201038229 六、發明說明: 【發明所屬之技術領域】 、 本發明涉及旋轉刷、牙刷製造方法和製造設備技術領域’ 更具體地說,是涉及一種旋轉刷、具有該旋轉刷的牙刷、製造 t 該旋轉刷的方法以及旋轉刷捲繞裝置和旋轉刷製造設備。 【先前技術】 Ο201038229 VI. Description of the Invention: [Technical Field] The present invention relates to the field of rotating brushes, toothbrush manufacturing methods and manufacturing equipment. More specifically, it relates to a rotating brush, a toothbrush having the same, and manufacturing A method of rotating a brush and a rotating brush winding device and a rotating brush manufacturing device. [Prior Art] Ο
據統计’牙周病患者占世界總人口的比例在70%以上’ 而牙周病又是各種慢性疾病的誘因。先前技術中的直板牙刷不 能徹底清除牙垢,特別是牙縫之間的牙垢。而牙周病主要是由 於這些殘留的牙垢沒有被徹底清除而引起的,因為這些殘留的 牙垢中存在著數以億計的細菌,它們在牙齦與牙隙之間發酵、 繁殖’麵引起牙周病。因此,刷牙並職清除牙垢是預防牙 周病的有效手段。 月'J技術中,出現了一種滾動牙刷,它是通過刷頭 的滾動’直接將刷毛伸入到牙縫之間,剔除並帶走牙垢。由於 其具有極細密的刷毛組合,可以輕鬆、快捷、安全地清除牙垢。 而且,刷牙和按摩牙齦同時進行,對於促進牙_血液迴圈、 刺激唾液分泌、強健牙齦_、鞏断齒有著顯著的功效。 並具射,軸灯娜雜戰由數片圓形 後才能形成。刷子單體需單 ^串聯並層疊 单體㊉早獨成形,人手卫層疊及穿設軸 3 201038229 怎,其作錢複、製作縣域。而且,錢 單體時,其戦放織齡財获通過錢=== 頭_的料進行。雜錄的_是,放射_^隹= 大大降低 π列,從而造成由該片狀刷子單體製成的刷頭的刷= 實現均勻排列,進而使得牙刷清理牙垢的能力 【發明内容】 ‘種旋轉刷的 本發明所要解決的技術問題之一在於提供 製造方法,其J1序簡單,製作成本低。 本發明所要酿的技_題之二在於触— 結構簡單,易於大量生產。 j八 本發明所要解決的技術問題之三在於提供—種具有上述 旋轉刷的牙刷,其刷毛排列均勻。 , ,本發明所要解決的技術問題之四在於提供—種旋轉刷的 捲繞襄置,其可完成上述旋轉刷的捲繞卫作,生產效率高,並 且捲繞均勻。 ’ ,本發明所要解決的技術問題之五在於提供一種旋轉刷的 製造設備,其相容了上述旋轉刷的捲繞裝置,可同時完成梳狀 毛條的製作以及梳狀毛條的捲繞工作,生產效率高。 對於本發明旋轉刷的製造方法來說,本發明的技術方案是 這樣加以實現的:提供一種旋轉刷的製造方法,包括以下步 驟’將多根單絲製作舰狀毛條’紐將所驗狀毛條捲繞成 201038229 螺旋狀並固定。 對於本發明旋轉刷來說,本發明的技術方案是這樣加以實 現的:提供-種旋轉刷,包括多根呈放射狀排列的刷毛,所述 刷毛位於至少-個梳狀毛條上,所述梳狀毛條捲繞成螺旋狀並 固定。 對於本發明牙刷來說’本發明的技術方案是這樣加以實現 的:提供-種牙刷,該牙刷具有至少一個旋_,所述旋轉刷 〇 具有上述旋轉刷的結構。 對於本發明旋轉刷捲繞裝置來說,本發明的技術方案是這 樣加以實現的:提供一種旋轉刷捲繞裝置,包括毛條供給機 構、位於所述毛條供給機構出料口一侧的捲繞機構、以及位於 所述捲繞機構上侧的焊接機構,所述捲繞機構包括一用於帶動 毛輪芯套旋轉的旋轉元件、驅動所述毛條供給機構升降的升降 元件。 ❹ 對於本發明旋轉刷製造設備來說’本發明的技術方案是這 樣加以實現的:提供一種旋轉刷製造設備,包括梳狀毛條製作 裝置,位於所述梳狀毛條製作裝置一侧的旋轉刷捲繞裝置,所 述旋轉刷捲繞裝置具有上述旋轉刷捲繞裝置的結構。 這樣,由於本發明旋轉刷的製造方法先將多根單絲製作成 梳狀毛條,然後將所述梳狀毛條捲繞成螺旋狀並固定,不僅可 以使刷毛實現均勻排列,而且,作業簡單,易於提高生產效率。 使得使用該旋轉刷的牙刷,刷毛排列均勻。本發明的旋轉刷捲 5 201038229 繞裝置’可一次完成上述旋轉刷的捲繞工作,生產 且捲繞均勻。本發職轉織造财進—步完成^完成 梳狀毛條的製作,自動化程度進一步提高。 【實施方式】 為了使本發明所要解決的技術問題、技術方案及有益效果 f加妓明白,以下結合_及實施例,對本發明進行進一步 詳細摘。財理解,此處所贿的具體實施例僅伽以解釋 本發明,並不用於限定本發明。 明參照圖1至圖4 ’為本發明旋轉刷製造設備的—較佳實 把例該丨疋轉刷製造⑨備包括梳狀毛條製作裝置1以及旋轉刷 捲繞裝置2。該包括梳狀毛條製條置丨的出料口位於所述旋 轉刷捲繞裝置2的人料口,以下對該兩部分分別作詳細介紹。 所述梳狀毛條製作裝置丨包括依次排列多根單絲 S1的單 =排列引導機構1卜可對所述單絲S1施以夾持力並帶動所述 單絲進給的單絲祕機構12、將所述單絲S1熔接成梳狀毛條 S2的單絲炫接機構13以及將所述梳狀毛條S2切下的毛條剪 切機構14。 所述單絲排列引導機構U包括兩個平行排列的一級、二 級導絲桿m、112,所述兩個導絲桿lu、112上分別均布若 干沿水準方向排列的導絲孔113。多個絲輪s上的單絲Si分 別穿設在所述導絲孔113内’兩相鄰的導絲孔113之間的距離 201038229 目等,讀财實現料S1之咖_的均等化,從而為構 成梳狀毛條S2的單絲S1的均句化創造了條件。另外,通過 選擇導絲孔113的數量還可以控制梳狀毛條S2的長度,進而 =造不職度幢狀毛條S2触斜。如果需要製造低密 度的梳狀毛條S2,可使所述單絲S1咖—做者多個導絲孔 113排列。同時’導絲桿111、112的數量還可以為多個。 ❹ 所述單絲祕機構12包括纽⑵,所述氣動夾鉗 121兩端分別受—氣缸122 .驅動。通過氣動夾钳121的夾持, 可方便後續單絲炼接機構13的炫接工作。當氣動夾钳⑵夾 ,氣缸122可帶動氣動夾钳121向單·接機構 所述單絲溶接機構13包括一可上、下往復運動的谭接壓 頭131、以及位於所述焊接_⑶下方的焊接底板132。所 述谭祕頭131為—超聲波焊接壓頭,通過焊接壓頭131的溶 接,单絲S1掷接壓頭131壓接驗置形成—轉料卜 梳狀毛條S2通過熔接部S11解絲S1連成—體。溶接工作 完成後,氣動夾鉗121打開,並在氣缸122可帶動下往回運動, 並重複下一個夾持及送料動作。 所述毛條f切機構14包括一通過上刀座i4i固定的上切 刀142以及一通過T刀座143固定的下切刀144,所述上切刀 =可在所述上刀座⑷的帶動下上 '下往復運動。當梳狀毛 條S2在虱動夾鉗⑵的推動下運動至上切刀142下方時,上 7 201038229 切刀142即可向下獅並在崎卿卩sn如下梳狀毛條 S2 ° 當需要製作錐台形旋轉刷時,所述上、下切刀143、I44 的長度方向與所述單絲的前進方向成—航。這樣,製成的梳 片毛條卩呈直角梯形。當然,亦可以使所述焊接壓頭131 的長度方向與所料_前财域—肖度,輯述上、下切 刀143、144的長度方向與所述單絲的前進方向垂直。 田然所述梳狀毛條S2還可被加工成除直條形(請參照 圖9)以及直角梯形(請參照圖1〇)以外的形狀如竹節形(請 參照圖11)等。當需要梳狀毛條S2呈竹節形時,只需選用相 應形狀的上切刀142即可實現。 請參照圖5 7,旋轉纖繞裝置2包括毛條供給 機構21位於所述毛條供給機構21出料口一側的捲繞機構 22、以及位於所述捲繞機構22上侧的焊接機構23,所述捲繞 機構22包括-用於帶純輪騎3旋轉的旋轉元件%、驅動 所述毛條供給機構21升降的升降元件25。這樣,當毛條供給 機構21接過所述梳狀毛條製作裝置丨製作的毛條時,就可通 過所述焊接機構23將毛輪芯套3和梳狀毛條S2的一端焊接在 —起。當旋轉元件24帶動毛輪芯套3繼續旋轉時,梳狀毛條 S2即可被纏繞在毛輪芯套3上。由於升降元件25可同時驅動 毛條供給機構21上升’所述梳狀毛條S2即可以螺旋方式纏繞 在毛輪芯套3上’在纏繞過程中,被捲繞成螺旋狀的梳狀毛條 201038229 S2的螺旋之間還可通過焊接機構23焊接在一起,這樣梳狀毛 條S2即被捲繞成為一旋轉刷S3。以下對所述旋轉刷捲繞裝置 2的各組成部分分別作詳細介紹。 所述旋轉元件24包括一旋轉支座241、穿設在所述旋轉支 座241中心的旋轉軸芯246、聯動所述旋轉軸芯246的一棘爪 輪242、驅動所述棘爪輪242運動的電機243。本實施例中, 所述電機243為一步進電機’其通過一同步皮帶244帶動一同 〇 步皮帶輪245,皮帶輪245的上部與所述棘爪輪242固定連 接。這樣,當毛輪芯套3被套設在所述旋轉軸芯246頂部,所 述電機243工作時’即可通過同步皮帶244帶動所述皮帶輪 245轉動,從而通過棘爪輪242聯動所述旋轉轴芯246。 