M374377 五、新型說明: 新型所屬之技術領域 本創作係關於一種可以產生喷射氣流或水流的裝置 (簡稱喷射流產生器),尤其有關一種往復直線運動的噴射 流產生器。 先前技術 在塗裝(coating)或沉積膜的工業中使用多種清潔裝置 參對欲被塗裝或沉積膜的物品進行清潔,才能在物品的表面 上獲得品質良好的塗裝膜或沉積膜。前述多種清潔裝置包 括以氣流吹掃除去灰塵的除砂裝置、以化學藥劑水溶液進 行清洗的洗劑清潔裝置、以水進行清洗的水洗裝置及以風 j 力進行吹乾的風刀乾燥裝置。目前的風刀乾燥裝置對於具 有盲孔的物品在水洗後的乾燥除水效果並不是很理想,亦 即在風刀乾燥後部份的盲孔内仍然會殘留積水,因此仍然 $ 仰賴人工來去除部份盲孔内的積水。 目前的洗劑清潔裝置或水洗裝置使用固定式的喷嘴 來產生喷射流進行清潔,其清洗效果因為喷射流的角度固 定而有被進一步被改善的空間。 新型内容 本創作的一主要目的在提供一種往復直線運動的噴 射流產生器,其可以用於解決前述先前技藝中的缺點。 本創作的另一目的在提供一種配合本創作喷射流產 3 M374377 生器使用的裸空輸送裝置。 本創作的另一目的在於提供一種往復直線運動的吹 掃除水器,其係使用本創作的喷射流產生器接上高壓空氣 來源作為吹掃除水器使用。 本創作的又一目的在於提供一種往復直線運動的喷 射流清洗器,其係使用本創作的嗔射流產生器接上高壓水 流或水洗劑流來源作為喷射水流清洗器使用。 為了達成上述創作目的,依本創作内容被完成的一種 往復直線運動的喷射流產生器包含: 第一對水平平行軌道; 第一方形框; 設置在該第一方形框兩側的第一對前滚輪及第一對 後滚輪,該第一對前滚輪及第一對後滾輪同時在該第一對 水平平行軌道上滚動; 第一組多根出流管,其中每一根出流管的兩端氣密地 連接於該第一方形框的兩末端,每一根出流管具有設置於 其管體上的多個間隔開的喷嘴,該多個喷嘴朝向該第一對 水平平行軌道的上方或下方,及每一根出流管具有設置於 其管體上的一入口埠,於是從該入口埠被打入該出流管的 高壓流體,只能從該出流管的多個噴嘴喷出。 較佳的,本創作的喷射流產生器進一步包含: 第二對水平平行軌道; 第二方形框; 設置在該第二方形框兩側的第二對前滚輪及第二對 M374377 後滚輪,該第二對前滚輪及第二對後滾輪同時在該二對水 平平行執道上滾動; 第二組多根出流管,其中每一根出流管的兩端氣密地 連接於該第二方形框的兩末端,每一根出流管具有設置於 其管體上的多個間隔開的喷嘴,該多個喷嘴朝向該第二對 水平平行執道的上方或下方,及每一根出流管具有設置於 其管體上的一入口埠,於是從該入口埠被打入該出流管的 高壓流體,只能從該出流管的多個喷嘴喷出, ► 其中該第一組多根出流管的喷嘴與該第二組多根出 流管的喷嘴相對。 較佳的,本創作的喷射流產生器進一步包含一往復直 線運動驅動裝置,該往復直線運動驅動裝置連接於該第一 方形框,並且使該第一方形框藉由第一對前滚輪及第一對 後滾輪在該第一對水平平行軌道上前後往復運動。 較佳的,本創作的喷射流產生器進一步包含一往復直 > 線運動驅動裝置,其中該往復直線運動驅動裝置並聯地連 • 接於該第一方形框與該第二方形框,並且使該第一方形框 藉由第一對前滚輪及第一對後滚輪在該第一對水平平行 軌道上前後往復運動及使該第二方形框藉由第二對前滚 輪及第二對後滚輪在該第二對水平平行軌道上與該第一 方形框同步地前後往復運動。 較佳的,本創作的喷射流產生器中的每一根出流管的 多個喷嘴係等間隔,且每相鄰兩根出流管的喷嘴係錯開不 在同一直線的位置。 5 M374377 較佳的,該多根出流管係3-8根出流管。更佳的,該 多個喷嘴係5-20個喷嘴。最佳的,每相鄰兩個喷嘴的間 距係 5-20 cm。 較佳的,該前後往復運動的振幅為3-20 cm。更佳的, 該前後往復運動的頻率為每分鐘100-250次。 較佳的,每一根出流管的多個噴嘴具有0.5-10 mm的 孔徑。 較佳的,第一組多根出流管的喷嘴與第二組多根出流 管的喷嘴的直線距離為5-20 cm。 較佳的,該多根出流管具有1.0-3.0 cm的内徑。更佳 的,每相鄰兩根出流管的距離為1.0-3.0 cm。 較佳的,本創作的喷射流產生器進一步包含一機台, 該機台具有一對間隔開的直立壁,其_該第一對水平平行 執道係固定於該對直立壁上。 較佳的,本創作的喷射流產生器進一步包含一機台, 該機台具有一對間隔開的直立壁,其令該第一對水平平行 軌道係固定於該對直立壁上,及第二對水平平行軌道係固 定於該對直立壁上,且第一對水平平行軌道與第二對水平 平行軌道隔著一水平面呈上下對稱。更佳的,該機台進一 步包含一輸送裝置,該輸送裝置用於將物品水平地運送通 過該第一組多根出流管與第二組多根出流管之間的通 道。最佳的,該輸送裝置包含兩條平行的迴圈鏈條,其係 同步旋轉地安裝於該對間隔開的直立壁之間,並且該兩條 迴圈鏈條的上水平部份通過第一對水平平行執道及第二 M374377 對水平平行軌道之間,及該兩條迴圈鏈條的下水平部份通 過第二對水平平行執道的下方。 較佳的,該往復直線運動驅動裝置包含: 一馬達,其具有一水平轉轴; 一圓形轉盤,該圓形轉盤的一侧的圓心被固定地結合 於該馬達的水平轉軸,該圓形轉盤的另一側被設置有通過 其圓心的一直線滑行槽; 一拉桿,其一端被結合於該第一方形框的一末端; > 一滚珠軸承,其被結合於該拉桿的另一端;及 一滑行桿,其一端被固定地結合於該滚珠轴承的中心 孔,於是該滑行桿相對於該拉桿可以被旋轉,而該滑行桿 的另一端被限制於該圓形轉盤的直線滑行槽, 當該馬達的轉軸被驅動旋轉時,該圓形轉盤被帶動旋 轉,此時因該滑行桿受限於該直線滑行槽而被推動在該直 線滑行槽滑行,於是帶動該拉桿作水平的直線往復運動, > 從而使該第一方形框藉由第一對前滾輪及第一對後滾輪 - 在該第一對水平平行軌道上前後往復運動。 較佳的,該往復直線運動驅動裝置包含: 一馬達,其具有一水平轉軸; 一圓形轉盤,該圓形轉盤的一側的圓心被固定地結合 於該馬達的水平轉軸,該圓形轉盤的另一側被設置有通過 其圓心的一直線滑行槽; 一拉桿,其一端被並聯地結合於該第一方形框的一末 端及該第二方形框的一末端; 7 M374377 一滚珠軸承,其被結合於該拉桿的另一端;及 一滑行桿,其一端被固定地結合於該滚珠軸承的中心 孔,於是該滑行桿相對於該拉桿可以被旋轉,而該滑行桿 的另一端被限制於該圓形轉盤的直線滑行槽, 當該馬達的轉軸被驅動旋轉時,該圓形轉盤被帶動旋 轉,此時因該滑行桿受限於該直線滑行槽而被推動在該直 線滑行槽滑行,於是帶動該拉桿作水平的直線往復運動, 從而使該第一方形框藉由第一對前滚輪及第一對後滚輪 在該第一對水平平行軌道上前後往復運動,及同步地使該 第二方形框藉由第二對前滾輪及第二對後滚輪在該第二 對水平平行執道上前後往復運動。 本創作亦提供一種使用前述的喷射流產生器進行吹 掃除水的用途,包含將高壓空氣打入該出流管的入口埠。 本創作亦提供一種使用前述的喷射流產生器進行喷 射水流清洗的用途,包含將高壓水流打入該出流管的入口 璋。 實施方式 於本創作的一較佳具體實施例中,如圖1至5所示的 一種往復直線運動的吹掃除水器被提供。如圖1所示,該 吹掃除水器包含一機台100,該機台具有一對間隔開的直 立壁110, 120 ;第一對水平平行軌道130 ;及第二對水平 平行執道140,其中該第一對水平平行執道130及第二對 水平平行執道140分別被固定於該對直立壁110, 120上, M374377 且第一對水平平行軌道130與第二對水平平行執道140隔 著一水平面呈上下對稱;及一裸空輸送裝置,其包含兩條 平行的迴圈鏈條150, 160,其係同步旋轉地安裝於該對間 隔開的直立壁110, 120之間,並且隔著一直立垂直面呈前 後對稱,其中該迴圈鏈條150 (160)的上水平部份通過第 一對水平平行軌道130及第二對水平平行軌道140之間, 及該迴圈鏈條150 (160)的下水平部份通過第二對水平平 行軌道140的下方。 如圖2及3所示,該吹掃除水器進一步包含一上移動 吹掃單元10及下移動吹掃單元20。