200940427 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種傳送導引機構。 【先前技術】 敗我示裝置以其重量輕及非輻射性等優點,逐漸地 ’、陰極射線官顯不裝置,被使用於各式各樣的電 ©日I中°其中’液晶顯示裝置主要是由二玻璃基板及― ^層所構成,而玻璃基板之製程係必須經料多的流程 V驟因此,於不同流程步驟間,需藉由一傳送導引機構 來傳送導引破璃基板之行進方向。 5月參照圖1A所示,一種習知的傳送導引機構丄包含 一傳送平台11、複數固定桿12以及複數導引滾柱13。其 中’該等導引滾柱13分別對向設置於傳送平台11的兩 侧’並藉由固定桿12鎖固於傳送平台11上。 Q 當一玻璃基板G在沿著傳送平台11之傳送路徑移動 的過程中產生偏移時,則玻璃基板G會與傳送平台u兩 側、的導引滾柱13產生接觸,藉此導引滾柱13可限制玻璃 基板G於傳送平台11上的位置,並藉由導引滾柱13的轉 動導引玻璃基板G繼續往前務動。 然而,如圖1B所示,隨著導引滾柱13不斷與玻璃基 板G接觸摩擦,導引滾柱13之表面會留下一道較深的刻 p 痕C,而玻璃基板g可能與刻痕c產生卡滯等問題,不僅 會影響後續製程的精度,更甚者,可能造成傳送導引機構 5 200940427 1的故障。由於習知之傳送導引機構1的導引滾柱13係藉 由固定桿12鎖固於傳送平台11上,因此,當導引滾柱13 產生一道刻痕C時,即需將導引滾柱13及固定桿12拆除 更換。如此,不僅未能有效利用導引滚柱13不同部位而 造成資源的浪費,且會增加生產成本。 因此,如何設計一種能增加導引滚柱之使用壽命的傳 送導引機構,延長更換導引滾柱的時間週期,已成為重要 課題之一。 ❹ 【發明内容】 有鑑於上述課題,本發明之目的為提供一種能增加導 引元件之使用壽命並延長更換導引元件的時間週期的傳 送導引機構。 為達上述目的,依據本發明之一種傳送導引機構係傳 送一物件。傳送導引機構包含一傳送平台、複數調整固定 0 元件以及複數導引元件。調整固定元件分別對向設置於傳 . 送平台.的兩側,各導引元件連接於相對應之各導引元件, 且各調整固定元件係用於調整各導引元件與物件之接觸 位置。 為達上述目的,依據本發明之一種傳送導引機構係傳 送一物件。傳送導引機構包含一傳送平台、複數調整固定 元件以及複數導引元件。調整固定元件分別對向設置於傳200940427 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a transport guide mechanism. [Prior Art] The loss of the device is characterized by its light weight and non-radiation, and gradually, the cathode ray is not used, and is used in a wide variety of electricity, such as the liquid crystal display device. It is composed of two glass substrates and a layer, and the process of the glass substrate must pass through a large number of processes. Therefore, between different process steps, a guiding substrate is required to convey the guiding glass substrate. Direction of travel. Referring to Fig. 1A, a conventional transfer guide mechanism 丄 includes a transfer platform 11, a plurality of fixed rods 12, and a plurality of guide rollers 13. The 'the guide rollers 13 are respectively disposed opposite to the two sides of the transport platform 11' and are fixed to the transport platform 11 by the fixing rods 12. Q When a glass substrate G is displaced during the movement along the transport path of the transport platform 11, the glass substrate G is brought into contact with the guide rollers 13 on both sides of the transport platform u, thereby guiding the roll The column 13 can restrict the position of the glass substrate G on the transfer platform 11, and guide the glass substrate G to continue moving forward by the rotation of the guide roller 13. However, as shown in FIG. 1B, as the guide roller 13 continuously rubs against the glass substrate G, the surface of the guide roller 13 will leave a deep engraved p-mark C, and the glass substrate g may be nicked. c. The problem of jamming and the like not only affects the accuracy of the subsequent process, but moreover, may cause the failure of the transmission guide mechanism 5 200940427 1 . Since the guide roller 13 of the conventional transport guide mechanism 1 is locked to the transport platform 11 by the fixing rod 12, when the guide roller 13 produces a score C, the guide roller is required. 