200800763 •九、發明說明: 【發明所屬之技術領域】 , 本發明涉及一種振動送料裝置,特別涉及一種能夠消 . 除靜電干擾之風力振動送料裝置。 【先前技術】 送料裝置係一種自動化生産設備,在自動化程度越來 越高之工業生産領域應用極為普及。 ⑩ 振動送料裝置係應用廣泛之送料裝置。傳統之振動送 料裝置通常包括一振動源及一送料盤,振動源驅動送料盤 振動,利用該振動推送料件。但傳統之振動送料裝置在輸 送鬲介電常數之細小料件時,細小料件容易産生靜電而相 互吸引’干擾料件的輸送及排佈,生產效率較低。 【發明内容】 有雲於此,有必要提供一種能夠消除輸送過程中料件 産生之靜電之振動送料裝置。 ^ 一種振動送料裝置,包括一具有一承料面之送料盤、 一間歇性離子風産生器及一導風機構。所述送料盤開設有 多個具有進風口及出風口之氣孔。所述多個氣孔之出風口 位於所述承料面,所述多個氣孔之出風方向與所述振動送 料裝置之送料方向間之夾角為一銳角。所述導風機構將所 述間歇性離子風産生器産生之間歇性離子風導引至所述多 個氣孔之進風口。 工作時,所述間歇離子風産生器産生之間歇性離子風 經導風機構進入所述氣孔之進風口。送料盤上之料件受到 7 200800763 作用而振魅沿補料㈣M㈣等效於受到—脈衝力 相對於現有技術,所述振 風推送料件,可_件錄性離子 _不受靜電谓呵提料纽率。㈣’生產 【實施方式】200800763 • Nine, invention description: [Technical field of invention] The present invention relates to a vibration feeding device, and more particularly to a wind vibration feeding device capable of eliminating static electricity interference. [Prior Art] The feeding device is an automatic production equipment, and is extremely popular in industrial production fields where the degree of automation is increasing. 10 Vibrating feeders are widely used feeders. Conventional vibratory feeders typically include a source of vibration and a feed tray that drives the feed tray to vibrate and use the vibration to push the material. However, in the conventional vibrating feeding device, when the small material of the dielectric constant is transported, the small material pieces are likely to generate static electricity and attract each other to interfere with the transportation and arrangement of the material parts, and the production efficiency is low. SUMMARY OF THE INVENTION In view of this, it is necessary to provide a vibrating feeding device capable of eliminating static electricity generated by a material during conveyance. ^ A vibrating feeding device comprising a feeding tray having a receiving surface, an intermittent ion wind generator and an air guiding mechanism. The feeding tray is provided with a plurality of air holes having an air inlet and an air outlet. The air outlets of the plurality of air holes are located on the receiving surface, and an angle between an air outlet direction of the plurality of air holes and a feeding direction of the vibrating feeding device is an acute angle. The air guiding mechanism guides the intermittent ion wind generated by the intermittent ion wind generator to the air inlet of the plurality of air holes. In operation, the intermittent ion wind generated by the intermittent ion wind generator enters the air inlet of the air hole through the air guiding mechanism. The material on the feeding tray is affected by 7 200800763 and vibrating along the feeding material. (4) M (4) is equivalent to receiving - pulse force. Compared with the prior art, the vibrating wind pushes the material, and the recording ion is not static. Material rate. (4) 'Production 【Embodiment】
2本發明較佳實施例之振動送 間歇性離子風產生器2及一導 請一併參閱圖1及圖 料褽置包括一送料盤1、一 風機構3。2 Vibration Transmission of the Preferred Embodiment of the Invention Intermittent Ion Wind Generator 2 and a Guide Referring to Figure 1 and the drawings, a feed tray 1 and a wind mechanism 3 are included.
