M439119 立、 新型說明: 【新型所屬之技術領域】 本創作係有關一種線性滑塊,尤指__ ::體,使該移動物體沿著線性滑轨移動的線性滑 【先前技術】 習知的線性滑軌及滑塊係為精 中線性滑塊係由一基座、兩二機械構件’其 該基座的底面凹設有叫f生滑:二:數滚珠所組成; 分別… 執槽’執槽的兩侧壁 ::有負何軌道’並於基座鑽設有連通基座兩端的益 心在= 射出成型的結構體,用^ 荷軌道與無負荷執道可透過循環 二==形;一封閉迴路,複數滚珠則排列收納於此 發η常時會與負荷軌道及線性滑執 手不通*會在上相循環器 内儲存的潤滑油使通過循環器的 :,= 潤滑滾珠。 Μ传/占黏,進而預先 時進:二上油槽’只能在滾珠通過 滑,-當滚珠在負荷對=滚珠進行潤 滑:甚至_離或流失,因而恐二;=到:: 為由:線性滑軌與線性滑機常應用於機械結構中,例如作 容的滑執,因此工作環境中的灰塵、鐵屬等異物 透進入負荷執道及滚珠的間隙中,習知線性滑塊的 3 M439119 負荷執道欠缺排除異物的設計,容易致使異物在間隙中磨 損滚珠及負荷軌道等,更甚者可能導致線性滑塊移動時發 生振動、不順暢或卡死等情況。 再者,為了能確保線性滑塊於滑軌上的順暢滑動度, 防止線性滑塊與滑軌接觸面的進塵,先前技術有採用二次 射出成型技術的工藝手段,使循環器底端與滑執之間成型 設有防塵邊條,達到防止循環器内側孔道進塵的作用。但 是,先前技術對於線性滑塊在循環器實施如此精細的設計 ,至使循環器結構甚為複雜,無論在模具精度上的要求, 或是塑料成型的條件控制、繁瑣零件的組裝作業等,均迫 使線性滑塊在整體製程上無法簡化,致令成本亦無法下降 〇 為此,如何提出一種線性滑塊,能夠克服上述諸多的 缺失,即是本創作所要揭露的技術特點。 【新型内容】 本創作之一目的在提供一種線性滑塊,使線性滑塊的 負荷執道兩側一體成型有第一油道,並能於線性滑塊兩端 的包覆體端塊一體成型有連通第一油道的第二油道,進而 達到簡化線性滑塊製程、充分潤滑滾珠,及防止滾珠磨損 等功效。 本創作之另一目的在提供一種線性滑塊,透過線性滑 塊兩端的循環器改良,致使循環器具有消除應力的結構, 以及對應線性滑軌的擋止部,用以防止異物侵入線性滑塊 ,進而確保線性滑塊滑動時的平順穩定功效。 M439119 為達上述目的,本創作之線性滑塊係用於滑動地組合 在一線性滑執上,其較佳實施内容係包含:-基座,兩個 組裝在該基座兩端的猶環器,及收納於該基座與該猶環器 内的複數/袞珠’其令:該基座包含一座體及一體成型地包 覆該座體的包覆體;該座體包含一用於荷重的外露頂面, 及相反於„亥外珞頂面的底面;該底面凹設有一執槽,談 執槽的兩側分別形成至少一負荷執道;該包覆體包含形成 於該座體兩端的端塊,連接於各該端塊之間的連接部,至 少-凹設於各該負荷執道中的第一油道,及至少一凹設於 各該端塊端面的第二油道,並使該第一油道兩端連通於該 第一油道。該循環器包含一内執座及對應組合於該内軌座 的一外執座;該⑽座對應於該外軌座的-面設有一半循 環槽,及對應於該線性滑軌的一邊凹設有一第一槽框;該 外執座對應於該内軌座的一面設有另一半循環槽,及對應 於該線性滑執的-邊凹設有一第二槽框;該内執座的半循 %槽與心卜軌座料循職對合構成—循 :的第:槽框與該外軌座的第二槽框併合成一執框;= 座係剛性塑料體及一軟性塑料體共構組成,該 料體於該第二触周_錢少_用於 的播止部。該複數滾珠被收納於今其w j 乂線性,月軌 Is 4J. ; X 土座的負荷執道及該循 ^ 衣執道’並鄰靠於該負荷軌道中的第一油道,及 抵靠在該線性滑執滾轉移動。 就rSt::滑塊構造設計’只要採用模造成型的製程 4成包覆體的第一及第二油道,而不必對金屬材質的 座體實施鑽孔或切削等加工,因此能達到簡化線性滑塊製 程及降低成本的功效。再者,透過第—及第二油道的結構 ,可使潤滑油進入整排滾珠移動時的負荷執道中,進而達 到充f潤滑的功效。同時,該第一油道的設計亦兼具有逃 屑功月',使不慎進入負荷執道的異物,能透過滚珠的滚動 而躲入第-油道中,達到防止異物干涉滾珠順暢滚動的功 效0 【實施方式】 錄依附圖實施例將本創作之結構特徵及其他之作用、 目的詳細說明如下: 參閱第-及第二圖所示,本創作之線性滑塊1〇係用於 滑動地組裝在-線性滑轨2〇上,能夠負載其他物體沿著線 性滑執20滑動的組件,其較佳的實施例包含一基座丄、兩 個循環器2及複數滾珠3,其中·· 一併參閱第二至第四圖所示,該基座丄係為鞍型塊體 ,其包含一座體π及一體成型地包覆住座體u的包覆體12 。再參閱第五圖所示,該座體丨丨具有一用於荷重(負載其 他物體)並露出包覆體12的外露頂面1U,及一相反於外露 頂面111的底面112’底面Π2凹設有一連通到座體η兩端的 軌槽113,軌槽113的兩側分別形成至少一連通到座體1丨兩 端的負荷執道114。參閱第四、第六及第七圖所示,該包覆 體12係採用塑料或其他材質模造成型的結合於座體n,其 具有形成於座體II兩端的端塊121,連接於各端塊121之間 的連接部122,至少一凹設於各負荷執道114中的第一油道 M439119 123,及至少一凹設於各端塊121對應循環器2的端面的第 二油道124,並使第一油道123兩端通過端塊121而連通於第 二油道124,因此使注人到第二油道124中的潤滑油能再流 通到第一油道12 3中。 再參閱第二、第四及第六圖所示,上述該包覆體12更 一體成型有連通於兩端塊121的無負荷轨道125,使無負荷 執道125的兩端分別通過循環器2連通於上述的負荷執道 .114。其中,較佳的實施例可在該座體11的兩側分別設有一 φ 凹槽115,進而使無負荷軌道125形成為位於凹槽115的通孔 。另者,上述該座體11亦可設有連通兩端的貫穿孔116,進 而使無負%執道125形成位於貫穿孔116中的通孔。因此當 負荷執道114及無負荷執道125内填充複數滾珠3時,就能 透過兩女而的循環益2產生在負荷執道114與無負荷軌道125 内滾動及循環移動的功能。再參閱第六及第十四圖所示, 本創作該座體11的兩側可設有至少一連通到軌槽113的嵌 孔117,因此當射出成型該包覆體12時,可形成結合在嵌孔 參U7中的拉錨129,達到包覆體12與座體11穩固結合成一體 的功能。 一併參閱第一、第八及第九圖所示,該循環器2係組 合在座體1的兩端,用以連通上述基座1的負荷執道114 及無負荷執道125兩端。再一併參閱第十及第十一圖所示, 該循環器2包含一内執座21及對應組合於内軌座21的一外 轨座22。該内執座21對應於外執座22的一面設有一半循環 槽211 ’使半循環槽211的兩端連通到内執座21的另一面, 7 M439119 並在相對該半循環槽211的另一面凸設有銜接在半循環槽 211的銜接凸塊213,該内軌座21對應於線性滑執2〇的一邊 並凹設有一第一槽框212。該外轨座22對應於内執座21的一 面設有另一半循環槽2 21,並於對應線性滑軌2 〇的一邊凹設 有一第一槽框222。藉此當内轨座21與外軌座22對應組合時 ,使内執座21的半循環槽211與外轨座22的半循環槽221對 合構成一完整的半環形循環執道23,用以透過銜接凸塊213 連接到負荷轨道114與無負荷執道125,使銜接凸塊213具有 導引滾珠3通過的功能,因此能使滾珠3在循環過程中運 轉流暢’並減少因組裝間隙所產生的異音;而上述該内軌 座21的第一槽框212與外軌座22的第二槽框222係併合成一 匹配線性滑軌20的執框24,用以匹配於線性滑軌20。