲裝置(圖未 不)’脫膠劑儲存容器可獨立設置於無機元件的清洗裝置的 外部。脫膠劑在離心泵的作訂透過喷嘴噴於盤刷段i 之無機元件的表面。 月> ,’、、0 3圖3為圖1中滾刷段之戴面圖。滚刷段2包 含有第二噴淋管組件2卜刮刀22及吹氣裝置23。第二噴淋 管組件21設置於該㈣刷2()之上方,結構類似於第一喷淋 S °且件11,不同之處在於第二噴淋管組件21連接於一中性 TF1004557 M437748 液體儲存器(圖未示)’該中性液體儲存器可獨立“M437748 V. New description: [New technical field] This work has the technical field of cleaning inorganic components, especially regarding a cleaning device for inorganic components. [Prior Art] A cleaning device for inorganic components, such as a glass washer, is a special device for cleaning and drying a glass surface before processing techniques such as mirroring, vacuum coating, tempering, hot bending, and hollow lamination. Glass washers are usually composed of a drive system, brushing, water rinsing, pure water rinsing, hot and cold air drying, and an electronic control system. The glass cleaning program of the prior art is: after placing the flat glass on the glass washing machine, the driving roller holds the glass into the brushing chamber, and the water is brushed by the upper and lower straight brush to wash the 'woven into the person's rinse_pure water rinse Lai wind blowing, coupled with electric drying drying, to achieve a dry, clean cleaning effect. However, 'when making a glass panel for an image display device such as a liquid crystal display, 'will often be cut, size (4) by (4) Na is combined with a large-sized glass surface, and it is inevitable to produce an overflow knee at the edge portion of the small-sized glass. In the case of the formation of residual glue on the surface of large-sized glass. In the same way, similar problems may occur in the process of bonding it to some inorganic parts. For example, the substrate of the touch panel is too close to the wealth. The cleaning of the upper and lower straight brush of the I-Technology glass washing machine can only remove the dust and a small amount of impurities on the surface of the glass. It is difficult to dissolve the surface of other inorganic components such as _ TF1004557 M437748 (4), therefore, the bribe is provided - A cleaning device for removing residual glue on the surface of the money component to overcome the above drawbacks. [New content] In view of the problems of the prior art, this creation provides a cleaning device for inorganic components. By (4) combining the removal (four) and rolling inorganic components for cleaning, it can not only remove dust and impurities on the surface of inorganic components. It also has the function of removing the residual glue on the surface of the inorganic component. According to the invention, the cleaning device for providing the money component is sequentially placed on the disk brush segment and the roller brush segment of the rack, and a plurality of disk brushes are mounted on the disk brush segment for the degumming. The agent washes the residue of the surface of the inorganic component; the brush on the brush section (4) brush, the residue of the surface of the inorganic component is removed and the degumming agent is removed. Specifically, the cleaning device of the inorganic component of the present invention is cleaned by a disk brush combined with a degumming agent and a surface that is pressed against the inorganic component, thereby not only removing dust and impurities on the surface of the inorganic component, but also having a surface for removing the inorganic component. The function of the residual glue. [Embodiment] In order to make the present invention well-known to those skilled in the art of the genre creation, the following is a detailed description of the preferred embodiment of the present invention, and the composition of the present invention is described in detail with the accompanying drawings. The effect that you want to achieve. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the structure of a cleaning device for an inorganic component according to an embodiment of the invention, and Fig. 2 is a plan view showing a cleaning device for the inorganic component of Fig. 1. Please refer to TF1004557 5 M437748. Fig. 1 and Fig. 2, the inorganic component cleaning device loo includes the disk brush segment 1 and the roller brush segment 2 which are sequentially disposed on the frame 9〇. Among them, a plurality of disc brushes 10 are mounted on the disc brushing section 1 for brushing the residual glue on the surface of the inorganic component with the degumming agent. A plurality of roller brushes 20 are mounted on the brush section 2 for removing residual glue and debonding agent on the surface of the inorganic component. Specifically, the disk brush 1 can be mounted on a disk brush swing frame (not shown) and driven by a disk drive motor (not shown) at 360 degrees. The disc brush 10 is combined with a degumming agent, such as the mw730 quick-drying glue degumming agent produced by Dongguan Meiteng Rubber & Plastic Materials Co., Ltd., to scrub the residual glue on the surface of the inorganic component, so that most of the residual glue is dissolved and no longer adheres to the inorganic component. surface. The brush 20 further removes a small amount of residual glue, residual debonding agent, dust and the like on the surface of the inorganic member with a neutral liquid such as pure water. More specifically, in the present embodiment, the disk brush segment 包含 further includes a first shower tube assembly 11 disposed above each of the disk brushes. The spray pipe assembly u comprises a plurality of conduits arranged in parallel above the disk brush 1 ,, the pipe is densely covered with a plurality of nozzles, and one end of the conduit is connected to a degumming agent storage device (not shown). The degumming agent storage container can be independently set. On the outside of the cleaning device of the inorganic component. The debonding agent is sprayed on the surface of the inorganic member of the disk brush segment i through the nozzle of the centrifugal pump. Month>, ',, 0 3 Fig. 3 is a worn view of the roller brush section of Fig. 1. The roller brush section 2 includes a second spray pipe assembly 2, a scraper 22 and an air blowing device 23. The second spray pipe assembly 21 is disposed above the (4) brush 2() and has a structure similar to the first spray S° and the member 11, except that the second spray pipe assembly 21 is connected to a neutral TF1004557 M437748 liquid. Storage (not shown) 'The neutral liquid reservoir can be independent"
元件的清洗裝置100外部。中性液體在離心泵立设置於無機 第二噴淋管組件21噴灑於滾刷段2之無機^彳作用下透過 —滾刷20對應設置至少一刮刀22,刮刀牛^表面。每 相互平行,且與滾刷之外表面相切,用以刮除附*應之滾刷 2〇上的殘膠,以減少殘膠及灰塵黏附在滾刷上,考在滾刷 件表面造成劃痕。吹氣裝置23包括具有多個吹氣=無機7L 導管231 ’該些導管231設置於滾刷20上方,s 的 且與滾刷2〇 平行’導管231 —端連接於一氣體產生農置(未圖示),令气 體產生裝置產生的吹氣經由吹氣口 230來吹掉附著在滚刷 20上的殘膠,以避免滚刷20附著太多殘膠而降低刷洗無機 元件之表面的殘膠之功效。 上述無機元件的清洗裝置100還可以包括切液段3,切液 段3設置於滾刷段2之後段’切液段3上設置有多個高壓空 • 氣出氣口 30,高壓空氣透過該些高壓空氣出氣口 30吹出以 對無機元件表面進行高壓空氣切液。較佳的,高壓空氣出氣 口 30的氣體吹出方向於垂直方向傾斜15度角可具有更好的 切液效果。 經高壓空氣切液處理之後的無機元件的表面通常還殘留 有少量濕氣,為對無機元件的表面的濕氣進一步清除,在切 液段3之後段還可以設置〆乾燥段4。乾燥段4包含複數個 不鏽鋼管和發熱管4G,發熱料置於不鏽鋼f内部’啟動 7 TF1004557 M437748 電源,發熱官發熱,可焕乾無機元件表面的濕氣。 上述無機兀件的清洗裝置1〇〇還可以包括進料段5、出料 & 6傳运輥70、横移驅動馬達71及加力驅動輪π。進料 段5,位於盤刷段1之前端,出料段6位於乾燥段4之後端。 傳运輕70女裝於機架9〇上’由橫移驅動馬達^驅動用 於將待清洗之無機元件依序傳送於進料段5、盤刷段i、滾 刷丰又2 士刀液丰又3、乾燥段4及出料段6。傳送輥70的傳送 速度可由控制器(圖未示)調節和控制。加力驅動輪72設置 於進料段5與盤刷段卜盤刷段1與滾刷段2、滾刷段2與 刀液#又3切液奴3與乾燥段4及乾燥段4與出料段6之間, 以在某一清洗程式執行完畢,啟動加力驅動輪72使無機元 件迅速地移動到下1洗程式。 於本創作提供之—特定實施财,無機元件的清洗裝置 1〇〇還可以包括高度調整裝置80、過濾泵81、儲液槽82及 上蓋83。高度調整裝置8〇可手動或自動調整傳送輥7〇相 十於JBL·刷1 0和滚刷2〇吟高度,避免盤刷1 〇和滚刷與無 機兀件的過度接觸而造成無機元件的表面的磨損,或盤刷 10和滾刷20與無機元件表面接觸不均勻,達不到高質量的 清洗效果。過濾泵81藉由管道與盤刷段1相連接,盤刷段 1中使用過的脫膠劑經過濾泵81濾除雜質後儲存於儲液槽 82中,藉此,儲液槽82中收集的脫膠劑可循環再利用。上 蓋83覆蓋於盤刷段1、滾刷段2及切液段3之上,使無機 TF1004557 M437748 元件的清洗過程在一相對封閉的環境中進行。 本創作實施例還提供了採用上述無機元件的清洗裝置 100清洗無機元件的程序,主要包含步驟:a)驅動盤刷10, 盤刷10配合脫膠劑刷洗無機元件表面之殘膠;以及b)驅動 滚刷20,滚刷20清除無機元件表面之殘膠及脫膠劑。盤刷 10以脫膠劑’例如mw730快幹膠脫膠劑,刷洗無機元件表 面的殘膠’使殘膠溶解’不再黏附在無機元件的表面,滾刷 % 20以中性液體,例如純水,進一步清除無機元件表面的殘 膠、殘留的脫膠劑及灰塵等髒汙。 本創作實施例中的無機元件可以是玻璃,但不限於此。以 .