1361163 九、發明說明: 【發明所屬之技術領域】 本發明係有關於一種連續輸送裝置,特別是指一種具有不同輸送速度 之連續輸送裝置。 【先前技術】 科技的普及使人們日常生活更為便利,因此人們對於科技產品的需求 量增加。因此,科技產品的製造著皆以自動化的機械來製作這些科技產品。 而這些常見的自動化機械多半包含連續輸送裝置。 習知的連續輸送裝置皆設置滾輪或是輸送帶來輸送工件。工件的一個 製程進行至下-個製糾,多半以連續輸送裝置進行輸送。然而,某些工 件的製程時間較長’若是由工件藉由連續輸送裝置輸送至較長時間之製 程’則容易產生工件回堵的現象,甚至產生卫件相互推擠而毀損的現象。 =此連續輸送裝置必須依照製程時間的長短調整連續輸送裝置的輸送速 又。故’連續輸送裝置多半於不_製程以不_速度輸送。 然而魏連續魏裝置具有不_雜速度,必紐賴輸送装置 續ίίΐΐ或是輸送帶分別具有不同之輸送速度。而具不同輸送速度之連 同有單—輸送速度之連續輸送裝置改裝成具不 支出裝置,貞彳必彡碰麟顧職鱗鋪服器,故需 不造成工^大的改裝費用。若是能侧舊有連續輸送裝置輸送工件,而且 =件^的現象,則必然提升生產效率,更節省生產成本。 送工件,不供—種連續輸送裝置,其係利用舊有連續輸送裝置輸 加工件於輸送時之:’不但避免工件輸送時堵塞,更增 頃畅度,如此可解決習知技術所遭遇的問題。 【發明内容】 本發明之一 a aa 、’在於提供-種連續輸送裝置,其係藉由不同轉速之 1361163 複數個第-滾輪與-第二滾輪’使X件由第—祕運輸至第二滾輪,或是 由第二滾輪運輸至第-滚輪時,避免工件輸送時堵塞或碰撞之損害,以增 加工件於輸送時之順暢度》 、= 曰 本發明之另-目的’在於提供-種連續輸難置,其係於依序設置之 -第-輸送單元、-第二輸送單元與-第三輸送單元,使第—輸送單元與 第二輸送單元具有不同之輸送速度,並使第一輸送單元與第三輸送單元且 =相同之輸送速度。如此使X件由第《輸送單元輸送至第三輸送單元時, 2不同輸送速度之第二輸送單元,以增加連續輸送裝置輸送工件時之順 %度。 續/送裝置,包含複數個第—滾輪與—第二滾輪,第二滾 複數個第-滾輪之前方或後方,第—滾輪與第二滾輪之轉速不 2。藉由不同轉速之複數個第-滾輪與—第二滚輪,以避免工 或是似輪運輸至第-一以增加工件 -第連續Γ裝置柯包含—第—輸送單元一第二輸送單元與 連單:輸送單元連接於第-輸送單元後端;第三輸送單元 之輪送ί; 輸撕與第二輸送單元具有不同 工件由H輪糾元具有_之輸送速度。如此使 逆軍-Μ、 %^送至第三輸送單元時,藉由不同輸送速度之第-輸 达早兀,以增加連續輸送裝置輸送工件時之順暢度。啦度之第一輸 【實施方式】 送時墙塞树娜,·# 免工件5輸 I知連續輪送裝置係由第一驅動裝置 14°第—驅動裝置2〇包含第-齒輪22缝驅動第-滾輪12與第二滾輪 設於第―滾輪12與第*輪24,其中第—齒㈣套 且第-齒輪㈣第二齒輪24相你輪料置於—傳動軸3〇, 時,第二齒輪24帶動第-齒輪22而驅轉動而帶動第二齒㈣ 根據本發明之實施例,套設於第 “輪12與第二滾輪Μ轉動。 僅讓第一驅動裝置20驅動第-滾輪12“ 兩端之第一齒輪22被移除, =第一滚輪以_速度輸送至第二滾輪°第二滚輪14雜’因此工件5 =將工件5輸送,如此可使工件5 時’藉由可自由旋轉的第二滾 免工件5堵塞於連續輸送裝置, 雜12運輸至第二滾輪14時, 示,,其麵本翻於輸送時之順暢度。 44 22 _ 第〜與多作為說. 滾輪1二度:輪12之轉速,5*第- 44之齒數較ΐ件2第一滚輪12運輸至第二滚輪14時,僅需使第四纽 之轉逑24之齒數多,使第二滚輪u之:丄Γ輪 四齒輪44j的’工件5由第:滾輪μ運輪至第—ΐΓ/一滚輪12 第二齒輪公齒數铰第二齒輪24之齒數少。或者讓ΓΓ:,僅需使第 〜相一第 丄均163 數,使第-滾輪12之轉速大於第二滾輪14之轉速。如此可使工件 滾輪12運輸至第二滾輪14或第二滾輪14運輸至第—滾輪時, 免工件5堵塞於連輸送裝置,以增加辑5於輸送時之難度 大幅度的更改連續輸送裝置之结構,以節省製造成本。 .、,"只 _請參閱第三圖,其係為本發明另—較佳實施例之結構示意圖;如圖所 :,本發明亦可使用於輸送帶(c〇nvey〇r),即第一輸送單元Μ與第二 單元50皆為輸送帶。於輸送帶具有複數個第一滚輪12之一側為一^輸 送區,而具有複數個第二滾輪14之另一側為一第二輸送區。第一滾輪a 係受驅動裝置驅動’而第二雜14不受任魅練置驅動。 或者,第-滾輪12與第二滾輪14分別受不同之驅動裝置驅動,使第 i送區與第二輸送區具有不同之輸送速度。如此可使工件5由第一輸送 區輸送至第二輸送區時,避免工件5堵塞於連續輸送裝置, 送時的順暢度。 日 —請,㈣四® ’其係為本發明另—較佳實施例之結構示賴;如圖所 不’此實施例不同於上-實施例在於此實施例除了第一輸送單幻〇與第二 輸送單元50,此實施例更包含一第三輸送單元6〇,第三輸送單元5〇連接 於第單元1G後端;第三輸送單元6〇連接料二輸送單元5Q後端。 第^送單元10與第二輸送單元5〇具有·之輸送速度,第—輸送單元 ^0與第三輸送單元60具有相同或不同之輸送速度。此實施例係以第一輸送 單元10、第二輸送單元50與第三輸送單元60皆為輸送帶作為說明,且第 -輸送單元1G與第三輸送單元⑼具有驅絲置驅動予以驅動,而第二輸 送單元50不以驅動裝置驅動。 b當工件5由第一輸送單元10輸送至第三輸送單元60時,因第二輸送 單元50不具驅動裝置驅動,因此工件5由第一輸送單元輸送至第二輸 达單το 50時’藉由第二輸送單元5〇做為緩衝,再經由第三輸送單元6〇快 速的將,件5輸送。或者第二輸送單元5G亦可使用-驅動裝置驅動,使第 二輸送單元50之輸送速度大於第一輸送單元10。如此可增加連續輸送裝置 1361163 輸送工件5時之順暢度。而此實施例以第一輸送單元10與第三輪送單元60 之輸送速度小於第二輸送單元50之輸送速度作說明,亦可依照不同之需求 調整第二輸送單元5〇之輸送速度,使第一輸送單元10與第三輸送單元60 之輸送速度大於第二輸送單元50之輸送速度;或是使第三輸送單元60之 輸送速度姐帛^觀衫5〇之輸送速度,並使帛二輸料元5G之輸送 速度大於帛-财單幻G讀送速度。藉㈣二輸送單s 5G做為緩衝, 以避免工件5堵塞於連續輸送裝置,更可避免工件5於高速運輸時所產生 的震動現象,減少工件5毀損機率。 综上所述,本發明之連續輸送裝置,包含複數個第一滾輪與一第二滾 輪第-滾輪設置於複數個第—雜之前方錢方,並使第—滾輪與第二 、輪,、有不jg之轉速’以增加連續輸送裝置輸送卫件時之順暢度。咬者, $明=包含第:輸送單元、第二輸送單元與第三輸送單元,而第一輸 2几’、—輸送早70具有砰之輸送速度。藉由不職送速度之第二輸 送早疋’明加連频驟錄送工件時之順财。 以上所述者,僅為本發明之_鲂 做 較佳實施例而已,並非用來限定本發明 貫施之舉凡依本發明帽翻 所為之解狄飾,均聽胁树明_及精神 1361163 【圖式簡單說明】 第一圖為本發明較佳實施例之結構示意圖; 第二圖為本發明另一較佳實施例之結構示意圖; 第三圖為本發明另一較佳實施例之結構示意圖;以及 第四圖為本發明另一較佳實施例之結構示意圖。 【主要元件符號說明】 5工件 10第一輸送單元 12第一滾輪 14第二滾輪 20第一驅動裝置 22第一齒輪 24第二齒輪 30傳動軸 40第二驅動裝置 42第三齒輪 44第四齒輪 50第二輸送單元 60第三輸送單元1361163 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a continuous conveying apparatus, and more particularly to a continuous conveying apparatus having different conveying speeds. [Prior Art] The popularity of technology has made people's daily lives more convenient, so the demand for technology products has increased. Therefore, the manufacture of technology products is based on automated machinery to make these technology products. Most of these common automated machines include continuous