再者 ,一併參閱第十二及第十三圖所示,本創作該外軌座22係 一剛性塑料體223及一軟性塑料體224採二次射出成型技術 共構組成,亦即第一次先射出成型一剛性塑料體223,再第 二次射出成型一軟性塑料體224包覆於剛性塑料體223 ;而 且進行射出成型該軟性塑料體224時,可同時於第二槽框 222周圍形成至少一用於抵靠在線性滑轨20的擋止部25,該 擋止部25係對應線性滑軌20的軟性框條。 參閱第二及第十四圖所示,該複數滾珠3係被收納於 基座1的負荷軌道I14、無負荷執道125及循環器2的循環 軌道23之中,使滾動進入負荷軌道114的各滾珠3鄰靠於負 荷軌道1H中的第-油道123,用以沾到第一油道123中的潤 滑油,並能分別抵靠在線性滑軌20滚轉移動,進而使性滑 M439119 塊10能沿著線性滑軌20滑動。 再一併參閱第三及第四圖所示,本創作上述該包覆體 12包含有至少一第三油道126,使第三油道126連通於各蠕 塊121端面的第二油道124,因此使潤滑油能通過第三油道 126流通於兩端第二油道124。再參閱第八圖所示,本創作 上述該包覆體12的端塊121的端面具有複數根用以、纟士人 環器2的結合柱127’並於循環H 2表㈣設有複數個對應 結合柱127的結合孔26 ’因此能利用熱壓塑膠結合柱127的M439119 Vertical, new description: [New technical field] This is a linear slider, especially __:, which makes the moving object move linearly along the linear slide. [Prior Art] The linear slide and the slider are the fine linear sliders. The base is composed of a base and two mechanical members. The bottom surface of the base is concavely composed of two slides: two: several balls; respectively... The two side walls of the trough:: there is a negative orbital 'and the core is connected to the susceptor at the two ends of the pedestal. The injection molded structure is used, and the rail is loaded with no load and the loop is traversable. Shape; a closed loop, the plurality of balls are arranged to be accommodated in this hair. η often will not communicate with the load track and the linear slipper. * The lubricating oil stored in the upper phase circulator passes through the circulator: == lubricates the ball. Rumors / occupies the viscosity, and then advance in time: the second oil tank 'can only slide through the ball, - when the ball is in the load pair = the ball is lubricated: even _ away or lost, so fear two; = to:: Linear slides and linear slides are often used in mechanical structures, such as the slippery movement of the workpiece. Therefore, foreign matter such as dust and iron in the working environment penetrates into the gap between the load and the ball, and the conventional linear slider 3 M439119 The design of the load obstruction lacks foreign matter, which may cause foreign matter to wear balls and load rails in the gap, and may cause vibration, unsmoothness or seizure when the linear slider moves. Furthermore, in order to ensure the smooth sliding of the linear slider on the slide rail and prevent the dust from contacting the linear slider and the rail contact surface, the prior art has a process of using a secondary injection molding technique to make the bottom end of the circulator A dust-proof edge strip is formed between the sliding handles to prevent dust from entering the inner channel of the circulator. However, the prior art implements such a fine design for the linear slider in the circulator, so that the structure of the circulator is very complicated, regardless of the requirements of the precision of the mold, or the condition control of the plastic molding, the assembly work of the cumbersome parts, etc. Forcing the linear slider to be simplified in the overall process, so that the cost can not be reduced. To this end, how to propose a linear slider can overcome many of the above-mentioned shortcomings, which is the technical feature