13 and the fixed rod 12 is removed and replaced. In this way, not only the use of different parts of the guide roller 13 but also the waste of resources is caused, and the production cost is increased. Therefore, how to design a transmission guide mechanism that can increase the service life of the guide roller and extend the time period for replacing the guide roller has become one of the important topics. SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a transfer guide mechanism capable of increasing the life of a guide member and extending the time period for replacing the guide member. To achieve the above object, a conveyance guiding mechanism according to the present invention transmits an article. The transport guiding mechanism includes a transport platform, a plurality of fixed fixed 0 components, and a plurality of guiding components. The adjusting fixing elements are respectively oppositely disposed on both sides of the transmitting platform. Each guiding element is connected to the corresponding guiding elements, and each adjusting fixing element is used for adjusting the contact position of each guiding element with the object. To achieve the above object, a conveyance guiding mechanism according to the present invention transmits an article. The transport guide mechanism includes a transport platform, a plurality of adjustment fixed elements, and a plurality of guide elements. Adjusting the fixed components to the opposite direction
P 送平台的兩側。各導引元件連接於其相對應之各調整固定 元件,且導引元件相對於傳送平台位於一第一高度或一第 200940427 一南度。 承上所述’域本發明之傳送導 定:件使得各導引元件之高度為可調整的。因 . 兀件相對於傳送平台的某一高度產生―、蓄利广士田蜍引 :整固定元件相對於傳送平台而調整導::至可释: :件藉::能,地利用導㈣的不同部位來;; (長更換導引件的時間週期, 〇命,進而減少停機更換的人力及時間,更降低生產 【實施方式】 以下將參照相關圖式,說明依據本發明較佳 ^送導引機構,其中相Μ件以相同標號表示/ 第一貧施例 請參照圖2所示,本發明第—實施例之傳送導 2 ’用以傳送例如為破域其 構 包含-射^ 的—物件。傳送㈣機構2 ❹元件22送千口 21、複數導引元件心及複數調整固定 兩側元件22分別對向設置於傳送平台21的 與傳送平22^有一調整部221 ’調整部221 人 連接,其連接方式可藉由鎖固、卡固、 ίί施:Γ方式,調整部221包括一凹槽或-開孔, 台調整部221以一凹槽利用鎖固方式與傳送 σ :々為例作說明,然其非用以限制本發明。 該等導W元件23例如為滾柱,各導引元件23連接; 200940427 相對應之調整固定元件22。 以下為使清楚說明,圖式及說明皆僅以一導引元件及 一調整固定元件為例作說明。實際應用時,傳送導引機構 中不同的導引元件及調整固定元件皆可利用相同或類似 的方式作調整。 ' 請參照圖3A所示,導引元件23先以相對於傳送平台 21位於第一高度H1設置。當導引元件23不斷與玻璃基板 G接觸摩擦,其表面會逐漸形成一道寬度約等於玻璃基板 ® G厚度的刻痕C。 接著,請參照圖3B所示,當導引元件23表面形成的 刻痕C深度超過設定(刻痕深度依據實際需求而加以設 定),即可藉由改變調整固定元件22之調整部221與傳送 平台21的鎖固位置,從而以移動方式調整導引元件23相 對於傳送平台21位於一第二高度H2。藉此即可調整導引 元件23與玻璃基板G的接觸位置,以避免玻璃基板G與 刻痕C產生卡滯等問題,同時可充分利用導引元件23的 ❹ 不同部位以增加其使用壽命,延長更換導引元件的時間週 期,進而減少停機更換的人力及時間,更降低生產成本。 其中,需注意者,於實際應用中,依導引元件23的 使用狀況,傳送導引機構2中之該等導引元件23相對於 傳送平台21係可位於相同或不同的高度。例如,於原始 狀態時,傳送導引機構2中之該等導引元件23係可皆位 β 於第一高度HI (如圖3Α所示)。當部分導引元件23產生 刻痕時,則可調整該等導引元件23至第二高度H2 (如圖 200940427 3B所示),因此部分導引元件23可位於第一高度HI,部 分導引元件23可位於第二高度H2。當然,當導引元件23 皆調整至第二高度H2且又產生刻痕時,亦可再將其調整 至一第三高度,以此類推,可達到充分利用導引元件的目 的。 ' 調整固定元件可具有其他不同的變化態樣。請參照圖 4A所示,調整固定元件32之調整部321亦可包括一螺紋 部或一伸縮部,並與導引元件33連接。於本實施例中, ® 調整部321以螺紋部為例作說明,然其非用以限制本發明。 因此,導引元件33在與玻璃基板G每一次接觸摩擦 後,亦會隨著調整部321之螺紋向上(向下亦可)產生轉 動。藉此,即可利用轉動方式不斷改變導引元件33與玻 璃基板G的接觸位置,分散玻璃基板G接觸摩擦導引元件 33表面時的作用力,以增加導引元件33的使用壽命。於 此值得一提的是,藉由改變調整部321之螺紋間距,可改 _ 變導引元件33由調整部321 —端向上(或向下)轉動至 另一端的週期,依不同要求可有不同的螺紋間距設定。其 中,需注意者,調整固定元件除分別利用移動或轉動方式 來調整導引元件外,亦可同時藉由移動及轉動方式來調整 導引元件。 另外,調整部若利用伸縮部則可藉由例如收音機天線 的伸縮結構作設計,以使導引元件可相對於傳送平台具有 不同的高度。然伸縮部之設計方式非限制性,依不同要求 可有不同設計方式。 200940427 請參照圖4B所示,其係為調整固定元件的另一變化 態樣。調整固定元件32之調整部321可包括至少一墊片 S,其設置於調整固定元件32與傳送平台31之間。 因此,當導引元件33表面形成的刻痕C過深後,可 藉由增減墊片S的厚度及/或數量,使導引元件33相對於 . 傳送平台31位於第二高度H2,以調整導引元件33與玻璃 基板G的接觸位置。藉此,同樣可利用導引元件33的不 同部位與玻璃基板G接觸,以增加導引元件33的使用壽 〇 命。 第二實施例 請參照圖5所示,本發明第二實施例之傳送導引機構 4與第一實施例的差異在於:該等調整固定元件42除可調 整該等導引元件43之高度外,更可調整對向設置之該等 導引元件43彼此之間的距離。 於本實施例中,調整固定元件42實質呈一 L型,且 調整固定元件42具有一第一調整部421及一第二調整部 〇 422,且第一調整部421與導引元件43及第二調整部422 連接。其中,第一調整部421包括一凹槽或一開孔,且第 一調整部421與第二調整部422可藉由鎖固、卡固、嵌合 或其組合等方式連接,第二調整部422與傳送平台41亦 可藉由鎖固、卡固、嵌合或其組合等方式連接,於本實施 例中,第一調整部421與第二調整部422以及第二調整部 422與傳送平台41皆以鎖固為例作說明,然其非用以限制 本發明。 200940427 請參照圖6A及圖6B所示,其係顯示對向設置於傳送 平台41兩側之調整固定元件42的調整方式。