M316240 八、新型說明: 【新型所屬之技術領域】 本創作係與一種玻璃基板輸送裝置有關,更詳而言 之,特別是指一種可減少材料成本、提高組裝便利性, 並確保輸送順暢性的玻璃基板輸送裝置支撐構造改良。 【先前技術】 按,目前液晶玻璃基板在生產過程中,必需使用輸 • 送裝置進行輸送,請參閱第一、二圖所示,習知之輸送 裝置10大致具有一底框架11,該底框架11上方固 接有一平台狀的承載板1 2,並於承載板1 2上組設有 多數個平行且間隔排列的支撐板1 3,使該等支撐板1 3間可以跨置樞設多數之滾動桿1 4,再藉由滚動桿1 4上隨之滾轉的滚輪15據以輸送該液晶玻璃基板之 行程;其中,該支撐板1 3頂端係預先加工銑設該轴承 Φ 定位槽1 3 1,再於該等軸承定位槽1 3 1内裝置樞轉 之轴承1 3 2,並利用該栓體1 3 3予以適當限位,俾 供具數滾輪1 5之滚動桿1 4穿置樞設定位;另該等支 撐板1 3與承載板1 2彼此間係藉由數固定塊1 6予 以相對鎖固結合。 【新型内容】 惟,本創作者發現習知輸送裝置1 0之組成構造, 仍存在有下列諸多缺弊: 5 M316240 1、 該支撐板1 3除可容納該定位軸承1 3 2,且 需具有適當包覆該軸承1 3 2,據以避免雜質粉塵之進 入,而影響輸送轉動之順暢度,故該支撐板1 3必需具 有相當的厚度設計,加上每一支撐板i 3為配合輸送行 程,係由多數的板體組設延伸而成,致使該等厚度的長 板狀支撐板1 3不但量重且不利於組裝,亦需負擔較高 的材料成本,實不符經濟效益實施者。 2、 該支撐板1 3上的軸承定位槽1 3 1,為使軸 . 承1 3 2組裝後,得以確保每一滾動桿1 4之準確定位 與輸送之平穩與順暢性,該每一軸承定位槽i 3 1均需 藉助精密的銑削加工方可達成,致使加工成本難以有效 降低。 3、 該支撐板1 3與相對固接之承載板1 2,彼此 間並非採用全面性結合,係以固定塊Ί 6予以相互鎖固 結合,惟如此之組裝結構,將使支撐板i 3在固定塊丄 •籲6以外的部位無法確切地與承載板i 2牢固結合,且易 造成輸送轉動時之震動,特別是兩相鄰承載板1 2間距 越長時,其震動度更為明顯;因此,為使該等支撐板工 3不致產生變形與提昇其支撐強度,一般均藉由增加支 撐板1 3厚度的方式加以解決,遂導致物料成本之增 加0 4、 該支撐板1 3上組裝之軸承1 3 2,僅利用栓 體1 3 3適當限位,而無其他包覆構件,致使該轴承工 3 2大部分處於開放裸露狀態,而易被雜質粉塵侵入, M316240 致有影響滚動桿14轉動與輸送順暢之疑慮。 本創作係提供一種玻璃基板輸送裝置之支撐構造 改良,主要是利用該輸送裝置之支撐板與鋁擠一體成型 的長形結合框體作為輸送架雜結合’使支揮板可設為薄 板狀,且具有相對抗變形之支撐強度,俾以降低材料、 加工與組裝成本;且該支撐板上切削有該桿孔槽,配合 該模組化設計之軸承座組設避免雜質粉塵之入侵, 據以維持該輸送轉動之順暢度功效者。 本創作所提供之支撐構造,由於支撐板可設為薄板 狀,且不需精密的銑削加工,加上轴承座可為模組化之 規格品設計,因此可有效降低材料、加工與組裝成本; 其次,由於該軸承座可提供良好的包覆結構,避免雜質 粉塵侵入該轴承中,故可確保滚動桿轉動與輸送的順暢 度’另由於長形結合框體係由具輕量化與易於生產特性 的鋁擠一體成型,故可提供全面性且足夠的支撐強度, 使薄板狀的支撐板不致有變形之虞,並可達到組裝省力 方便及較低廉材料成本等優點。 【實施方式】 、、請參閱第三〜五圖所示,本創作係-種玻璃基板輸 送裝置之支撐構造改良較佳實施例,該輪送裝置2 〇大 致與習知構造相同,主要包含有一四方g^之底框架體 2 1、多數個組設於底框架體2 ^頂部之結合框體2 2、多數個平行設置於結合框體2 2上的支撐板2 3、 M316240 多數個組設於支撐板2 3上的軸承2 4,以及多數個穿 伸相對軸承2 4而橫向跨置於支撐板2 3上的滾動桿 2 5,並藉由該等滾動桿2 5適當地滾動,據以輸送該 液晶玻璃基板之行程;請續參閱第五、六圖所示,其中: 該等支撐板2 3,係分別呈薄板狀,且頂緣相對於 各滾動桿2 5的穿伸部位係各凹設有一呈ub之桿孔 槽 2 3 1 ; 多數個軸承座2 6,各具有一座體2 6 a與一蓋體 2 6 b組没,係可容設該軸承2 4定位且包覆密封其 間,並設有栓體2 6 1適當鎖固於支撐板2 3相對桿孔 槽2 3 1之侧壁上,形成一可允許相對滾動桿2 5穿伸 之圓形穿伸孔262者(如第五圖所示); 多數個結合框體2 2,係由鋁擠材一體擠壓成型之 長矩形中空框體,而具有兩個相對的第一結合面2 2 1,以及垂直於第一結合面2 2 1之兩個相對的第二結 合面2 2 2 ;本實施例第一結合面2 2 1上均一體成型 有兩個橫向結合槽2 2 3,使任一選定的第一結合面2 2 1均可藉由其上的橫向結合槽2 2 3與穿過支撐板 2 3上的多數個栓體2 2 4相互鎖固,而將該第一結合 面鎖固結合於支撐板2 3上;同樣地,本實施例第二結 合面2 2 2上均一體成型有一個橫向結合槽2 2 3,於 4底部的第二結合面2 2 2上,藉由該多數個栓體2 2 4相互鎖固有-承載框板27,具以維持該支撐板23 一足夠支撐強度之抵止者。 M316240 由以上說明可知,本創作確具下列諸多優點與可達 成功效: 1、 本創作利用鋁擠一體成型的長形結合框體作為 支撐板與承載框板的輸送架體結合,可提供全面性且足 夠的支撐強度,使支撐板採用薄板結構時,也不致有變 形之虞。 2、 本創作結合框體採用鋁擠材一體擠壓成型的做 法,具有生產快速、容易的特性,且铭擠材質輕,也使 •得組裝過程更為方便省力。 3、 本創作之軸承座係結合於支撐板侧壁,俾以取 代習知支撐板上銑削加工轴承定位槽之設計,使支撐板 可設為一薄板狀,而無需憂慮轴承組裝空間問題,故可 節省支撐板厚度所降低的材料成本。 4、 本創作之轴承座可採模組化之規格品設計,因 此,支撐板不需另外進行精密的銑削加工,且支撐板上 Φ 的槽孔槽無需過度的精密加工技術,故亦可藉此降低加 工成本。 5、 本創作之轴承座可使内部組裝的軸承獲致極佳 的包覆與密封效果,故可有效避免雜質粉塵侵入軸承 中,進而可確保滚動桿轉動與輸送的順暢度。 綜上所述,本創作在同類產品中實有其極佳之進步 實用性,同時遍查國内外關於此類結構之技術資料,文 獻中亦未發現有相同的構造存在在先,是以,本創作實 已具備新型專利要件,爰依法提出申請。 M316240 准以上所述者’僅係本創作之一較佳可行實施例 而已,故舉凡應用本創作說明書及申請專利範圍所為 等效結構變化,理應包含在本創作之專利範圍内。 【圖式簡單說明】 第圖係驾知輸送裝置之側視組合及局部放大圖。 第二圖係習知輸送裝置之局部立體分解圖。 第三圖係本創作輸送裝置之局部立體外觀組合圖。 籲第四圖係本創作輸送裝置之侧視組合及局部放大圖。 第五圖係本創作輸送裝置支樓構造之立體分解圖。 第六圖係本創作輸送裝置支撐構造之外觀組合圖。 【主要元件符號說明】 〔習知〕 10 輸送裝置 1 1 底框架 1 2 承載板 1 3 支撐板 13 1 轴承定位槽 1 3 2 轴承 13 3 栓體 1 4 滾動桿 15 滚輪 1 6 固定塊 〔本創作〕 2 0 輸送裝置 2 1 底框架體 2 2 結合框體 2 2 1 第一結合面 2 2 2 第二結合面 2 2 3 橫向結合槽 2 2 4 栓體 2 3 支撐板 M316240 231 桿孔槽 2 5 滾動桿 2 6 軸承座 2 6b 蓋體 262 穿伸孔 2 4 轴承 2 5 1 滾輪 2 6a 座體 2 6 1 栓體 2 7 承載框板 11M316240 VIII. New description: [New technical field] This creation is related to a glass substrate conveying device. More specifically, it refers to a material that can reduce material cost, improve assembly convenience, and ensure smooth delivery. The glass substrate conveying device support structure