所述升降元件25包括驅動所述毛條供給機構21升降的一 棘凸輪251 ’所述棘凸輪251呈圓盤狀,其徑向外緣設有可與 所述棘爪輪嚙合的棘齒’其轴向一侧設有一凸輪面252。所述 〇 棘凸輪251通過所述棘齒受所述棘爪輪242的驅動。當棘爪輪 242帶動旋轉軸芯246轉動時,棘凸輪251也被聯動’並通過 其凸輪面252將毛條供給機構21頂起(詳見後述)。所述凸輪 面252驅動所述毛條供給機構21的行程等於旋轉刷%的高 度。方疋轉刷S3螺旋之間的距離可通過棘爪輪242和棘凸輪251 之間的傳動比例來設定。 所述毛條供給機構21的一侧被樞接固定,其另一侧設有 一擺動頂桿211,並通過所述擺動頂桿211與所述棘凸輪251 9 201038229 邮輪面252接觸。這樣,當所述棘凸輪25i通過所述擺動頂 才于1推動所述毛條供給機構21時,毛條供給機構以 即可作 I角度的擺動(凊對比參照圖6及圖7),實現梳狀毛條82在 捲繞過程中的上升動作。 所述毛條供給機構21包括一氣動夾212、驅動所述氣動夾 向所述捲繞機構運動的氣缸犯,所述氣缸犯被框接固 疋這樣田所述毛條供給機構21接過所述梳狀毛條製作裳 置1,製作的毛條S2時’就可通過所述氣缸213將毛條S2準 確送至捲繞機構22,方便毛條S2和毛輪芯套3之間的焊接。 所述:tp接機構23包括焊接頭η丨、焊接壓頭Μ:、固定所 述焊接頭231轉接壓頭232的連接套233、以及驅動所述連 接套233上下運動的氣紅234,在所述焊接頭231和所述連接 套233之間設有一彈性構件235。當氣缸213將毛條s2送至 捲繞機構22時’由於戶斤述毛輪芯套3具有一頭部,氣缸说 帶動焊接壓頭232下降即可先將所述毛條S2的-端和頭部31 壓在起。隨後,彈性構件235收縮,所述焊接頭231即可將 毛條S2的一端和頭部31外緣熔接在一起。焊接動作完成後, 氣缸234復位,捲繞機構22即可開始對毛條S2進行捲繞工 作。在捲繞過程中,電機243開始旋轉,每旋轉3_5周(即毛 條S2完成一個螺旋的繞制工作),焊接機構23對捲繞成螺旋 狀的梳狀毛條S2的螺旋之間進行焊接一次。本實施例中,氣 缸234可以調得較低,以便所述螺旋可以承受因為螺旋逐漸增 201038229 高而逐漸增大的IUx壓力。這樣,毛條S2所碱職的即被 所述頭部31蚊,而螺旋之間也被焊接在了 —心從而完成 了旋轉刷S3的製備工作。 為方便落料’所述旋轉刷捲繞裝置2還包括一落料機構 26 ’所述洛料機構26包括—帶動所述旋轉軸& 246上下運動 的落料氣缸26i,這樣,當落料氣缸加帶動所述旋轉軸芯246 向下運動時’套設在所錢轉概246頂部賴獅S3即脫 落,完成落料動作。 本發明旋轉刷的製造方法包括以下步驟,先將多根單絲製 作成梳狀毛條’紐騎频狀毛祕軸職狀細定。以 下結合上述旋轉刷製造設備作詳細說明。 清參照圖1至圖4 ’先將多個絲輪s上的多條單絲S1分 別穿設在所述-級、二級導絲桿m、112的導絲孔ιΐ3内, 紐單絲si的外端被所述單絲夾持機構12夹持住,此時所述 單絲溶接機構13對所述多條單絲S1進行熔接。單絲si在焊 接壓頭131壓接的位置連成—體並形成與單絲&相連為的梳 狀毛條S2。隨後’氣缸122帶動氣動夾钳⑵向單絲溶接機 構13方向運動。當梳狀毛條S2在氣驗鉗⑵的推動下運動 =上切刀142 了方時’上切刀142即可向下運動並切下梳狀毛 條S2。從而,完成了梳狀毛條幻的製作過程。 2參照圖5至圖7’當毛條供給機_接過所述梳狀毛條 裝作裝置1製作的毛條s2時,就可通過所述焊接機構23將具 201038229 有mi的毛輪z套3和梳狀毛條S2的―端焊接在一起。當 旋轉元件24帶動毛輪芯套3 _旋轉時,梳狀毛條s2即可二 纏繞在毛輪芯套3上。由於升降元㈣可同時驅動毛條供給 機構21场’職概毛條S2即可轉旋方越繞在毛輪芯 套3上,在纏繞過程中,被魏成螺旋狀的梳狀毛條s2的螺 方疋之間還可通過焊接機構23疊加焊接在—起,這樣梳狀毛條 S2即被捲繞成為一旋轉刷S3。 請參照圖8,為本發明的旋轉刷的實施例一,其是採用上 述旋轉刷製造設備和__製造方法製成的,其包括多根呈 放射狀排列_毛,所述刷毛位於—倾狀毛條S2上,所述 梳狀毛條捲繞賴旋狀並固定。#然,所親狀毛條%還可 以多於一個。 所述旋轉刷通過一毛輪芯套3固定,所述毛輪芯套3具有 頭邛31,所述梳狀毛條%的一端通過熱溶的方式焊接在所 述毛輪辟3 _部32上。所賴捲繞成螺錄的餘毛條 S2中,相鄰的螺旋被疊加被焊接在一起。這種選轉刷既可用 在牙刷上,也可在工業領域發揮除塵的作用。當本實施例的刷 毛末端經過細化處理後,還當作美容刷使用,因為刷毛纖細, 在旋轉滾動的同時,可皮膚,並促進表皮的微循環,並可有效 除敵。 請參照圖12,為本發明的旋轉刷的實施例二,其與實施例 一的區別在於,該旋轉刷還具備以刷柄6,所述旋轉刷幻的 12 201038229 數量為多個,並且旋轉刷S3 _毛長度分為兩組,該兩種長 度的刷毛間隔排列。這種旋轉刷用於電路板的除塵工作,因為 電路板上通常具有报多元器件,其表面凹凸不平。由於本實施 例的旋轉刷S3的刷毛具有不同長度,其被安裝於傳送帶自動 除塵或者手動除麟,不會損傷元ϋ件,時,本實施例還適 用于清潔凸凹不平的精密儀器。 請參照® 13,為本發明的旋轉刷的實施例i,其與實施例 〇三的區別在於’所述旋轉刷S3呈錐台形狀。其適用於穴裝結 構的除塵工作。 本發明的牙刷包括至少—個具有上述結構驗轉刷幻, 請參照圖14,為本發明牙刷的實施例一,所述牙刷還包括一 用以固定所述旋轉刷的刷柄4,所述旋轉刷S3的數量至少為 一個,並沿所述刷柄4的長度方向排列,其旋轉軸的方向與所 述刷柄4的長度方向一致^所述旋轉刷%可由軟石夕膠料製成, Q 這種牙刷適於兒童和幼兒使用。 請參照圖15 ’為本發明牙刷的實施例二,所述牙刷還包括 一用以支樓所述旋轉刷旋轉的刷柄5,所述旋轉刷S3的數量 為一個,由於採用了上述旋轉刷製造設備和旋轉刷的製造方 法,其刷毛排列均勻,並且旋轉刷S3的螺旋捲繞均勻,易於 提尚生產效率。 請參照圖16,為本發明牙刷的實施例三,所述旋轉刷S3 的數量為兩個’並沿所述刷柄5的長度方向排列,其旋轉軸的 13 201038229 方向與所述刷柄5的長度方向垂直。本實施例由於採用了 旋轉刷S3,其清潔下效率進一步提高。 兩個 以上所述僅為本發_較佳實施_已,並不W限制本發 明,凡在本發明的精神和原則之内所作的任何修改、等同替換 和改進等,均應包含在本發明的保護範圍之内。 、 【圖式簡單說明】 圖1係本發明旋轉刷製造設備一較佳實施例的立體結構示意圖; 圖2係圖1所示實施例中梳狀毛條製作裝置的結構原理圖; 圖3係圖2中單絲排列引導機構的立體結構示意圖; 圖4係圖2中單絲夾持機構和單絲炼接機構的立體結構示意圖; 圖5係本發明旋轉刷捲繞裝置—較佳實施例的主視結構示意圖; 圖6係圖5所示實施湖始進行毛條捲駐作的讀狀態圖; 圖7係圖5所示實施例完成—個毛條捲繞卫作的讀狀態圖; 圖8係本發明旋轉刷實施例一的立體結構示意圖; 圖9係直條形梳狀毛條的立體結構示意圖; 圖10係直角梯形梳狀毛條的主視結構示意圖; 圖11係竹節形梳狀毛條的主視結構示意圖; 圖12係本發明旋轉刷實施例三的主視結構示意圖; 圖13係本發明旋轉刷實施例三的主視結構示意圖; 圖14係本發明牙刷實施例一的立體結構示意圖; 圖15係本發明牙刷實施例二的立體結構示意圖 ;以及 圖16係本發明牙刷實施例三的立體結構示意圖。 201038229 【主要元件符號說明】 梳狀毛條製作裝置 1 旋轉刷捲繞裝置 2 一級導絲桿 111 二級導絲桿 112 氣缸 122 焊接壓頭 131 上切刀 142 捲繞機構 22 焊接機構 23 氣缸 213 洛料機構 26 單絲夾持機構 12 單絲熔接機構 13 毛條剪切機構 14 單絲 S1 單絲排列引導機構 11 導絲孔 113 氣動夾钳 121 焊接壓頭 131 15 201038229 焊接底板 132 上刀座 141 上切刀 142 下刀座 143 下切刀 144 梳狀毛條 S2 毛條供給機構 21 擺動頂桿 211 焊接頭 231 焊接壓頭 232 連接套 233 氣缸 234 彈性構件 235 旋轉支座 241 棘爪輪 242 電機 243 同步皮帶 244 旋轉軸芯 246 棘凸輪 251 毛輪芯套 3 頭部 31 氣動夾 212 16 201038229 旋轉組件 24 同步皮帶輪 245 升降組件 25 凸輪面 252 旋轉刷 S3 落料氣缸 261 熔接部 S11 0 刷柄 4、 〇 17According to statistics, the proportion of patients with periodontal disease in the world's total population is above 70%, and periodontal disease is the cause of various chronic