因此,如圖 6A所示,兩側之導引元件43可藉由調整第二調整部422 與傳送平台41的連結位置向外側移動,以對應尺寸較大 之玻璃基板G1。接著,如圖6B所示,對應尺寸較小之玻 ' 璃基板G2時,兩側之導引元件43則可藉由調整第二調整 部422與傳送平台41的連結位置向内側移動。 藉此,除可藉由調整第一調整部421與第二調整部422 ® 的連結位置,來調整導引元件43相對於傳送平台41的高 度外,更可藉由調整第二調整部422與傳送平台41的連 結位置,來調整對向設置之導引元件43彼此之間的距離, 以對應不同尺寸的玻璃基板Gl、G2作適當的調整。 於此值得一提的是,調整導引元件43相對於傳送平 台41之高度的方式,亦可利用例如圖4A及圖4B所示之 結構,即第一調整部亦可包括一螺紋部或一伸縮部,或調 Ο 整固定元件為一體成型並包括一墊片,設置於調整固定元 . . 件與傳送平台之間。由於上述結構之應用方式已於第一實 施例中詳述,於此不再贅述。 綜上所述,依據本發明之傳送導引機構分別藉由調整 固定元件,來使各導引元件之高度為可調整的。因此,當 導引元件相對於傳送平台的某一高度產生一道刻痕時,可 藉由調整固定元件相對於傳送平台而調整導引元件至另 一高度。藉此,即能夠有效地利用導引元件的不同部位以 增加其使用壽命,延長更換導引元件的時間週期,進而減 11 200940427 少停機更換的人力及時間,更降低生產成本。另外,利用 調整固定元件的結構設計,更可藉由調整調整固定元件與 傳送平台的連結位置,來調整對向設置之導引元件彼此之 間的距離,以對應傳送不同尺寸的物件。 以上所述僅為舉例性,而非為限制性者。任何未脫離 ' 本發明之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 ® 【圖式簡單說明】 圖1A為一種習知傳送導引機構的示意圖; 圖1B為習知傳送導引機構中導引滾柱固定方式的示 意圖; 圖2為本發明第一實施例之傳送導引機構的示意圖; 圖3A及圖3B為本發明第一實施例中調整固定元件調 整方式的示意圖; 圖4A及圖4B為本發明第一實施例中調整固定元件具 ◎ 有不同變化態樣的示意圖; 圖5為本發明第二實施例之傳送導引機構的示意圖; 以及 圖6A及圖6B為本發明第二實施例中調整固定元件調 整方式的示意圖。 【主要元件符號說明】 1、2、4 :傳送導弓|機構 12 200940427 11、21、31、41 :傳送平台 12 :固定桿 13 .導引滾柱 22、 32、42 :調整固定元件 221、321 :調整部 23、 33、43 :導引元件 421 :第一調整部 422 :第二調整部 ❹C :刻痕 H1 :第一高度 H2 :第二高度 G、Gl、G2 ··玻璃基板 S :墊片 ❹ 13P is sent to both sides of the platform. Each of the guiding elements is coupled to its corresponding adjusting and fixing element, and the guiding element is located at a first height or a degree of a certain degree with respect to the conveying platform. The transmission guide of the present invention is such that the height of each of the guiding elements is adjustable. Because the piece is generated relative to a certain height of the conveying platform, the storage element is adjusted with respect to the conveying platform:: to release: : piece borrowing:: energy, ground utilization guide (4) Different parts come;; (long time period of replacement of guides, life, and thus reduce the manpower and time of stop replacement, and reduce production) [Embodiment] The following will be described with reference to the related drawings. Guide mechanism, wherein the components are denoted by the same reference numerals/first lean embodiment, as shown in FIG. 2, the transport guide 2' of the first embodiment of the present invention is used to transmit, for example, a broken domain containing -jecting ^ - Object. Transmission (4) Mechanism 2 ❹ Element 22 is sent to the port 21, the plurality of guide elements and the plurality of fixed and fixed elements 22 are respectively disposed opposite to the transfer platform 21 and have an adjustment portion 221 'adjustment portion 221 The connection is made by the method of locking, clamping, and clamping. The adjusting portion 221 includes a groove or an opening, and the adjusting portion 221 is locked and conveyed by a groove. For illustrative purposes, it is not intended to limit the invention. The guiding W element 23 is, for example, a roller, and each guiding element 23 is connected; 200940427 corresponds to the adjusting fixing element 22. The following is a clear description, the drawing and the description are only a guiding element and an adjusting fixing element. For example, in actual application, different guiding elements and adjusting fixing elements in the conveying guiding mechanism can be adjusted in the same or similar manner. Referring to FIG. 3A, the guiding element 23 is firstly