conveyors. Conventional continuous conveying devices are provided with rollers or conveyor belts for conveying workpieces. One process of the workpiece is carried out to the next one, and most of it is conveyed by a continuous conveying device. However, some workpieces have a longer manufacturing process. If the workpiece is transported by a continuous conveying device to a longer process, the workpiece is likely to be jammed, and even the guards are pushed and destroyed. = This continuous conveyor must adjust the conveying speed of the continuous conveyor in accordance with the length of the process. Therefore, most of the continuous conveying devices are not transported at a speed. However, the Wei continuous Wei device has a non-noisy speed, and the conveyor belts have different conveying speeds. However, the continuous conveying device with the different conveying speeds and the single conveying speed is converted into a device with no expenditure, and the smashing device is required to be replaced by the squad, so it is not necessary to cause the modification cost of the work. If the old side has a continuous conveying device to transport the workpiece, and the phenomenon of = piece ^, it will inevitably increase production efficiency and save production costs. Sending the workpiece, not for the continuous conveying device, which uses the old continuous conveying device to transport the workpiece during the conveying: 'not only avoiding the blockage during the conveying of the workpiece, but also increasing the smoothness of the workpiece, so as to solve the problems encountered by the conventional technology. problem. SUMMARY OF THE INVENTION One of the present inventions a aa, 'is provided by a continuous conveying device that transports X pieces from the first secret to the second by a plurality of 1161161 different number of rollers and a second roller' When the roller is transported to the first roller by the second roller, the damage of the blockage or collision during the conveyance of the workpiece is avoided, so as to increase the smoothness of the workpiece during transportation, and the other purpose of the present invention is to provide a continuous The delivery device is arranged in sequence - the first conveying unit, the second conveying unit and the third conveying unit, so that the first conveying unit and the second conveying unit have different conveying speeds and the first conveying The unit and the third conveying unit and = the same conveying speed. Thus, when the X piece is transported from the conveying unit to the third conveying unit, the second conveying unit of different conveying speeds is increased to increase the degree of the conveying of the workpiece by the continuous conveying device. The continuation/delivery device comprises a plurality of first-rollers and a second roller, and the second roller has a plurality of first-rollers before or behind, and the first roller and the second roller have a rotational speed of not 2. By a plurality of first-rollers and a second roller at different rotational speeds, to avoid the work or the like-like transport to the first one to increase the workpiece-the first continuous device, the first-to-conveyor unit and the second transport unit Single: the conveying unit is connected to the rear end of the first conveying unit; the third conveying unit is rotated; the tearing and the second conveying unit have different workpieces with the conveying speed of the H-wheel correction. In this way, when the counter-Μ, %^ is sent to the third conveying unit, the first-transmission of the different conveying speeds is early, so as to