diseases. Straight toothbrushes of the prior art do not completely remove tartar, especially tartar between the teeth. Periodontal disease is mainly caused by the fact that these residual tartars have not been completely removed, because there are hundreds of millions of bacteria in these residual tartar, which ferment and multiply between the gums and the gaps to cause periodontal disease. . Therefore, brushing teeth and cleaning tartar together is an effective means to prevent periodontal disease. In the 'J technology, there is a rolling toothbrush that directly pushes the bristles between the teeth by rolling the brush head to remove and carry away the tartar. Thanks to its extremely fine bristle combination, tartar can be removed easily, quickly and safely. Moreover, brushing and massaging the gums simultaneously have a significant effect on promoting tooth-blood loops, stimulating saliva secretion, strengthening gums, and scoring teeth. And with a shot, the shaft lamp Na miscellaneous warfare can be formed by several rounds. The brush unit needs to be single-connected and laminated. The monomer is formed in the early tenth, and the human hand is layered and threaded. 3 201038229 How to make money and make the county. Moreover, when the money is single, the money of the plaque is obtained by the money === head. The _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ One of the technical problems to be solved by the present invention of the rotary brush is to provide a manufacturing method, which has a simple J1 sequence and low manufacturing cost. The second problem of the invention is that the touch-structure is simple and easy to mass-produce. J8 The third technical problem to be solved by the present invention is to provide a toothbrush having the above-mentioned rotating brush, which has a uniform arrangement of bristles. The fourth technical problem to be solved by the present invention is to provide a winding device for rotating a brush, which can complete the winding of the rotating brush, has high production efficiency, and is evenly wound. The fifth technical problem to be solved by the present invention is to provide a manufacturing apparatus for a rotating brush which is compatible with the winding device of the above rotating brush, and can simultaneously complete the production of comb tops and the winding work of comb tops, and produce efficient. For the manufacturing method of the rotating brush of the present invention, the technical solution of the present invention is achieved by providing a method for manufacturing a rotating brush, comprising the following steps: "making a plurality of monofilaments into a ship-like top" Winded into 201038229 spiral and fixed. For the rotary brush of the present invention, the technical solution of the present invention is achieved by providing a rotary brush comprising a plurality of radially arranged bristles, the bristles being located on at least one comb top, the comb The tops are wound into a spiral and fixed. For the toothbrush of the present invention, the technical solution of the present invention is achieved by providing a toothbrush having at least one rotator, and the rotating brush has the structure of the above-described rotating brush. For the rotary brush winding device of the present invention, the technical solution of the present invention is achieved by providing a rotary brush winding device including a top feeding mechanism and a winding mechanism on a side of the discharge opening of the top feeding mechanism And a welding mechanism located on an upper side of the winding mechanism, the winding mechanism comprising a rotating element for driving the rotation of the winding core sleeve, and a lifting element for driving the top and bottom of the feeding mechanism. ❹ For the rotary brush