transmitted. The platform 21 is disposed at the first height H1. When the guiding member 23 is continuously rubbed against the glass substrate G, the surface thereof is gradually formed with a notch C having a width approximately equal to the thickness of the glass substrate® G. Next, as shown in FIG. 3B, When the depth of the score C formed on the surface of the guiding member 23 exceeds the setting (the depth of the scoring is set according to actual needs), the locking position of the adjusting portion 221 of the adjusting fixing member 22 and the conveying platform 21 can be changed by The moving mode adjusting guiding member 23 is located at a second height H2 with respect to the conveying platform 21. Thereby, the contact position of the guiding member 23 with the glass substrate G can be adjusted to avoid the glass base. G and the score C cause problems such as sticking, and at the same time, the different parts of the guiding element 23 can be fully utilized to increase the service life thereof, and the time period for replacing the guiding element is prolonged, thereby reducing the manpower and time for the shutdown replacement, and further reducing the production. In this case, it should be noted that in practical applications, depending on the state of use of the guiding elements 23, the guiding elements 23 in the transport guiding mechanism 2 may be at the same or different heights relative to the transport platform 21. For example. In the original state, the guiding elements 23 in the transport guiding mechanism 2 can be all positioned β at a first height HI (as shown in FIG. 3A). When the partial guiding elements 23 are scored, The guiding elements 23 are adjusted to a second height H2 (as shown in Fig. 200940427 3B), so that the partial guiding elements 23 can be located at a first height HI and the partial guiding elements 23 can be located at a second height H2. Of course, when the guiding member 23 is adjusted to the second height H2 and the score is generated, it can be adjusted to a third height, and so on, so that the purpose of fully utilizing the guiding member can be achieved. 'Adjusting the fixing elements can have other different variations. Referring to FIG. 4A, the adjustment portion 321 of the adjustment fixing member 32 may further include a threaded portion or a telescopic portion and is coupled to the guiding member 33. In the present embodiment, the adjustment portion 321 is exemplified by a threaded portion, which is not intended to limit the present invention. Therefore, the guide member 33 also rotates upward (downward) with the thread of the adjusting portion 321 after each contact friction with the glass substrate G. Thereby, the contact position of the guiding member 33 with the glass substrate G can be constantly changed by the rotation mode, and the force at which the glass substrate G contacts the surface of the friction guiding member 33 can be dispersed to increase the service life of the guiding member 33. It should be noted that, by changing the thread pitch of the adjusting portion 321 , the period in which the guiding member 33 is rotated upward (or downward) from the adjusting portion 321 to the other end can be changed, and may have different requirements according to different requirements. Different thread pitch settings. It should be noted that, in addition to adjusting the guiding