is improved. [Prior Art] According to the present invention, in the production process, the liquid crystal glass substrate must be transported by using a transport device. Referring to the first and second figures, the conventional transport device 10 generally has a bottom frame 11 which is 11 A platform-shaped carrier plate 12 is fixedly attached to the upper portion, and a plurality of parallel and spaced-apart support plates 13 are disposed on the carrier plate 12, so that the support plates 13 can be pivoted across a plurality of positions. The rod 14 is further conveyed by the roller 15 on the rolling rod 14 to convey the liquid crystal glass substrate; wherein the top end of the supporting plate 13 is pre-machined to mill the bearing Φ positioning groove 13 1, the bearing 1 3 2 is pivoted in the bearing positioning groove 1 3 1 , and is properly restricted by the plug body 1 3 3 , and the rolling rod 1 4 of the number of rollers 15 is placed. The support plate 13 and the carrier plate 1 2 are relatively locked to each other by a plurality of fixing blocks 16 . [New content] However, the creator found that the composition of the conventional conveying device 10 has the following disadvantages: 5 M316240 1. The support plate 13 can accommodate the positioning bearing 1 3 2 and must have The bearing 1 3 2 is appropriately coated to avoid the entry of the impurity dust, thereby affecting the smoothness of the conveying rotation. Therefore, the supporting plate 13 must have a considerable thickness design, and each supporting plate i 3 is a matching conveying stroke. It is formed by the extension of a plurality of plate bodies, so that the long plate-shaped support plates 13 of the same thickness are not only heavy and unfavorable for assembly, but also require a high material cost, which is not economical. 2. The bearing positioning groove 1 3 1 on the support plate 13 is used to ensure the smooth positioning and smoothness of each rolling rod 14 after assembly of the shaft. The positioning groove i 3 1 can be achieved by precise milling, which makes it difficult to effectively reduce the processing cost. 3. The support plate 13 and the relatively fixed carrier plate 12 are not integrally combined with each other, and are fixedly coupled with each other by a fixed block , 6, but such an assembled structure will make the support plate i 3 The parts other than the fixed block 丄•吁6 cannot be firmly combined with the carrying board i 2, and it is easy to cause vibration when the conveying rotates, especially when the distance between the two adjacent carrying boards 12 2 is longer, the vibration degree is more obvious; Therefore, in order to prevent the support members 3 from being deformed and increasing the support strength, the support member 13 is generally increased in thickness by increasing the thickness of the support plate 13 to cause an increase in material cost. 4. The assembly on the support plate 13 The bearing 1 3 2 is only properly restrained by the plug body 1 3 3 without other covering members, so that most of the bearing workers 32 are in an open bare state, and are easily invaded by impurity dust, and the M316240 has an effect on rolling. The rod 14 rotates and conveys a smooth doubt. The invention provides an improved support structure of a glass substrate conveying device, which mainly uses an elongated combined frame formed by integrally forming a support plate of the conveying device with aluminum as a conveying frame, so that the supporting