to be revealed in this creation. [New content] One of the purposes of this creation is to provide a linear slider, which has a first oil passage integrally formed on both sides of the load rail of the linear slider, and can be integrally formed at the end of the covering body at both ends of the linear slider. The second oil passage of the first oil passage is connected, thereby achieving the functions of simplifying the linear slider process, sufficiently lubricating the balls, and preventing the balls from being worn. Another object of the present invention is to provide a linear slider that is modified by a circulator at both ends of the linear slider to cause the circulator to have a stress-relieving structure and a stopper corresponding to the linear slide to prevent foreign matter from intruding into the linear slider. , in turn, to ensure smooth and stable performance when the linear slider slides. M439119 For the above purpose, the linear slider of the present invention is used for sliding combination on a linear slider, and the preferred embodiment thereof comprises: a base, two juxtas assembled at both ends of the base, And a plurality of beads disposed in the base and the circulator; the base includes a body and a covering body integrally covering the base; the base includes a load for loading The exposed top surface, and opposite to the bottom surface of the outer surface of the outer surface; the bottom surface is concavely provided with a groove, and at least one load is formed on each side of the groove; the cover body is formed at two ends of the body The end block is connected to the connecting portion between the end blocks, at least - a first oil passage recessed in each load channel, and at least one second oil passage recessed in an end surface of each end block, and The first oil passage is connected to the first oil passage at both ends. The circulator includes an inner seat and an outer seat corresponding to the inner rail seat; the (10) seat corresponds to the outer rail seat a semi-circular groove, and a first groove frame corresponding to one side of the linear slide; the outer seat corresponds to One side of the inner rail seat is provided with another semi-circulating groove, and a second trough is provided corresponding to the linear sliding-edge recess; the semi-circular slot of the inner bracket is matched with the heart-and-slide material Constituting the following: the: the trough frame and the second trough frame of the outer rail seat and synthesizing a frame; = the seat rigid plastic body and a soft plastic body co-construction, the material body in the second touch week_money Less _ used in the broadcast section. The plural ball is stored in the current wj 乂 linear, the monthly track Is 4J.; X earth's load command and the road lanes 'and adjacent to the load track The first oil passage, and the rolling movement against the linear sliding. The rSt:: slider structure design 'as long as the mold-forming process 4 is used to cover the first and second oil passages of the cladding, without having to be metal The material of the material is drilled or cut, which can