elements by moving or rotating, respectively, the adjusting fixing elements can also adjust the guiding elements by moving and rotating. Further, if the adjustment portion utilizes the expansion and contraction portion, it can be designed by, for example, a telescopic structure of a radio antenna, so that the guide members can have different heights with respect to the transport platform. However, the design of the expansion and contraction section is not restrictive, and different design methods may be adopted according to different requirements. 200940427 Please refer to Fig. 4B, which is another variation of the adjustment of the fixing member. The adjustment portion 321 of the adjustment fixing member 32 may include at least one spacer S disposed between the adjustment fixing member 32 and the transfer platform 31. Therefore, when the score C formed on the surface of the guiding member 33 is too deep, the guiding member 33 can be positioned at the second height H2 with respect to the conveying platform 31 by increasing or decreasing the thickness and/or the number of the spacer S. The contact position of the guiding member 33 with the glass substrate G is adjusted. Thereby, different portions of the guiding member 33 can also be used in contact with the glass substrate G to increase the life expectancy of the guiding member 33. Second Embodiment Referring to FIG. 5, the difference between the transport guiding mechanism 4 of the second embodiment of the present invention and the first embodiment is that the adjusting fixing members 42 can adjust the height of the guiding members 43. Further, the distance between the guiding elements 43 disposed opposite to each other can be adjusted. In this embodiment, the adjusting and fixing member 42 is substantially in an L shape, and the adjusting and fixing member 42 has a first adjusting portion 421 and a second adjusting portion 422, and the first adjusting portion 421 and the guiding member 43 and the first The second adjustment unit 422 is connected. The first adjusting portion 421 includes a recess or an opening, and the first adjusting portion 421 and the second adjusting portion 422 can be connected by locking, clamping, fitting, or a combination thereof, and the second adjusting portion is connected. The 422 and the transport platform 41 can also be connected by locking, clamping, fitting, or a combination thereof. In the embodiment, the first adjusting unit 421 and the second adjusting unit 422 and the second adjusting unit 422 and the transmitting platform are connected. 41 is explained by taking the lock as an example, but it is not intended to limit the present invention. 200940427 Referring to Figs. 6A and 6B, the manner of adjusting the adjustment fixing elements 42 disposed on opposite sides of the transport platform 41 is shown. Therefore, as shown in Fig. 6A, the guiding members 43 on both sides can be moved outward by adjusting the joint position of the second adjusting portion 422 and the conveying platform 41 to correspond to the glass substrate G1 having a larger size. Next, as shown in Fig. 6B, when the glass substrate G2 having a small size is used, the guiding members 43 on both sides can be moved inward by adjusting the joint position of the second adjusting portion 422 and the conveying platform 41. Therefore, in addition to adjusting the connection position