清洗玻璃為例’下面對本創作實施例提供的無機元件的清洗 程序進一步詳細說明如下: 步驟201 ’將玻璃放置於無機元件的清洗裝置1〇〇之傳送 輥70上’橫移驅動馬達71驅動傳送輥70,將待清洗之玻 Φ 璃由進料段5移動至盤刷段1。 步驟202,當玻璃移動到盤刷段i時,啟動第一噴淋管組 件11喷灑脫膠劑於玻璃表面,同時驅動盤刷1〇,使盤刷1〇 配合脫膠劑來刷洗玻璃表面的殘膠。另外,刷洗玻璃之表面 的脫膠劑經過濾泵81濾除雜質及殘膠,並將濾除雜質和殘 膠之脫膠劑儲存於儲液槽82中以回收再利用。盤刷段清洗 後之玻璃經傳送輥70輸送至滾刷段2。 步驟203,在玻璃移動到滾刷段2時,啟動第二喷淋管組 TF1004557 9 件21 ’噴麗中性液體於玻璃之表面,同時驅動滾刷扣 清除盤刷H)刷洗玻璃表面未去㈣少量畴、㈣ 劑及其謂汙。滾刷2G在刷洗玻璃之表__時會附^ 殘膠’可利用設置於盤刷段2上的刮刀22到除附 2〇的殘膠,同時吹氣裝置23產生的吹氣經由吹氣口 23: 吹掉附著在滾刷2〇上的殘膠,以避免滾刷附著太多殘膠^ 降低刷洗玻璃之表面的殘膠之功效。玻璃經滾刷段2主二… 之後由傳送|昆70輸送至切液段3。 " 空氣產生裝置 對無機元件 步驟204,在玻璃移動到切液段3時,高壓 產生的高壓空氣經由高壓空氣出氣口 3〇吹出 的表面進行高壓空氣切液。 步驟205 ’經高壓空氣切液後的玻璃藉由傳送輥%傳送 至乾燥段4 ’設置在乾燥段4上㈣鮮產生熱量透過不^ 鋼官清除玻璃表面的濕氣。乾燥完畢將玻璃傳送至出料段 綜上所述,本創作提供的一種無機元件的清洗裝置,藉由 盤刷結合脫膠劑和滾刷對無機元件的表面進行清洗,不僅能 清除無機元件表面之灰塵、雜質,更具有清除無機元件的表 面的殘膠之功能。並設置刮刀配合吹氣清除滾刷上附著之殘 膠’可減少殘膠及灰塵黏附在滾刷上以造成無機元件表面上 劃痕’而提高刷洗無機元件表面的殘膠之功效。 雖然本創作已參照較佳具體例及舉例性附圖敘述如上,惟 TF1004557 M437748 其應不被視為係限制性者。熟悉本技藝者對其形態及具體例 之内容做各種修改、省略及變化,均不離開本創作之申請專 利範圍之所主張範圍。 【圖式簡單說明】 圖1為本創作實施例之無機元件的清洗裝置之結構的示 意圖, 圖2為圖1的無機元件的清洗裝置之俯視圖; 圖3為圖1中滾刷段之截面圖;及 圖4為本創作實施例之無機元件的清洗方法之流程圖。 【主要元件符號說明】 1 盤刷段 2 滚刷段 3 切液段 4 乾燥段 5 進料段 6 出料段 10 盤刷 11 第一喷牀管組件 20 滾刷 21 第二喷牀管組件 22 刮刀 23 吹氣裝置 TF1004557 11 M437748 30 高壓空氣出氣口 40 不鏽鋼管和發熱管 70 傳送輥 71 橫移驅動馬達 72 加力驅動輪 80 高度調整裝置 81 過慮果 82 儲液槽 83 上蓋 90 機架 100 無機元件的清洗裝置 230 吹氣口 231 導管 TF1004557 12The component is cleaned outside of the device 100. The neutral liquid is disposed on the inorganic pump in the centrifugal pump, and the second spray pipe assembly 21 is sprayed on the roller brush 2 to transmit at least one scraper 22 corresponding to the surface of the roller brush 20 to scrape the surface of the blade. Each parallel to each other and tangential to the outer surface of the roller brush for scraping off the residual glue on the roller brush 2 to reduce residual glue and dust adhering to the roller brush, and causing scratching on the surface of the roller brush mark. The air blowing device 23 includes a plurality of air blowing = inorganic 7L conduits 231 'the conduits 231 are disposed above the roller brush 20, and are parallel to the roller brush 2'. The conduit 231 is connected to a gas generating farm (not As shown in the figure, the blowing gas generated by the gas generating device is blown off the residual glue attached to the roller brush 20 through the air blowing port 230, so as to prevent the roller brush 20 from adhering too much residual glue and reducing the residual glue on the surface of the brushing inorganic component. The effect. The above-mentioned inorganic component cleaning device 100 may further include a liquid cutting section 3, and the liquid cutting section 3 is disposed in the downstream section of the roller brush section 2. The cutting liquid section 3 is provided with a plurality of high-pressure air/air outlet ports 30 through which high-pressure air passes. The high-pressure air outlet port 30 is blown to perform high-pressure air cutting of the surface of the inorganic member. Preferably, the gas blowing direction of the high-pressure air outlet port 30 is inclined at an angle of 15 degrees in the vertical direction to have a better liquid cutting effect. The surface of the inorganic member after the high-pressure air cutting treatment usually has a small amount of moisture remaining thereon to further remove moisture from the surface of the inorganic member, and the drying section 4 may be disposed after the cutting section 3. The drying section 4 comprises a plurality of stainless steel tubes and a heating tube 4G, and the heat generating material is placed inside the stainless steel f. The starter 7 TF1004557 M437748 power source generates heat and heats the surface of the inorganic component. The above-mentioned inorganic cleaning device 1〇〇 may further include a feeding section 5, a discharging & 6 conveying roller 70, a traverse driving motor 71, and an urging driving wheel π. The feed section 5 is located at the front end of the disc brush section 1, and the discharge section 6 is