manufacturing apparatus of the present invention, the technical solution of the present invention is achieved by providing a rotary brush manufacturing apparatus including a comb top making device, and a rotating brush roll on the side of the comb top making device In the winding device, the rotary brush winding device has the structure of the above-described rotary brush winding device. Thus, since the manufacturing method of the rotating brush of the present invention firstly forms a plurality of monofilaments into comb-shaped tops, and then winding the comb-shaped tops into a spiral shape and fixing, not only can the bristles be evenly arranged, but also the operation is simple. Easy to increase production efficiency. The toothbrush is evenly arranged by the toothbrush using the rotating brush. The rotating brush roll 5 201038229 of the present invention can complete the winding operation of the above-mentioned rotating brush at one time, and can be produced and wound uniformly. This post has been transferred to the company for the production of combed tops, and the degree of automation has been further improved. [Embodiment] In order to clarify the technical problems, technical solutions, and advantageous effects to be solved by the present invention, the present invention will be further described in detail below in conjunction with the embodiments. It is to be understood that the specific embodiments disclosed herein are merely illustrative of the invention and are not intended to limit the invention. 1 to 4' is a rotary brush manufacturing apparatus of the present invention. The discharge port including the comb-shaped top strip is placed at the mouth of the rotary brush winding device 2, and the two portions will be described in detail below. The comb top making device 丨 includes a single-array guiding mechanism 1 in which a plurality of monofilaments S1 are sequentially arranged, and a monofilament secret mechanism 12 capable of applying a clamping force to the monofilament S1 and driving the monofilament feeding A monofilament splice mechanism 13 for fusing the monofilament S1 into a comb top spline S2 and a top shearing mechanism 14 for cutting the comb top spline S2. The monofilament array guiding mechanism U includes two first-stage, two-stage guide rods m, 112 arranged in parallel, and the two guide rods lu, 112 are evenly distributed with guide wire holes 113 arranged in the horizontal direction. The monofilaments Si on the plurality of wire wheels s are respectively disposed in the guide wire holes 113, and the distance between the two adjacent guide wire holes 113 is 201038229, and the equalization of the coffee _ is realized. This creates conditions for the homogenization of the monofilament S1 constituting the comb tops S2. Further, by selecting the number of the guide wire holes 113, it is also possible to control the length of the comb tops S2, and further, the inadvertent building tops S2 are skewed. If it is desired to manufacture a low-density comb top spline S2, the monofilament S1 can be arranged as a plurality of guide wire holes 113. At the same time, the number of the guide bars 111, 112 may be plural. ❹ The monofilament mechanism 12 includes a button (2), and the two ends of the pneumatic clamp 121 are respectively driven by the cylinder 122. By the clamping of the pneumatic clamp 121, the splicing work of the subsequent monofilament refining mechanism 13 can be facilitated. When the pneumatic clamp (2) is clamped, the cylinder 122 can drive the pneumatic clamp 121 to the single-joint mechanism. The monofilament fusion mechanism 13 includes a tan-connecting ram 131 that can reciprocally move up and down, and is located below the welding_(3). The welded bottom plate 132. The tamper head 131 is an ultrasonic welding ram, which is welded by the