戶:述送料盤i具有一承料面1〇,承料面1〇之邊緣延 於承料面1〇之獅15,以防止料件輸送過程令 =料盤1跌落。所述送健1開設有多個具有進風口 112 =^11G之氣孔U,所述氣㈣之出風鳴位於所 f承料面10上,氣孔11之進風口 112位於承料面10之相 月面上。氣孔11之出風方向111與振動送料裝置之送料方 向皿間之夾角α為一銳角,其取值範圍為20度到80度, 本實施例中夾角α的值為45度。每贿孔u之出風方向 111相互平行,所述出風方向m平行於與承料面1〇垂直 且與送料方向101平行之平面。 所述承料面10塗佈有一含氟聚合物薄膜16,如氟化 乙丙烯(Fluorinated Ethylene Propylene,FEP)、過敗貌基化 物(Perfluoroalkxy , PFA)及聚四氣乙烯 (Polytetrafluoroethylene,PTFE)等材料之薄膜。本實施例 採用PTFE薄膜。 8 200800763 送料盤1包括一圓形儲料部13及一方形送料部14。 所述導風機構3為一導風罩,其包括一底部31,底部 31之邊緣延伸有與送料盤1相連的側壁32。送料盤1與送 料機構3配合形成一腔體34。由於所述氣孔11之進風口 112位於承料面10之相背面上’故氣孔11與所述腔體 相連通。所述導風機構3之侧壁32開設有一離子風入口 33。 所述離子風産生器2包括一離子放射端21、一與離子 放射端相連之交流高壓産生器22及一吹拂離子放射端的 間歇風産生器23。所述離子放射端21靠近導風機構3之 離子風入口 33,可設置於導風機構3内,也可以與導風機 構3分開設置。本實施例中離子放射端21設置於導風機構 3内。所述交流高壓産生器22與離子放射端21相連,其 提供離子放射端21 —放電電壓。所述間歇風產生器23靠 近離子放射端21,間歇風風向231正對離子風入口 33。 當然,所述導風機構3與所述間歇性離子風産生器2 之間之位置配合並不限於上述實施方式。例如可以去掉所 述導風機構3之離子風入口 33,直接把整個離子風産生器 2都置設於所述腔體34内,同樣可以實現將間歇性離子風 導引至所述進風口 112之目的。 可以理解,導風機構3並不限於上述實施方式,只要 可將間歇性離子風産生之間歇性離子風導引至送料盤丄氣 孔11之進風口 112之導風機構都可採用。如可用多根導氣 管各自與料盤氣孔11之進風口 112相連,導氣管之另一端 9 200800763 與一氣囊相連,而氣囊則與間歇性離子風産生器之出風口 相連。 , "可以理解,間雜離子風産生II 2並秘於上述實施 . 彳!也可以係其他市面上現成的間歇性離子風産生設備。 =作時,待送料件置於送料盤1之儲料部13。間歇風 產生益23産生間歇風吹拂離子放射端21,產生一間歇性 離子風。間歇性離子風通過送料盤i的氣孔u吹拂待送料 #,待送料件受到等效於脈衝力作用之·性離子風之作 用而振動,亚沿送料方向1〇1移動。靠近送料部U之料件 將進入送料部13,並在送料部13之纽u 之間歇性 離子風之作用下沿送料方向輸送,直到進人下—生産設 備。所述振動送料裝置通過間歇性離子風推送料件實現料 件輸送可消除送料過程中産生之靜電。 , 本實施方式中,每個氣孔11之出風方向111相同,氣 孔11吹出來之間歇性離子風不會因方向不同而互相抵消, • 可提高間歇性離子風之利用率。氣孔11之出風方向m平 行於與送料方向101相平行且與承料面10相垂直之平面, τ使料件沿送料方向1()1移動,不會偏離送料方向。當然, 依生産之需要,氣孔11之出風方向ηι可以有不同^朝向 分佈。 所述送料盤1之表面塗有氟聚合物薄膜16,氟聚合物 具有較低之摩擦係數。尤其pTFE薄膜,其表面之摩擦 數接近^塊表Φ之雜係數’故可避免料件與送料盤丄間 摩擦損壞料件或産生灰塵粒子污染料件。 200800763 綜上所述,本發明確已符合發明專利要件,爰依法 提出專利巾請。惟,以上所述者僅為本侧讀佳實施方 式’舉凡熟悉本案技藝之人士 ’於援依本案發明精神所作 之等效修#或變化,皆應包含於以下之申請專利範圍内。 【圖式簡單說明】 【主要組件符號說明】 送料盤 1 承料面 10 氣孔 11 氣孔之出風口 110 氣孔之出風風向 111 氣孔之進風口 112 儲料部 13 送料部 14 擔牆 15 含氟聚合物薄膜 16 送料方向 101 圖1係本判之鶴送贿置難實施狀俯視示意圖; 圖2係圖1所示之振動送料裝置沿Μ之剖面示意圖。Household: The feeding tray i has a receiving surface 1〇, and the edge of the receiving surface 1〇 extends to the lion 15 of the receiving surface 1以 to prevent the material conveying process from causing the tray 1 to fall. The feed 1 is provided with a plurality of air holes U having air inlets 112 = ^11G, the wind (4) of the air (4) is located on the f receiving surface 10, and the air inlets 112 of the air holes 11 are located at the receiving surface 10 On the moon. The angle α between the air blowing direction 111 of the air hole 11 and the feeding direction of the vibrating feeding device is an acute angle, and the value ranges from 20 degrees to 80 degrees. In the present embodiment, the value of the angle α is 45 degrees. The wind direction 111 of each bribe hole u is parallel to each other, and the wind direction m is parallel to a plane perpendicular to the receiving surface 1〇 and parallel to the feeding direction 101. The receiving surface 10 is coated with a fluoropolymer film 16, such as Fluorinated Ethylene Propylene (FEP), Perfluoroalkxy (PFA), and Polytetrafluoroethylene (PTFE). A film of material. This embodiment employs a PTFE film. 8 200800763 The feed tray 1 includes a circular storage portion 13 and a square feed portion 14. The air guiding mechanism 3 is an air guiding cover, and includes a bottom portion 31. The edge of the bottom portion 31 extends with a side wall 32 connected to the feeding tray 1. The feed tray 1 cooperates with the feed mechanism 3 to form a cavity 34. Since the air inlet 112 of the air hole 11 is located on the opposite side of the phase of the receiving surface 10, the air hole 11 communicates with the cavity. An air inlet 33 is defined in the side wall 32 of the air guiding mechanism 3. The ion wind generator 2 includes an ionizing end 21, an alternating current high voltage generator 22 connected to the ion emitting end, and a intermittent wind generator 23 for blowing the ion emitting end. The ionizing radiation end 21 is close to the ion wind inlet 33 of the air guiding mechanism 3, may be disposed in the air guiding mechanism 3, or may be provided separately from the air guiding mechanism 3. In the present embodiment, the ionizing end 21 is disposed in the air guiding mechanism 3. The AC high voltage generator 22 is connected to an ionizing end 21 which provides an ionizing end 21 - a discharge voltage. The intermittent wind generator 23 is adjacent to the ion radiation end 21, and