plate can be made into a thin plate shape. And having relatively support strength against deformation, 俾 to reduce material, processing and assembly costs; and the support plate is cut with the rod hole groove, and the modular design of the bearing seat assembly to avoid the invasion of impurity dust, according to Maintain the smoothness of the transport rotation. The support structure provided by the creation can reduce the material, processing and assembly cost because the support plate can be made into a thin plate shape without precise milling, and the bearing seat can be designed for modular specifications. Secondly, since the bearing seat can provide a good covering structure and avoid the intrusion of impurity dust into the bearing, the smoothness of the rolling and conveying of the rolling rod can be ensured, and the long combined frame system is lightweight and easy to produce. The aluminum extrusion is integrally formed, so that it can provide comprehensive and sufficient support strength, so that the thin plate-shaped support plate can be free from deformation, and can achieve the advantages of convenient assembly and low cost of materials. [Embodiment] Referring to Figures 3 to 5, the preferred embodiment of the support structure of the glass substrate transport apparatus of the present invention is the same as the conventional structure, and mainly includes a conventional structure. The bottom frame body 2 of the square g ^ 2, the plurality of sets of the frame 2 2 at the top of the bottom frame body 2 ^ 2, a plurality of support plates 2 3 and M316240 arranged in parallel on the joint frame 2 2 a bearing 24 on the support plate 23, and a plurality of rolling rods 25 extending transversely to the bearing 24 and laterally across the support plate 23, and appropriately rolling by the rolling rods 25. For the travel of the liquid crystal glass substrate; please refer to the fifth and sixth figures, wherein: the support plates 23 are respectively in the shape of a thin plate, and the top edge is inclined with respect to the respective rolling rods 25 Each of the recesses is provided with a ub-shaped rod hole groove 2 3 1 ; a plurality of bearing blocks 2 6 each having a body 2 6 a and a cover body 2 6 b group, the bearing can be accommodated and positioned Sealed therebetween, and provided with a plug body 2 6 1 properly locked on the side wall of the support plate 23 relative to the rod hole groove 23 1 to form a The circular through hole 262 can be allowed to extend relative to the rolling rod 25 (as shown in the fifth figure); the plurality of combined frame 2 2 is a long rectangular hollow frame integrally extruded from the aluminum extruded material, and There are two opposite first joint faces 2 2 1 and two opposite second joint faces 2 2 2 perpendicular to the first joint face 2 2 1 ; the first joint face 2 2 1 of the embodiment is integrally formed There are two lateral joint grooves 2 2 3 such that any selected first joint surface 2 2 1 can pass through the transverse joint groove 2 2 3 thereon and a plurality of plug bodies 2 2 passing through the support plate 2 3 4, the first joint surface is locked and fixed to the support plate 23; likewise, the second joint surface 2 2 2 of the embodiment is integrally formed with a transverse joint groove 2 2 3 , at 4 On the bottom second joint surface 22 2 , the intrinsic-bearing frame plate 27 is interlocked by the plurality of plug bodies 2 2 4 to maintain the support plate 23 with a sufficient supporting strength. M316240 It can be seen from the above description that this creation has the following advantages and achievable effects: 1. This creation uses a long-shaped combined frame formed by aluminum extrusion as a support plate combined with a carrier frame of the carrier frame to provide comprehensiveness. And enough support strength, so that the support plate uses a thin plate structure, there is no deformation. 