welding ram 131, and the monofilament S1 is spliced to the embossing head 131 to be pressed and formed. The splicing of the squeezing top S2 is spliced through the splicing portion S11. Into the body. After the welding work is completed, the pneumatic clamp 121 is opened, and the cylinder 122 is moved back and forth, and the next clamping and feeding action is repeated. The top b cutting mechanism 14 includes an upper cutter 142 fixed by the upper seat i4i and a lower cutter 144 fixed by the T holder 143, and the upper cutter = can be driven by the upper seat (4) Upper 'reciprocating motion. When the comb top spline S2 is moved under the push of the tilting clamp (2) to the bottom of the upper cutter 142, the upper 7 201038229 cutter 142 can be down to the lion and the following comb-like tops S2 ° as needed to make a frustum shape When the brush is rotated, the longitudinal directions of the upper and lower cutters 143, I44 are in line with the advancing direction of the monofilament. Thus, the resulting tops of the comb are rounded trapezoidal. Of course, the longitudinal direction of the welding ram 131 and the length of the upper and lower cutters 143, 144 may be perpendicular to the advancing direction of the monofilament. The hair combs S2 can be processed into a shape other than a straight strip (see Fig. 9) and a right-angled trapezoid (see Fig. 1A), such as a bamboo shape (see Fig. 11). When the comb tops S2 are required to have a bamboo shape, it is only necessary to select the upper cutter 142 of the corresponding shape. Referring to FIG. 5, the rotary fiber winding device 2 includes a winding mechanism 22 on which the top feeding mechanism 21 is located on the discharge port side of the top feeding mechanism 21, and a welding mechanism 23 on the upper side of the winding mechanism 22. The winding mechanism 22 includes a rotating element % for rotating with a pure wheel ride 3 and a lifting element 25 for driving the top feeding mechanism 21 to move up and down. Thus, when the top feeding mechanism 21 receives the tops produced by the comb-like fabric making device, the ends of the winding core sleeve 3 and the comb tops S2 can be welded together by the welding mechanism 23. When the rotating member 24 drives the winding core sleeve 3 to continue to rotate, the comb top strip S2 can be wound around the winding core sleeve 3. Since the lifting element 25 can simultaneously drive the top feeding mechanism 21 to rise, the comb top strip S2 can be spirally wound on the winding core sleeve 3. During the winding process, the comb-like tops 201038229 S2 are wound into a spiral shape. The spirals may also be welded together by a welding mechanism 23 such that the comb tops S2 are wound into a rotating brush S3. The respective components of the rotary brush winding device 2 will be described in detail below. The rotating member 24 includes a rotating support 241, a rotating shaft core 246 disposed at a center of the rotating support 241, and a pawl wheel 242 that interlocks the rotating shaft core 246 to drive the pawl wheel 242. Motor 243. In the present embodiment, the motor 243 is a stepping motor ‘which drives a stepping pulley 245 through a timing belt 244, and an upper portion of the pulley 245 is fixedly coupled to the pawl wheel 242. Thus, when the cap sleeve 3 is sleeved on top of the rotating shaft core 246, the motor 243 can be operated to drive the pulley 245 to rotate by the timing belt 244, thereby interlocking the rotating shaft through the pawl wheel 242. Core 246. The lifting element 25 includes a ratchet cam 251 that drives the top and bottom feeding mechanism 21 to move up and down. The ratchet cam 251 has a disk shape, and its radially outer edge is provided with a ratchet that can engage with the pawl wheel. A cam surface 252 is provided on one side