the intermittent wind direction 231 is opposed to the ion wind inlet 33. Of course, the positional cooperation between the air guiding mechanism 3 and the intermittent ion wind generator 2 is not limited to the above embodiment. For example, the ion wind inlet 33 of the air guiding mechanism 3 can be removed, and the entire ion wind generator 2 can be directly disposed in the cavity 34, and the intermittent ion wind can be guided to the air inlet 112 as well. The purpose. It is to be understood that the air guiding mechanism 3 is not limited to the above embodiment, and any air guiding mechanism that can guide the intermittent ion wind generated by the intermittent ion wind to the air inlet 112 of the feed tray boring hole 11 can be employed. If a plurality of air guiding tubes are respectively connected to the air inlet 112 of the tray air hole 11, the other end of the air duct 9 200800763 is connected to an air bag, and the air bag is connected to the air outlet of the intermittent ion wind generator. , " It can be understood that the inter-mixed ion wind produces II 2 and is secretive to the above implementation. It is also possible to use other off-the-shelf intermittent ion wind generating equipment on the market. When it is made, the material to be fed is placed in the stocking portion 13 of the feed tray 1. The intermittent wind generating benefit 23 produces a intermittent wind blowing ionizing radiation end 21, producing an intermittent ion wind. The intermittent ion wind blows the material to be fed through the air hole u of the feed tray i, and the object to be fed is vibrated by the action of the ion wind equivalent to the pulse force, and the sub-feed moves in the feed direction by 1〇1. The material member near the feeding portion U will enter the feeding portion 13 and be conveyed in the feeding direction by the intermittent ion wind of the feeding portion 13 until it enters the production-production facility. The vibrating feeding device realizes the conveying of the material through the intermittent ion wind pushing material to eliminate the static electricity generated during the feeding process. In the present embodiment, the air blowing direction 111 of each of the air holes 11 is the same, and the intermittent ion wind blown by the air holes 11 does not cancel each other due to the difference in direction. • The utilization rate of the intermittent ion wind can be improved. The air outlet direction m of the air hole 11 is parallel to a plane parallel to the feed direction 101 and perpendicular to the receiving surface 10, and τ moves the material in the feed direction 1 () 1 without deviating from the feed direction. Of course, according to the needs of production, the air outlet direction ηι of the air holes 11 may have different orientations. The surface of the feed tray 1 is coated with a fluoropolymer film 16, which has a low coefficient of friction. In particular, the pTFE film has a surface friction number close to that of the block table Φ, so that the friction between the material member and the feed tray can be avoided to damage the material or cause dust particles to contaminate the material. 200800763 In summary, the present invention has indeed met the requirements of the invention patent, and the patent towel is requested according to law. However, the above descriptions are only for the preferred embodiment of the present invention. Any equivalents or changes made by the person skilled in the art of the present invention should be included in the following patent application. [Simple description of the diagram] [Description of main components] Feeding tray 1 Feeding surface 10 Air hole 11 Air outlet air outlet 110 Air outlet air flow direction 111 Air inlet air inlet 112 Storage part 13 Feeding part 14 Supporting wall 15 Fluorine polymerization Material film 16 Feeding direction 101 Fig. 1 is a schematic plan view of the difficult-to-handle configuration of the crane. Figure 2 is a schematic cross-sectional view of the vibrating feeding device shown in Figure 1.
離子風產生器 2 離子放射端 21 父流高壓產生器 22 間歇風產生器 23 間歇風風向 231 導風機構 3 底部 31 側壁 32 離子風入口 33 腔體 34 11Ion wind generator 2 Ion emitter 21 Parent flow high pressure generator 22 Intermittent wind generator 23 Intermittent wind direction 231 Air duct 3 Bottom 31 Side wall 32 Ion wind inlet 33 Cavity 34 11