該上移動吹掃單元10 被置於圖1中的第一對水平平行軌道130上,及該下移動 吹掃單元20被置於圖1中的第二對水平平行執道140上。 如圖2所示,該上移動吹掃單元10包含第一方形框 11 ;設置在該第一方形框兩側的第一對前滚輪11a及第一 對後滚輪lib,該第一對前滚輪及第一對後滚輪同時在該 第一對水平平行軌道130的水平板上滾動;設置在該第一 方形框兩側及第一對前滾輪11a與第一對後滚輪lib中間 的一對侧滚輪11c,該對侧滚輪11c與該第一對水平平行 執道130的垂直板滾動接觸;第一組4根出風管12,其 中每一根出風管的兩端氣密地連接於該第一方形框11的 兩末端,每一根出風管具有設置於其管體上的多個間隔開 的出風喷嘴13 (因視角而僅示於圖3),該多個出風喷嘴均 朝向下方,及每一根出風管具有設置於其管體上的一進氣 埠14,於是從該進氣埠14被打入該出風管的高壓空氣, 9 /40// 只管:多個出風噴嘴13噴出。 移動吹掃單元心7^,該下移動吹掃單元加具有與該上 單元2 〇料Μ嘴^3 及元件,除了該下移動吹掃 2。的進氣埠Μ係:向下方==下移動吹掃單元 該上移動吹掃單元10多個出風喷角嘴與僅二:2)。於是 2。的多㈣風喷嘴13係互:嘴== 掃單元 距離。 了且相iw 7.0-7.5cm的 了一根出風管12具有15mm的内徑。兩相鄰出風管 風喷嘴\Λ17ιηιη。第一根及第三根出風管具有8個出 第—根及第四根出風管具有7個出風喷嘴13。 目鄰兩根出風管的出風噴嘴13係錯開不在同一直線的 位置同一根出風管的兩相鄰出風噴嘴13的間距為8 cm。該出風喷嘴具有^瓜瓜的孔徑。 本創作的此一實施例的吹掃除水器進一步包含一往 復直線運動驅動裝置3〇,如圖丨至3所示,該往復直線 運動驅動裝置30具有一拉桿3卜該拉桿31的一端通過 一半方形框架40並聯地連接於該第一方形框11與該第二 方形框11。該往復直線運動驅動裝置3〇除了該拉桿3ι 外還包含一馬達32,其具有一水平轉軸33 ; 一圓形轉盤 34,該圓形轉盤的一侧的圓心被固定地結合於該馬達的水 平轉軸33 ’該圓形轉盤的另一侧被設置有一直線滑行槽 35 ; —滚珠轴承36,其被結合於該拉桿31的另一端;及 一滑行桿37,其一端被固定地結合於該滚珠軸承36的中 M374377 心孔,於是該滑行桿37相對於該拉桿31可以被旋轉,而 該滑行桿37的另一端被限制於該圓形轉盤34的直線滑行 槽35。如圖4及5所示,該直線滑行槽35係凸出於該圓 形轉盤34且通過該圓形轉盤34的圓心對稱地設置於該圓 形轉盤3 4上。 在以上元件被組合完成且該馬達32的轉轴33被驅動 旋轉時,該圓形轉盤34被帶動旋轉,此時因該滑行桿37 受限於該直線滑行槽35而被推動在該直線滑行槽35滑 # 行,於是帶動該拉桿31作水平的直線往復運動,並通過 該半方形框架40從而使該上移動吹掃單元10及下移動吹 掃單元20同步地在該第一對水平平行軌道130及第二對 水平平行軌道140上前後往復運動,其中前後往復運動的 幅度各為5.5 cm,及頻率為每分鐘178次。 圖1中迴圈鏈條150 (160)的上水平部份係通過圖2 及3的上移動吹掃單元10及下移動吹掃單元20之間,負 | 掛於該迴圈鏈條150及160的上水平部份上的載具上的物 - 品也將通過其間,於是從該上移動吹掃單元10多個出風 喷嘴與從該下移動吹掃單元20的多個出風喷嘴13射出的 喷射氣流將從上下兩方向吹掃該物品,配合該上移動吹掃 單元10及下移動吹掃單元20前後往復運動,將高效率地 除去殘留於該物品上的水滴,包括盲孔内的積水。 圖式簡單說明 圖1為依本創作一較佳實施例所完成的吹掃除水器 的部份立體示意圖。 圓2為適用於圖】的吹掃除水器的上吹掃單元。 圖3為適用於圖〗的吹掃除水器的下吹掃單元。 圖4為圖1中的吹掃除水器的圓形轉盤的上平面視 圖5為沿圖4中的5_5線的剖面視圖。 主要元件符號說明 10..上移動吹掃單元;11..方形框;lla前滾輪; 11b.·後滾輪;llc··側滾輪;12.·出風管;13..出風喷嘴; 14·.進氣埠,20..下移動吹掃單元; 30..往復直線運動驅動裝置;31拉桿;32馬達 33..轉轴;34··圓形轉盤;35直線滑行槽 ;3 6..滾珠轴承; 37..滑行桿;40..半方形框架;1〇〇機台; 110、120"直立壁;130、14〇水平平行軌道; 150、160..迴圈鏈條 12M374377 V. New description: New technical field This creation is about a device that can generate jets or streams (referred to as jet generators), especially for a reciprocating linear motion jet generator. Prior Art A variety of cleaning devices are used in the industry of coating or depositing films. The articles to be coated or deposited are cleaned to obtain a good quality coated film or deposited film on the surface of the article. The above various cleaning devices include a sand removing device that purifies dust by air flow, a detergent cleaning device that cleans with a chemical aqueous solution, a water washing device that washes with water, and an air knife drying device that blows dry with wind force. At present, the air knife drying device is not ideal for the dry water removal effect of the items with blind holes after washing, that is, the water still remains in the blind holes of the air knife after drying, so it is still dependent on manual removal. Water in some blind holes. Current lotion cleaning devices or water washing devices use a stationary nozzle to produce a jet for cleaning, the cleaning effect of which is further improved because the angle of the jet is fixed. SUMMARY OF THE INVENTION A primary object of the present work is to provide a reciprocating linear motion jet flow generator that can be used to address the shortcomings of the prior art described above. Another object of the present creation is to provide a bare air transport device for use with