of the axial direction. The ratchet cam 251 is driven by the ratchet wheel 242 through the ratchet. When the pawl wheel 242 rotates the rotary shaft core 246, the ratchet cam 251 is also interlocked' and the top feed mechanism 21 is lifted up by its cam surface 252 (described later). The cam surface 252 drives the top of the top feeding mechanism 21 to be equal to the height of the rotating brush %. The distance between the square turn brushes S3 spiral can be set by the transmission ratio between the pawl wheel 242 and the ratchet cam 251. One side of the top feeding mechanism 21 is pivotally fixed, and the other side thereof is provided with a swinging ejector 211, and is in contact with the ratchet cam 251 9 201038229 by the swinging ram 211. Thus, when the ratchet cam 25i pushes the top feeding mechanism 21 through the swinging top, the top feeding mechanism can swing at an angle of 1 (refer to FIGS. 6 and 7) to realize a comb shape. The upward movement of the top bar 82 during the winding process. The top feeding mechanism 21 includes a pneumatic clamp 212, a cylinder that drives the pneumatic clamp to move to the winding mechanism, and the cylinder is framed to be fixed, so that the top feeding mechanism 21 passes the comb. When the tops are made, the tops S2 can be accurately sent to the winding mechanism 22 by the cylinders 213 to facilitate the welding between the tops S2 and the pile cores 3. The tp connection mechanism 23 includes a welding head η丨, a welding ram Μ: a connecting sleeve 233 for fixing the welding head 231 to the urging head 232, and a gas red 234 for driving the connecting sleeve 233 to move up and down. An elastic member 235 is disposed between the welding head 231 and the connecting sleeve 233. When the air cylinder 213 sends the top s2 to the winding mechanism 22, the main end of the top S2 and the head of the top S2 can be firstly driven by the cylinder to cause the welding ram 232 to descend. 31 Pressed up. Subsequently, the elastic member 235 is contracted, and the welding head 231 can weld one end of the top S2 and the outer edge of the head 31 together. After the welding operation is completed, the cylinder 234 is reset, and the winding mechanism 22 can start the winding operation of the tops S2. During the winding process, the motor 243 starts to rotate, and each time it is rotated for 3 to 5 weeks (i.e., the top S2 completes a spiral winding operation), the welding mechanism 23 welds the spirals of the comb-shaped tops S2 wound in a spiral shape once. In this embodiment, the cylinder 234 can be adjusted lower so that the helix can withstand the IUx pressure which gradually increases because the spiral gradually increases by 201038229. Thus, the top of the top of the top S2 is the mosquito of the head 31, and the spiral is also welded to the heart to complete the preparation of the rotating brush S3. For the convenience of blanking, the rotating brush winding device 2 further includes a blanking mechanism 26'. The loosening mechanism 26 includes a blanking cylinder 26i that drives the rotating shaft & 246 to move up and down, so that when blanking When the cylinder is driven to move the rotating shaft core 246 downwards, the lion S3 is detached at the top of the money transfer 246, and the blanking action is completed. The method for manufacturing a rotary brush of the present invention comprises the steps of first forming a plurality of monofilaments into a comb-like top yarn. The following description will be given in conjunction with the above-described rotary brush manufacturing apparatus. Referring to FIG. 1 to FIG. 4, a plurality of monofilaments S1 on a plurality of wire wheels s are respectively inserted in the guide wire holes ιΐ3 of the -stage and second-stage guide wires m and 112, and the neofilament si The outer end is