M322860 八、新型說明: 【新型所屬之技術領域】 本創作線性滑軌傳動皮帶調整結構,主要是應用於線 性滑軌的皮帶緊度調整技術上。 【先前技術】 按’傳統習用的線性滑軌並無設置皮帶緊度調整結構 ,當皮帶鬆弛時,會造成皮帶空轉的情形,導致滑座無法 在滑執上移動,逕而發生故障,必須重新更換新的皮帶, 維修時比較麻煩與不方便,為其既存尚待克服解決的問題 與缺失。 【新型内容】 本創作人目前從事相關產品的製造、設計,累積多年 的實務經驗與心得,針對傳統習用的線性滑軌結構所既存 的問題與缺失,積極地投入創新與改良的精神,完成一線 性滑軌傳動皮帶調整結構。 新型解決問題所應用的技術手段以及對照先前技術的 功效係在於·該滑軌上設有滑座,滑軌兩端設有一皮帶固 定座及一皮帶調整座,皮帶固定座外部設有馬達,皮帶固 定座與皮帶調整座㈣設有二皮帶輪及—皮帶,皮帶兩端 係鎖固於滑座内面,得由馬達正向、逆向轉動皮帶輪,並 帶動皮帶及滑座在滑軌上前進、後退,皮帶調整座内部設 有滑槽,可供設置調整架,調整架内部樞結設有皮帶輪, 調整架_間設有螺孔,可供鎖螺一調整螺栓,調整螺栓外 部設有螺孔,做為螺絲鎖結固定之用,當皮帶鬆弛時,僅 M322860 需利用扳手工具驅動螺絲,即可以讓調整螺栓在調整 螺孔中螺動’藉以動調整架向外移位,達到調整皮儀、 度的目的,具有功效上的增進,為其主要目的達成者:緊 【實施方式】 ^ 為使專精熟悉此項技藝之人仕業者易於深入瞭解本創 作的構造内容以及所能達成的功能效益,茲列舉一具體實 施例,並配合圖式詳細介紹說明如下: 一種線性滑軌傳動皮帶調整結構,敬請參閱第—圖所 示:係本創作之立體組合示意圖。與第二圖所示:係本創 作之立體分解示意圖。主要在於:該滑軌1 〇兩侧設有二 滑桿11,滑軌10中央鏤空,可供穿設一皮帶i 2,滑 軌10上設有滑座2 0,皮帶12的兩端並分別由螺絲p 與固定板21鎖結固定於滑座2 0内面,滑座2〇兩侧對 應於滑桿11處設有滑輪2 2,由皮帶12牵動滑座2〇 ’利用滑輪2 2在滑軌1〇的滑桿11上來回滑動,滑軌 10兩端設有一皮帶固定座3 0及一皮帶調整座4 〇,皮 帶固定座30内部利用軸承B設有皮帶輪31,皮帶固定 座3 0外部設有馬達3 2,藉以正向、逆向轉動皮帶輪3 1,逕而帶動皮帶12及滑座20前進、後退,皮帶調整 座4 0内部設有滑槽41,可供設置調整架4 2,調整架 42内部利用穿梢Q樞結設有皮帶輪43,調整架42中 間設有螺孔4 4,可供鎖螺一調整螺栓4 5,調整螺栓4 5外部設有螺孔4 6,做為六角螺絲47鎖結固定之用, 皮帶固定座3 0與皮帶調整座4 0設有定位板3 3、4 8 M322860 ,做為滑桿11兩端定位之用者。 藉由上述各元件結構所組合而成之本創作,係在提供 一種線性滑軌傳動皮帶調整結構,在實際操作應用上: 敬請參閱第三圖所示:係本創作之使用狀態示意圖。 由馬達3 2驅動二皮帶輪31、4 3呈同方向轉動,使得 皮帶12可以帶動滑座2〇在滑軌1〇上滑動。 敬請參閱第四圖所示:係本創作之調整狀態示意圖。 當皮帶12鬆弛時,僅需利用六角扳手工具5 〇在六角螺 絲4 7上轉動,即可藉由調整螺栓4 5帶動調整架4 2向 外移動,讓皮帶輪43可以調緊皮帶12,能有效避免因 為皮帶12鬆弛,所造成的空轉情形。 綜合上述所陳之本創作,係在提供一種線性滑軌傳動 皮帶調整結構,經過本創作人實際製作完成以及反覆操作 測試之後’證實的確可以達到本創作所預期的功能效益, 同時又為目前坊間尚無見聞之「首先創作」,具有「產業 上的利用價值」,誠然已經符合新型專利「實用性」與r 進步性」之成立要義,爰依專利法之規定,向鈞局提出 新型專利之申請。 【圖式簡單說明】 第一圖:係本創作之立體組合示意圖。 第二圖:係本創作之立體分解示意圖。 第三圖:係本創作之使用狀態示意圖。 第四圖:係本創作之調整狀態示意圖。 【主要元件符號說明】 M322860 10 滑軌 11 滑桿 12 皮帶 20 滑座 2 1 固定板 2 2 滑輪 30 皮帶固定座 3 1 皮帶輪 3 2 馬達 3 3 定位板 40 皮帶調整座 41 滑槽 42 調整架 43 皮帶輪 44 螺孔 45 調整螺栓 46 螺孔 47 六角螺絲 48 定位板 50 六角板手工具 P 螺絲 Q 穿梢 B 軸承M322860 VIII. New description: [New technical field] The linear slider drive belt adjustment structure of this creation is mainly applied to the belt tightness adjustment technology of linear slide. [Prior Art] According to the 'traditional linear slide rails, there is no belt tightness adjustment structure. When the belt is slack, the belt will be idling, causing the slide to not move on the slippery, and the fault will occur. Replacing a new belt is more cumbersome and inconvenient to repair, and it has problems and lacks that need to be solved. [New Content] The creator is currently engaged in the manufacture and design of related products. He has accumulated many years of practical experience and experience. He has actively invested in the spirit of innovation and improvement in order to solve the problems and shortcomings of the traditional linear slide structure. Sliding rail drive belt adjustment structure. The technical means applied by the new problem solving and the effect of the prior art are that the sliding rail is provided with a sliding seat, a belt fixing seat and a belt adjusting seat are arranged at both ends of the sliding rail, and a motor and a belt are arranged outside the belt fixing seat. The fixing seat and the belt adjusting seat (4) are provided with two pulleys and a belt. The two ends of the belt are locked on the inner surface of the sliding seat, and the pulley is rotated forward and reverse by the motor, and the belt and the sliding seat are driven forward and backward on the sliding rail. There is a sliding slot inside the belt adjusting seat, which can be used to set the adjusting frame. The inner arm of the adjusting frame is provided with a pulley. The adjusting frame _ is provided with a screw hole, which can be used to adjust the bolt, and the screw bolt hole is arranged outside the adjusting bolt. For the screw locking and fixing, when the belt is slack, only the M322860 needs to use the wrench tool to drive the screw, that is, the adjusting bolt can be screwed in the adjusting screw hole, so that the adjusting bracket is displaced outward to adjust the leather meter and degree. The purpose, the improvement of efficacy, and the achievement of its main purpose: tight [implementation] ^ For those who are familiar with the skill, the practitioners can easily understand the structure of