the creation of a spray abortion 3 M374377. Another object of the present invention is to provide a reciprocating linear motion purge eliminator that uses the present jet stream generator to connect a high pressure air source as a purge eliminator. A further object of the present invention is to provide a reciprocating linear motion jet cleaner that uses the created helium jet generator to connect a source of high pressure water or a source of water to the jet stream cleaner. In order to achieve the above-mentioned creative purpose, a reciprocating linear motion jet generator that is completed according to the present creation content includes: a first pair of horizontal parallel tracks; a first square frame; a first one disposed on both sides of the first square frame For the front roller and the first pair of rear rollers, the first pair of front rollers and the first pair of rear rollers simultaneously roll on the first pair of horizontal parallel tracks; the first group of multiple outlet pipes, each of which flows out Two ends of the tube are hermetically connected to both ends of the first square frame, each of the outlet tubes having a plurality of spaced apart nozzles disposed on the tube body, the plurality of nozzles facing the first pair of levels Above or below the parallel track, and each of the outlet pipes has an inlet port disposed on the pipe body, and then the high pressure fluid that is driven into the outlet pipe from the inlet port can only be from the outlet pipe Multiple nozzles are ejected. Preferably, the jet stream generator of the present invention further comprises: a second pair of horizontal parallel tracks; a second square frame; a second pair of front rollers disposed on opposite sides of the second square frame and a second pair of M374377 rear rollers, The second pair of front rollers and the second pair of rear rollers simultaneously roll on the two pairs of horizontal parallel tracks; the second group of plurality of outflow tubes, wherein the ends of each of the outlet tubes are airtightly connected to the second square At both ends of the frame, each of the outflow tubes has a plurality of spaced apart nozzles disposed on the tube body, the plurality of nozzles being oriented above or below the second pair of horizontally parallel tracks, and each outflow The tube has an inlet port disposed on the tube body, so that the high pressure fluid that is driven into the outlet tube from the inlet port can only be ejected from the plurality of nozzles of the outlet tube, wherein the first group is more The nozzle of the root outlet tube is opposite the nozzle of the second plurality of outflow tubes. Preferably, the jet stream generator of the present invention further includes a reciprocating linear motion driving device coupled to the first square frame and having the first square frame supported by the first pair of front rollers And the first pair of rear rollers reciprocate back and forth on the first pair of horizontal parallel tracks. Preferably, the jet stream generator of the present invention further comprises a reciprocating linear motion driving device, wherein the reciprocating linear motion driving device is connected in parallel to the first square frame and the second square frame, and And causing the first square frame to reciprocate back and forth on the first pair of horizontal