2. This creation combined with the frame body adopts the extrusion process of aluminum extrusion material, which has the characteristics of rapid and easy production, and the lightness of the material is also squeezed, which makes the assembly process more convenient and labor-saving. 3. The bearing seat of the creation is combined with the side wall of the support plate to replace the design of the bearing positioning groove for milling on the conventional support plate, so that the support plate can be set as a thin plate without worrying about the bearing assembly space problem. Material cost reduction due to support plate thickness can be saved. 4. The bearing housing of this creation can be designed with modular specifications. Therefore, the support plate does not need to be precision milled separately, and the slot groove of the Φ on the support plate does not need excessive precision machining technology, so it can also be borrowed. This reduces processing costs. 5. The bearing seat of this creation can achieve excellent coating and sealing effect on the internally assembled bearing, so it can effectively prevent the impurity dust from intruding into the bearing, thereby ensuring the smoothness of the rolling rod and the conveying. In summary, this creation has its excellent progress and practicality in similar products. At the same time, it has investigated the technical information about such structures at home and abroad. The same structure has not been found in the literature. This creation has already possessed new types of patent requirements, and applied for it according to law. M316240 is intended to be a preferred embodiment of the present invention, and the equivalent structural changes in the application of this specification and the scope of the patent application are intended to be included in the scope of the present invention. [Simple description of the drawings] The figure is a side view combination and a partial enlarged view of the driving device. The second figure is a partial exploded view of a conventional delivery device. The third figure is a partial stereoscopic combination diagram of the creation conveying device. The fourth drawing is a side view combination and a partial enlarged view of the creation conveying device. The fifth figure is an exploded view of the structure of the branch of the creation conveyor. The sixth figure is an appearance combination diagram of the support structure of the present creation conveying device. [Main component symbol description] [General] 10 Conveying device 1 1 Bottom frame 1 2 Carrier plate 1 3 Support plate 13 1 Bearing positioning groove 1 3 2 Bearing 13 3 Plug body 1 4 Roller bar 15 Roller 1 6 Fixing block [This book] Creation] 2 0 Conveying device 2 1 Bottom frame body 2 2 Bonding frame 2 2 1 First joint surface 2 2 2 Second joint surface 2 2 3 Lateral joint groove 2 2 4 Plug body 2 3 Support plate M316240 231 Rod hole groove 2 5 Rolling rod 2 6 Bearing housing 2 6b Cover body 262 Perforation hole 2 4 Bearing 2 5 1 Roller 2 6a Seat 2 6 1 Plug body 2 7 Bearing frame plate 11