held by the monofilament clamping mechanism 12, and at this time, the monofilament melting mechanism 13 welds the plurality of monofilaments S1. The monofilament si is joined to the body at the position where the welding ram 131 is crimped and forms a comb top S2 which is connected to the monofilament & The cylinder 122 then moves the pneumatic clamp (2) in the direction of the monofilament fusion mechanism 13. When the comb tops S2 are moved by the air clamp (2) = the upper cutter 142 is in the square, the upper cutter 142 can move downward and cut the comb top S2. Thereby, the process of making the comb-like hairs is completed. 2, when referring to FIG. 5 to FIG. 7', when the top feeder _2 is attached to the top s2 made by the comb-shaped top loading device 1, the set 3 and the cover 3 having the mi of 201038229 can be The ends of the comb tops S2 are welded together. When the rotating member 24 drives the winding core sleeve 3 to rotate, the comb top yarn s2 can be wound around the winding core sleeve 3. Since the lifting element (4) can simultaneously drive the top feeding mechanism 21, the field top hairline S2 can be rotated around the winding core sleeve 3, and in the winding process, the spiral of the comb-shaped top s2 is formed by the spiral shape. The crucibles may also be superimposed and welded by the welding mechanism 23, so that the comb tops S2 are wound into a rotating brush S3. Referring to FIG. 8 , a first embodiment of a rotating brush according to the present invention is manufactured by using the above-mentioned rotating brush manufacturing apparatus and a manufacturing method, and includes a plurality of radially arranged hairs, and the bristles are located at a tilting position. On the top strip S2, the comb top is wound and fixed. #然, the number of intimate tops can be more than one. The rotating brush is fixed by a hair core sleeve 3 having a head 邛 31, one end of which is welded to the hair wheel 3 _ portion 32 by means of hot melt . In the remaining hair strip S2 wound up into a spiral record, adjacent spirals are superposed and welded together. This type of rotary brush can be used both on the toothbrush and in the industrial field. When the end of the bristle of this embodiment is refined, it is also used as a beauty brush because the bristles are slender, can rotate the skin, and can promote the microcirculation of the epidermis and effectively eliminate enemies. Referring to FIG. 12, a second embodiment of the rotating brush of the present invention is different from the first embodiment in that the rotating brush is further provided with a brush handle 6, and the number of the rotating brush is 12 201038229, and the number is rotated. The brush S3_hair length is divided into two groups, and the two lengths of the bristles are arranged at intervals. This kind of rotating brush is used for the dust removal work of the circuit board, because the circuit board usually has many components and the surface is uneven. Since the bristles of the rotating brush S3 of the present embodiment have different lengths, which are mounted on the conveyor belt for automatic dust removal or manual detachment without damaging the elements, the embodiment is also suitable for cleaning precision instruments with unevenness. Referring to Figure 13, an embodiment i of the rotating brush of the present invention differs from the third embodiment in that the rotating brush S3 has a frustum shape. It is suitable for the dust removal work of the cavity structure. The toothbrush of the present invention comprises at least one structure having the above-mentioned structure, and referring to FIG. 14, which is a first embodiment of the toothbrush of the present invention, the toothbrush further includes a handle 4 for fixing the rotating brush, The number of the rotating