increase the smoothness of the continuous conveying device when conveying the workpiece. The first transmission of the degree [Embodiment] Send time wall plug tree, · # 免 workpiece 5 I know that the continuous transfer device is driven by the first drive device 14 ° - drive device 2 第 including the - gear 22 The first roller 12 and the second roller are disposed on the first roller 12 and the fourth wheel 24, wherein the first tooth (four) sleeve and the first gear (four) second gear 24 are placed on the drive shaft 3〇, when The second gear 24 drives the first gear 22 to drive the second tooth (4). According to an embodiment of the invention, the first wheel 12 and the second roller Μ are rotated. Only the first driving device 20 drives the first roller 12 "The first gear 22 at both ends is removed, = the first roller is transported to the second roller at the speed _ the second roller 14 is miscellaneous' so that the workpiece 5 = transports the workpiece 5, so that the workpiece 5 can be made The freely rotatable second roll-free workpiece 5 is clogged in the continuous transport device, and when the miscellaneous 12 is transported to the second roller 14, it is shown that the face is turned over to the smoothness of the transport. 44 22 _ No. 1 and more as said. Roller 1 second degree: the speed of the wheel 12, the number of teeth of the 5*-44 is lower than the number of the teeth of the second roller 12 when the first roller 12 is transported to the second roller 14, only the fourth button is required. The number of teeth of the switch 24 is large, so that the second roller u: the workpiece 5 of the fourth wheel gear 44j is: the roller: the wheel to the first wheel / the second roller 12, the second gear, the number of the teeth, the second gear 24 The number of teeth is small. Or let ΓΓ:, only need to make the first phase and the first 163 number 163, so that the rotation speed of the first roller 12 is greater than the rotation speed of the second roller 14. In this way, when the workpiece roller 12 is transported to the second roller 14 or the second roller 14 is transported to the first roller, the workpiece 5 is prevented from being blocked by the connecting device, so as to increase the difficulty of the transmission of the continuous conveying device. Structure to save manufacturing costs. And, please refer to the third figure, which is a schematic structural view of another preferred embodiment of the present invention; as shown in the figure: the present invention can also be applied to a conveyor belt (c〇nvey〇r), that is, Both the first conveying unit Μ and the second unit 50 are conveyor belts. The conveyor belt has a plurality of first rollers 12 on one side of which is a transport zone, and the other side of the plurality of second rollers 14 is a second transport zone. The first roller a is driven by the drive unit and the second fuse 14 is not driven by the enchantment. Alternatively, the first roller 12 and the second roller 14 are respectively driven by different driving means such that the i-th delivery zone and the second delivery zone have different conveying speeds. Thus, when the workpiece 5 is conveyed from the first conveying zone to the second conveying zone, the workpiece 5 is prevented from being clogged with the continuous conveying device, and the smoothness of the feeding is avoided. Japanese-please, (four) four® 'is a structural representation of another preferred embodiment of the invention; as shown in the figure, this embodiment is different from the above-embodiment in this embodiment except for the first delivery The second conveying unit 50 further includes a