parallel tracks by the first pair of front rollers and the first pair of rear rollers, and to make the second square frame pass the second pair of front rollers and the second pair The rear roller reciprocates back and forth in synchronization with the first square frame on the second pair of horizontal parallel tracks. Preferably, the plurality of nozzles of each of the outflow tubes of the present jet flow generator are equally spaced, and the nozzles of each of the adjacent two outflow tubes are staggered at positions that are not in the same straight line. 5 M374377 Preferably, the plurality of outflow tubes are 3-8 outflow tubes. More preferably, the plurality of nozzles are 5-20 nozzles. Optimally, the distance between each adjacent two nozzles is 5-20 cm. Preferably, the front and rear reciprocating motion has an amplitude of 3-20 cm. More preferably, the frequency of the reciprocating motion is 100-250 times per minute. Preferably, the plurality of nozzles of each of the outlet tubes have an aperture of 0.5-10 mm. Preferably, the linear distance between the nozzles of the first plurality of outflow tubes and the nozzles of the second plurality of outflow tubes is 5-20 cm. Preferably, the plurality of outflow tubes have an inner diameter of 1.0 to 3.0 cm. More preferably, the distance between each adjacent two outflow tubes is 1.0-3.0 cm. Preferably, the jet stream generator of the present invention further comprises a machine table having a pair of spaced apart upright walls, the first pair of horizontal parallel lanes being secured to the pair of upstanding walls. Preferably, the jet stream generator of the present invention further comprises a machine table having a pair of spaced apart upright walls for securing the first pair of horizontal parallel rails to the pair of upright walls, and second The horizontal parallel track system is fixed to the pair of upright walls, and the first pair of horizontal parallel tracks and the second pair of horizontal parallel tracks are vertically symmetrical with each other across a horizontal plane. More preferably, the machine further includes a transport device for transporting articles horizontally through the passage between the first plurality of outflow tubes and the second plurality of outflow tubes. Preferably, the conveying device comprises two parallel loop chains which are synchronously rotatably mounted between the pair of spaced apart upright walls, and the upper horizontal portions of the two loop chains pass the first pair of levels The parallel line and the second M374377 are between the horizontal parallel tracks, and the lower horizontal portions of the two loop chains pass the second pair of horizontal parallel tracks. Preferably, the reciprocating linear motion driving device comprises: a motor having a horizontal rotating shaft; a circular rotating wheel, a center of one side of the circular rotating plate fixedly coupled to a horizontal rotating shaft of the motor, the circular shape The other side of the turntable is provided with a linear sliding groove through its center; a pull rod, one end of which is coupled to one end of the first square frame; > a ball bearing, which is coupled to the other end of the pull rod; And a sliding rod, one end of which is fixedly coupled to the central hole of the ball bearing, so that the sliding rod can be rotated