of the first adjustment portion 421 and the second adjustment portion 422 ® , the height of the guiding element 43 relative to the transport platform 41 can be adjusted, and the second adjustment portion 422 can be adjusted by The connection position of the transfer platform 41 is used to adjust the distance between the oppositely disposed guiding members 43 to appropriately adjust the glass substrates G1 and G2 of different sizes. It should be noted that, in a manner of adjusting the height of the guiding member 43 relative to the conveying platform 41, for example, the structure shown in FIG. 4A and FIG. 4B can also be utilized, that is, the first adjusting portion can also include a threaded portion or a The telescopic portion, or the tuning and fixing component, is integrally formed and includes a gasket disposed between the adjusting fixture and the conveying platform. Since the application of the above structure has been described in detail in the first embodiment, it will not be described again. In summary, the conveying guide mechanism according to the present invention adjusts the fixing members to adjust the height of each of the guiding members. Thus, when the guiding element produces a score relative to a certain height of the transfer platform, the guiding element can be adjusted to another height by adjusting the fixing element relative to the transfer platform. Thereby, different parts of the guiding element can be effectively utilized to increase the service life thereof, and the time period for replacing the guiding element can be prolonged, thereby reducing the manpower and time of the 200940427 less stopover and reducing the production cost. In addition, by adjusting the structural design of the fixing component, the distance between the opposing guiding members can be adjusted to adjust the distance between the guiding members and the conveying platform by adjusting the connecting position of the fixing member and the conveying platform. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations of the spirit and scope of the invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a schematic view of a conventional conveying guide mechanism; FIG. 1B is a schematic view showing a manner of fixing a guide roller in a conventional conveying guide mechanism; FIG. 2 is a transmission according to a first embodiment of the present invention; FIG. 3A and FIG. 3B are schematic diagrams showing an adjustment method of adjusting a fixing component according to a first embodiment of the present invention; FIG. 4A and FIG. 4B are diagrams showing different manners of adjusting a fixing component in the first embodiment of the present invention; Figure 5 is a schematic view of a transfer guiding mechanism according to a second embodiment of the present invention; and Figures 6A and 6B are schematic views showing an adjustment method of adjusting a fixed component in a second embodiment of the present invention. [Description of main component symbols] 1, 2, 4: transmission guide bow | mechanism 12 200940427 11, 21, 31, 41: transport platform 12: fixed rod 13. Guide roller 22, 32, 42: adjustment fixed element 221, 321 : adjustment portion 23, 33, 43 : guiding member 421 : first adjustment portion 422 : second adjustment portion ❹ C : score H1 : first height H2 : second height G, G1, G2 · · glass substrate S: Gasket ❹ 13