located at the rear end of the drying section 4. The transport light 70 women's clothing on the rack 9〇' is driven by the traverse drive motor ^ for sequentially conveying the inorganic components to be cleaned in the feed section 5, the disc brush section i, the roller brush and the 2 knife liquid Feng 3, drying section 4 and discharge section 6. The conveying speed of the conveying roller 70 can be adjusted and controlled by a controller (not shown). The force driving wheel 72 is disposed on the feeding section 5 and the disc brush section, the disc brush section 1 and the roller brush section 2, the roller brush section 2, the knife liquid #3, the liquid cutting slave 3, the drying section 4, and the drying section 4 Between the segments 6, after a certain cleaning program is executed, the afterburner wheel 72 is activated to rapidly move the inorganic components to the lower washing program. The cleaning device for inorganic components provided by the present invention may further include a height adjusting device 80, a filter pump 81, a reservoir 82, and an upper cover 83. The height adjusting device 8 can manually or automatically adjust the height of the conveying roller 7 to the JBL brush 10 and the brush 2 , to avoid excessive contact between the brush 1 滚 and the roller brush and the inorganic member to cause inorganic components. The surface is worn, or the disc brush 10 and the roller brush 20 are in uneven contact with the surface of the inorganic member, failing to achieve a high quality cleaning effect. The filter pump 81 is connected to the disc brush section 1 by a pipe. The used degumming agent in the disc brushing section 1 is filtered by the filter pump 81 to be stored in the liquid storage tank 82, thereby collecting in the liquid storage tank 82. The degumming agent can be recycled. The upper cover 83 covers the disc brush section 1, the brush section 2 and the cutting section 3, so that the cleaning process of the inorganic TF1004557 M437748 element is carried out in a relatively closed environment. The present embodiment further provides a program for cleaning the inorganic component by using the above-mentioned inorganic component cleaning device 100, which mainly comprises the steps of: a) driving the disk brush 10, the disk brush 10 is combined with the degumming agent to wash the residual component of the inorganic component surface; and b) driving The roller brush 20 and the roller brush 20 remove the residual glue and the debonding agent on the surface of the inorganic component. The disc brush 10 uses a degumming agent, such as mw730 quick-drying glue degumming agent, to scrub the residual glue on the surface of the inorganic component to dissolve the residue, and no longer adheres to the surface of the inorganic component, and the brush 20% is a neutral liquid, such as pure water. Further, the residual glue on the surface of the inorganic component, the residual debonding agent, and dust and the like are removed. The inorganic member in the present embodiment may be glass, but is not limited thereto. Taking the cleaning glass as an example, the following is a detailed description of the cleaning procedure of the inorganic component provided in the present embodiment: Step 201 'Place the glass on the conveying roller 70 of the inorganic component cleaning device 1' traverses the driving motor 71 The conveying roller 70 is driven to move the glass Φ to be cleaned from the feeding section 5 to the disk brushing section 1. Step 202, when the glass moves to the disc brush segment i, start the first spray pipe assembly 11 to spray the degumming agent on the glass surface, and simultaneously drive the disc brush 1 〇, so that the disc brush 1 〇 is combined with the degumming agent to scrub the residual surface of the glass surface. gum. Further, the degumming agent on the surface of the brushed glass is filtered by the filter pump 81 to remove impurities