simplify the linear slider process and reduce the cost. Moreover, through the structure of the first and second oil passages, the lubricating oil can enter the entire row of balls. The load is in the way of the road, and then the lubrication effect is achieved. At the same time, the design of the first oil passage also has the fleece Month', the foreign matter that accidentally enters the load, can escape into the first oil passage through the rolling of the ball, and achieve the effect of preventing the foreign matter from interfering with the smooth rolling of the ball. [Embodiment] Recording the creation according to the embodiment of the drawings The structural features and other functions and purposes are detailed as follows: Referring to the first and second figures, the linear slider 1 of the present invention is used for sliding assembly on the linear slide 2〇, capable of supporting other objects. The preferred embodiment of the assembly sliding along the linear slide 20 comprises a base cymbal, two circulators 2 and a plurality of balls 3, wherein the pedestal is shown in the second to fourth figures. The lanthanum is a saddle block, which comprises a body π and a covering body 12 integrally covering the seat body u. Referring to the fifth figure, the body 丨丨 has a load for loading (loading other The object) is exposed to the exposed top surface 1U of the covering body 12, and a bottom surface 112 opposite to the bottom surface 112' of the exposed top surface 111 is recessed with a rail groove 113 connected to both ends of the housing body n, and the two sides of the rail groove 113 are respectively At least one load lane 114 connected to both ends of the seat body 1 is formed. Referring to the fourth, sixth and seventh figures, the covering body 12 is bonded to the seat body n by a plastic or other material, and has an end block 121 formed at both ends of the seat body II, which is connected to each end. The connecting portion 122 between the blocks 121 has at least one first oil passage M439119 123 recessed in each load channel 114, and at least one second oil passage 124 recessed in each end block 121 corresponding to the end surface of the circulator 2 And the two ends of the first oil passage 123 are communicated to the second oil passage 124 through the end block 121, so that the lubricating oil injected into the second oil passage 124 can be recirculated into the first oil passage 123. Referring to the second, fourth and sixth figures, the cover body 12 is further integrally formed with a load-free rail 125 connected to the two end blocks 121, so that both ends of the no-load obstruction 125 pass through the circulator 2 respectively. Connected to the above load on the road. 114. In the preferred embodiment, a φ groove 115 is respectively disposed on both sides of the seat body 11, so that the unloaded track 125 is formed as a through hole in the groove 115. In addition, the seat body 11 may be provided with through holes 116 communicating with both ends, so that the non-negative channel 125 forms a through hole in the through hole 116. Therefore, when the load ball 114 and the no-load track 