relative to the pulling rod, and the other end of the sliding rod is restricted to the linear sliding groove of the circular rotating wheel, When the rotating shaft of the motor is driven to rotate, the circular rotating wheel is driven to rotate, and the sliding rod is pushed to slide in the linear sliding groove because the sliding rod is restricted by the linear sliding groove, so that the pulling rod is driven to make a horizontal straight line reciprocating Movement, > thereby causing the first square frame to reciprocate back and forth on the first pair of horizontal parallel tracks by the first pair of front rollers and the first pair of rear rollers. Preferably, the reciprocating linear motion driving device comprises: a motor having a horizontal rotating shaft; a circular rotating wheel, the center of one side of the circular rotating plate being fixedly coupled to the horizontal rotating shaft of the motor, the circular rotating wheel The other side is provided with a linear sliding groove through its center; a pull rod, one end of which is coupled in parallel to one end of the first square frame and one end of the second square frame; 7 M374377 a ball bearing, It is coupled to the other end of the pull rod; and a sliding rod, one end of which is fixedly coupled to the center hole of the ball bearing, so that the sliding rod can be rotated relative to the pull rod, and the other end of the sliding rod is restricted In the linear sliding groove of the circular turntable, when the rotating shaft of the motor is driven to rotate, the circular rotating wheel is driven to rotate, and the sliding sliding rod is pushed in the linear sliding groove because the sliding sliding rod is restricted by the linear sliding groove. Therefore, the pull rod is driven to perform a horizontal linear reciprocating motion, so that the first square frame is front and rear on the first pair of horizontal parallel tracks by the first pair of front rollers and the first pair of rear rollers Reciprocating, and synchronously reciprocating the second square frame back and forth on the second pair of horizontal parallel tracks by the second pair of front rollers and the second pair of rear rollers. The present invention also provides a use for purging and dewatering using the jet stream generator described above, comprising driving high pressure air into the inlet port of the outflow tube. The present invention also provides an application for jetting water jet cleaning using the jet stream generator described above, comprising driving a high pressure water stream into the inlet port of the outlet tube. Embodiments In a preferred embodiment of the present invention, a reciprocating linear motion purge eliminator as shown in Figures 1 through 5 is provided. As shown in FIG. 1, the purge eliminator includes a machine table 100 having a pair of spaced apart upright walls 110, 120; a first pair of horizontal parallel tracks 130; and a second pair of horizontal parallel tracks 140, The first pair of horizontal parallel tracks 130 and the second pair of horizontal parallel tracks 140 are respectively fixed to the pair of upright walls 110, 120, M374377 and the first pair of horizontal parallel tracks 130 and the second pair of horizontal parallel tracks 140 Aligned vertically and horizontally across a horizontal plane; and a bare air transport device