brushes S3 is at least one, and is arranged along the length direction of the handle 4, and the direction of the rotating shaft coincides with the longitudinal direction of the handle 4. The rotating brush % can be made of soft stone compound. Q This toothbrush is suitable for children and young children. Referring to FIG. 15 , a second embodiment of the toothbrush according to the present invention, the toothbrush further includes a handle 5 for rotating the rotating brush of the branch, the number of the rotating brush S3 is one, because the rotating brush is used. The manufacturing method and the manufacturing method of the rotating brush have uniform arrangement of the bristles, and the spiral winding of the rotating brush S3 is uniform, and the production efficiency is easily improved. Referring to FIG. 16, a third embodiment of the toothbrush according to the present invention, the number of the rotating brushes S3 is two 'and arranged along the length direction of the handle 5, and the direction of the rotating shaft 13 201038229 and the handle 5 The length direction is vertical. In this embodiment, since the rotating brush S3 is employed, the efficiency under cleaning is further improved. The present invention is intended to be included in the present invention. Within the scope of protection. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a preferred embodiment of a rotary brush manufacturing apparatus of the present invention; FIG. 2 is a schematic structural view of a comb-shaped top fabric manufacturing apparatus of the embodiment shown in FIG. 2 is a schematic perspective view of a monofilament arrangement guiding mechanism in FIG. 2; FIG. 4 is a perspective structural view of the monofilament clamping mechanism and the monofilament refining mechanism in FIG. 2; FIG. 5 is a rotating brush winding device of the present invention - Figure 6 is a read state diagram of the execution of the top of the top of the pile as shown in Figure 5; Figure 7 is a read state diagram of the embodiment of Figure 5; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 9 is a perspective view showing a three-dimensional structure of a straight strip-shaped comb top; FIG. 10 is a schematic view showing a front view of a right-angled trapezoidal top; FIG. 11 is a main part of a bamboo-shaped comb top. Figure 12 is a schematic front view of a third embodiment of the rotating brush of the present invention; Figure 13 is a schematic front view of the third embodiment of the rotating brush of the present invention; Figure 15 Perspective structural diagram according to a second embodiment of the toothbrush of the invention; and FIG. 16 of the present invention is based toothbrush perspective schematic structural diagram of a third embodiment. 201038229 [Description of main components] Comb top production device 1 Rotary brush winding device 2 Primary guide rod 111 Secondary guide rod 112 Cylinder 122 Welding head 131 Upper cutter 142 Winding mechanism 22 Welding mechanism 23 Cylinder 213 Material mechanism 26 Monofilament clamping mechanism 12 Monofilament welding mechanism 13 Topper shearing mechanism 14 Monofilament S1 Monofilament arrangement guiding mechanism 11 Guide wire hole 113 Pneumatic clamp 121 Welding indenter 131 15 201038229 Welding base plate 132 Upper tool holder 141 Cutter 142 lower seat 143 lower cutter 144 comb tops S2 top feeding mechanism 21 swinging ejector 211 welding head 231 welding ram 232 connecting sleeve 233 cylinder 234 elastic member 235 rotating support 241 pawl wheel 242 motor 243 timing belt 244 Rotary shaft core 246 Ratchet cam 251 Pullet core sleeve 3 Head 31 Pneumatic clamp 212 16 201038229 Rotary assembly 24 Synchronous pulley 245 Lifting assembly 25 Cam surface 252 Rotating brush S3 Blanking cylinder 261 Welding joint S11 0 Handle 4, 〇 17