the creation. The contents and the functional benefits that can be achieved are listed in a specific embodiment, and are described in detail as follows: A linear slide transmission belt adjustment structure, please refer to the figure - figure: the three-dimensional combination diagram of the creation . As shown in the second figure, it is a three-dimensional decomposition diagram of the creation. The main reason is that there are two sliding bars 11 on both sides of the sliding rail 1 , and the sliding rail 10 is hollowed out at the center for wearing a belt i 2 , and the sliding rail 10 is provided with a sliding seat 20 , both ends of the belt 12 and respectively The screw p and the fixing plate 21 are locked and fixed on the inner surface of the sliding block 20, and the two sides of the sliding seat 2 are correspondingly provided with the pulley 22 at the sliding rod 11, and the pulley 12 is moved by the belt 12' The slide bar 11 of the slide rail slides back and forth, and a belt fixing seat 30 and a belt adjusting seat 4 are disposed at both ends of the slide rail 10. The belt fixing seat 30 is internally provided with a pulley 31 by a bearing B, and the belt fixing seat 30 The motor 32 is externally disposed, and the pulley 3 is driven in the forward direction and the reverse direction to drive the belt 12 and the carriage 20 forward and backward. The belt adjustment seat 40 is internally provided with a sliding slot 41 for providing the adjustment bracket 4 2 . The inside of the adjusting frame 42 is provided with a pulley 43 by a pivoting point Q, and a screw hole 44 is arranged in the middle of the adjusting frame 42 for adjusting the bolt 4 5 of the adjusting screw, and the screw hole 4 6 is provided outside the adjusting bolt 4 5 as Hexagonal screw 47 is used for locking and fixing. The belt fixing seat 30 and the belt adjusting seat 40 are provided with positioning plates 3 3, 4 8 M322860, which are positioned at both ends of the sliding rod 11. User. The present invention, which is a combination of the above-mentioned various component structures, provides a linear slide transmission belt adjustment structure, and in practical application: Please refer to the third figure: a schematic diagram of the use state of the present creation. The two pulleys 31, 4 3 are driven by the motor 3 2 to rotate in the same direction, so that the belt 12 can drive the carriage 2 to slide on the slide rail 1 . Please refer to the fourth figure: a schematic diagram of the adjustment status of this creation. When the belt 12 is loose, only the hex wrench tool 5 〇 is used to rotate on the hex screw 47, so that the adjusting bracket 4 2 can be moved outward by the adjusting bolt 4 5, so that the pulley 43 can tighten the belt 12, which can effectively Avoid the idling caused by the slack of the belt 12. In summary, the above-mentioned creation is based on the provision of a linear slide belt adjustment structure. After the actual production and repeated operation tests by the creator, it is confirmed that the functional benefits expected by the creation can be achieved, and at the same time The "first creation" that has not yet been seen has the "utility value of the industry". It is true that it has met the founding principle of the "practicality" and "progressiveness" of the new patent, and has proposed a new type of patent to the bureau in accordance with the provisions of the Patent Law. Application. [Simple description of the diagram] The first picture: a three-dimensional combination diagram of the creation. The second picture: a three-dimensional decomposition diagram of the creation. The third picture: a schematic diagram of the state of use of the present creation. The fourth picture: a schematic diagram of the adjustment state of the creation. [Main component symbol description] M322860 10 Slide rail 11 Slider 12 Belt 20 Slider 2 1 Fixing plate 2 2 Pulley 30 Belt mount 3 1 Pulley 3 2 Motor 3 3 Positioning plate 40 Belt adjuster 41 Chute 42 Adjusting frame 43 Pulley 44 Screw hole 45 Adjustment bolt 46 Screw hole 47 Hexagon screw 48 Positioning plate 50 Hexagon plate hand tool P Screw Q Pierce B bearing