comprising two parallel loop chains 150, 160 mounted synchronously and rotatably between the pair of spaced apart upstanding walls 110, 120 and spaced apart The vertical plane is symmetrical, wherein the upper horizontal portion of the loop chain 150 (160) passes between the first pair of horizontal parallel rails 130 and the second pair of horizontal parallel rails 140, and the loop chain 150 (160) The lower horizontal portion passes through the second pair of horizontal parallel tracks 140. As shown in Figures 2 and 3, the purge eliminator further includes an upper moving purge unit 10 and a lower moving purge unit 20. The upper moving purge unit 10 is placed on the first pair of horizontal parallel tracks 130 in Fig. 1, and the lower moving purge unit 20 is placed on the second pair of horizontal parallel tracks 140 in Fig. 1. As shown in FIG. 2, the upper moving purging unit 10 includes a first square frame 11; a first pair of front rollers 11a and a first pair of rear rollers lib disposed on opposite sides of the first square frame, the first pair The front roller and the first pair of rear rollers simultaneously roll on the horizontal plate of the first pair of horizontal parallel rails 130; disposed on both sides of the first square frame and between the first pair of front rollers 11a and the first pair of rear rollers lib a pair of side rollers 11c, the opposite side rollers 11c are in rolling contact with the vertical plates of the first pair of horizontal parallel lanes 130; the first group of four outlet ducts 12, wherein the ends of each of the outlet ducts are airtightly Connected to both ends of the first square frame 11, each of the air outlet tubes has a plurality of spaced apart air outlet nozzles 13 (shown only in FIG. 3 due to the viewing angle) disposed on the tube body, the plurality of The outlet nozzles are all facing downwards, and each of the outlet ducts has an intake port 14 disposed on the tube body, so that the high pressure air that is driven into the outlet duct from the intake port 14 is 9/40/ / Only: A plurality of air outlet nozzles 13 are ejected. Moving the purge unit core 7^, the lower moving purge unit is added with the upper unit 2 to feed the nozzle ^3 and the element, except for the lower movement purge 2. Intake system: moving the purge unit downward == down. The upper purge unit 10 moves a plurality of outlet nozzles with only two: 2). Then 2. The multiple (four) wind nozzles 13 are mutually: mouth == sweep unit distance. An outlet duct 12 having an phase iw of 7.0-7.5 cm has an inner diameter of 15 mm. Two adjacent air ducts, air nozzles, Λ17ιηιη. The first and third outlet ducts have eight outlets and the fourth outlet duct has seven outlet nozzles 13. The outlet nozzles 13 of the two outlet ducts are offset by a distance of 8 cm from the two adjacent outlet nozzles 13 of the same outlet duct. The air outlet nozzle has a hole diameter of the melon. The purge eliminator of this embodiment of the present invention further includes a reciprocating linear motion driving device 3, as shown in FIGS. 3 to 3, the reciprocating linear motion driving device 30 has a pull rod 3 and one end of the pull rod 31 passes through half The square frame 40 is connected in parallel to the first square frame 11 and the second square frame 11. The reciprocating linear motion driving device 3 includes a motor 