third conveying unit 6〇, the third conveying unit 5〇 is connected to the rear end of the first unit 1G, and the third conveying unit 6 is connected to the rear end of the feeding unit 2Q. The first conveying unit 10 and the second conveying unit 5 have a conveying speed, and the first conveying unit 0 and the third conveying unit 60 have the same or different conveying speeds. In this embodiment, the first transport unit 10, the second transport unit 50, and the third transport unit 60 are both transport belts, and the first transport unit 1G and the third transport unit (9) are driven by a drive, and The second transport unit 50 is not driven by the drive device. b When the workpiece 5 is transported from the first transport unit 10 to the third transport unit 60, since the second transport unit 50 is not driven by the drive device, the workpiece 5 is transported from the first transport unit to the second transport unit το 50. The second conveying unit 5 is used as a buffer, and then the member 5 is quickly conveyed via the third conveying unit 6 . Alternatively, the second transport unit 5G can be driven using a drive unit such that the transport speed of the second transport unit 50 is greater than that of the first transport unit 10. This increases the smoothness of the continuous conveying device 1361163 when conveying the workpiece 5. In this embodiment, the conveying speed of the first conveying unit 10 and the third conveying unit 60 is smaller than the conveying speed of the second conveying unit 50, and the conveying speed of the second conveying unit 5〇 can be adjusted according to different requirements. The conveying speed of the first conveying unit 10 and the third conveying unit 60 is greater than the conveying speed of the second conveying unit 50; or the conveying speed of the conveying unit of the third conveying unit 60 is 5帛, and the conveying speed is The conveying speed of the conveying element 5G is greater than the 帛-财单幻G reading speed. The (four) two transport single s 5G is used as a buffer to avoid the blockage of the workpiece 5 in the continuous conveying device, and the vibration phenomenon generated by the workpiece 5 during high-speed transportation can be avoided, and the probability of damage of the workpiece 5 can be reduced. In summary, the continuous conveying device of the present invention comprises a plurality of first rollers and a second roller roller-roller disposed in front of the plurality of first-hands, and the first roller and the second wheel, There is a speed of not jg to increase the smoothness of the continuous conveyor to transport the guard. The bite, $明=includes: the conveying unit, the second conveying unit and the third conveying unit, and the first conveying unit has a conveying speed of 砰. By the second transmission of the infrequent transmission speed, the early Ming 疋 明 连 连 连 骤 骤 骤 。 。 。 。 。 。 。 。 。 。 。 The above description is only for the preferred embodiment of the present invention, and is not intended to limit the implementation of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic structural view of a preferred embodiment of the present invention; FIG. 2 is a schematic structural view of another preferred embodiment of the present invention; And the fourth figure is a schematic structural view of another preferred embodiment of the present invention. [Main component symbol description] 5 workpiece 10 first conveying unit 12 first roller 14 second roller 20 first driving device 22 first gear 24 second gear 30 transmission shaft 40 second driving device 42 third gear 44 fourth gear 50 second conveying unit 60 third conveying unit