and residual glue, and the degumming agent for filtering impurities and residual glue is stored in the liquid storage tank 82 for recycling. The glass after the cleaning of the disk brush section is conveyed to the roller brush section 2 via the conveying roller 70. Step 203, when the glass moves to the roller brush section 2, start the second spray pipe set TF1004557 9 pieces 21 'spray neutral liquid on the surface of the glass, while driving the roller brush to remove the disk brush H) brushing the glass surface does not go (4) A small number of domains, (four) agents and their predicate. The brush 2G will attach the residual glue to the surface of the brushed glass _. The scraper 22 provided on the disc brush section 2 can be used to remove the residual glue of the 2 ,, and the air blown by the air blowing device 23 can be blown through the air blowing port. 23: Blow off the residual glue attached to the roller brush 2 to prevent the roller brush from attaching too much residue. ^ Reduce the effect of the residual glue on the surface of the brushed glass. The glass passes through the brushing section 2 main two... and is then conveyed to the cutting section 3 by the transfer|kun 70. " Air generating device For the inorganic component Step 204, when the glass moves to the liquid cutting section 3, the high pressure air generated by the high pressure is subjected to high pressure air cutting through the surface blown out by the high pressure air outlet port 3〇. Step 205 'The glass after the high-pressure air cutting is transferred to the drying section 4 by the conveying roller %. The drying section 4 is disposed on the drying section 4 (4) to generate heat to remove moisture from the surface of the glass. After the drying is completed, the glass is conveyed to the discharge section. The inorganic component cleaning device provided by the present invention cleans the surface of the inorganic component by the combination of the disc brush and the debonding agent and the roller brush, and can not only remove the surface of the inorganic component. Dust, impurities, and the function of removing residual glue on the surface of inorganic components. And the scraper is arranged to cooperate with the blowing to remove the residual glue attached on the roller brush to reduce the residual glue and dust adhering to the roller brush to cause scratches on the surface of the inorganic component, thereby improving the effect of scrubbing the residual rubber on the surface of the inorganic component. Although the present invention has been described above with reference to preferred embodiments and exemplary drawings, TF1004557 M437748 should not be considered as a limitation. A person skilled in the art will be able to make various modifications, omissions and changes to the details of the embodiments and the specific examples thereof without departing from the scope of the claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the structure of a cleaning device for an inorganic component according to an embodiment of the present invention, FIG. 2 is a plan view of the cleaning device for the inorganic component of FIG. 1; and FIG. 3 is a cross-sectional view of the roller brush segment of FIG. And FIG. 4 is a flow chart of the cleaning method of the inorganic component of the present embodiment. [Main component symbol description] 1 Disc brush segment 2 Roller brush segment 3 Cutting liquid segment 4 Drying segment 5 Feeding section 6 Discharging section 10 Disc brush 11 First spray bed tube assembly 20 Roller brush 21 Second spray bed tube assembly 22 Scraper 23 Blowing device TF1004557 11 M437748 30 High-pressure air outlet 40 Stainless steel tube and heating tube 70 Transfer roller 71 Traverse drive motor 72 Afterburner wheel 80 Height adjustment device 81 Care 82 Storage tank 83 Upper cover 90 Rack 100 Inorganic Component cleaning device 230 blowing port 231 conduit TF1004557 12