32 having a horizontal rotating shaft 33 in addition to the pulling rod 3, and a circular rotating disc 34 whose center is fixedly coupled to the level of the motor. The other side of the circular turntable is provided with a linear sliding groove 35; a ball bearing 36 coupled to the other end of the pull rod 31; and a sliding rod 37 having one end fixedly coupled to the ball The middle M374377 of the bearing 36 has a core hole, so that the sliding rod 37 can be rotated relative to the pull rod 31, and the other end of the sliding rod 37 is restricted to the linear sliding groove 35 of the circular turntable 34. As shown in Figs. 4 and 5, the linear sliding groove 35 protrudes from the circular turntable 34 and is symmetrically disposed on the circular turntable 34 by the center of the circular turntable 34. When the above elements are combined and the rotating shaft 33 of the motor 32 is driven to rotate, the circular turntable 34 is rotated, and the sliding rod 37 is pushed in the straight line because the sliding rod 37 is restricted to the linear sliding groove 35. The groove 35 slides in a row, so that the pull rod 31 is driven to make a horizontal linear reciprocating motion, and passes through the semi-square frame 40 so that the upper moving purging unit 10 and the lower moving purging unit 20 are synchronously parallel in the first pair of horizontal The track 130 and the second pair of horizontal parallel tracks 140 reciprocate back and forth, wherein the amplitude of the back and forth reciprocating motion is 5.5 cm each, and the frequency is 178 times per minute. The upper horizontal portion of the loop chain 150 (160) in Fig. 1 passes between the upper moving purging unit 10 and the lower moving purging unit 20 of Figs. 2 and 3, and the negative | is hung on the loop chains 150 and 160. The object on the carrier on the upper horizontal portion will also pass therethrough, and then the plurality of air outlet nozzles of the purge unit 10 and the plurality of air outlet nozzles 13 of the lower purge unit 20 are moved from the upper portion. The jet stream is purged from the upper and lower directions, and the upper moving purging unit 10 and the lower moving purging unit 20 are reciprocated back and forth, and the water droplets remaining on the article, including the water in the blind hole, are efficiently removed. . BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a partial perspective view of a purge eliminator constructed in accordance with a preferred embodiment of the present invention. Circle 2 is an upper purge unit for the purge eliminator of the drawing. Figure 3 is a lower purge unit of the purge eliminator suitable for use in the drawings. Fig. 4 is a top plan view of the circular turntable of the purge eliminator of Fig. 1. Fig. 5 is a cross-sectional view taken along line 5-5 of Fig. 4. Main component symbol description 10..Upper moving purging unit; 11..square frame; lla front roller; 11b.·rear roller;llc··side roller; 12..air outlet pipe;13.air outlet nozzle; · intake enthalpy, 20. lower moving purging unit; 30. reciprocating linear motion driving device; 31 pull rod; 32 motor 33.. rotating shaft; 34 · round rotating wheel; 35 linear sliding groove; Ball bearing; 37. skating rod; 40. semi-square frame; 1 boring machine; 110, 120 " upright wall; 130, 14 〇 horizontal parallel track; 150, 160..