125 are filled with the plurality of balls 3, the function of rolling and circulating in the load channel 114 and the unloaded track 125 can be generated by the cycle benefit 2 of the two women. Referring to the sixth and the fourteenth drawings, the two sides of the body 11 can be provided with at least one through hole 117 connected to the rail groove 113. Therefore, when the package body 12 is injection molded, a combination can be formed. The pull anchor 129 in the insert hole U7 achieves the function of firmly integrating the cover body 12 and the seat body 11. Referring to the first, eighth and ninth drawings, the circulator 2 is assembled at both ends of the base 1 for communicating the load ramp 114 of the base 1 and the ends of the no-load ramp 125. Referring again to the tenth and eleventh figures, the circulator 2 includes an inner seat 21 and an outer rail seat 22 corresponding to the inner rail base 21. The inner holder 21 is provided with one half of the circulation groove 211' corresponding to one side of the outer holder 22, so that both ends of the semi-circulation groove 211 are communicated to the other side of the inner holder 21, 7 M439119 and another opposite to the semi-circular groove 211 An engaging projection 213 is formed on one side of the semi-circulating groove 211. The inner rail seat 21 corresponds to one side of the linear sliding slot 2 and is recessed with a first slot 212. The outer rail seat 22 is provided with another semi-circular groove 2 21 corresponding to one side of the inner base 21, and a first groove frame 222 is recessed on one side of the corresponding linear slide 2 〇. Therefore, when the inner rail seat 21 and the outer rail seat 22 are combined, the semi-circulating groove 211 of the inner seat 21 and the semi-circulating groove 221 of the outer rail seat 22 are combined to form a complete semi-circular circulation path 23, The connecting bumps 213 are connected to the load rails 114 and the no-load rails 125, so that the engaging bumps 213 have the function of guiding the balls 3 to pass, thereby enabling the balls 3 to run smoothly during the cycle and reducing the assembly gap. The first slot 212 of the inner rail mount 21 and the second slot 222 of the outer rail mount 22 are combined to form a frame 24 matching the linear slide rail 20 for matching with the linear slide rail 20 . Furthermore, as shown in the twelfth and thirteenth drawings, the outer rail seat 22 is a rigid plastic body 223 and a soft plastic body 224 which are combined by a secondary injection molding technique, that is, the first A rigid plastic body 223 is first formed by injection molding, and a soft plastic body 224 is coated on the rigid plastic body 223 by a second injection molding; and when the flexible plastic body 224 is injection molded, it can be formed around the second groove frame 222 at the same time. At least one of the stop portions 25 for abutting against the linear slide rail 20 corresponds to the soft frame strip of the linear slide rail 20. Referring to the second and fourteenth drawings, the plurality of balls 3 are housed in the load rail I14 of the susceptor 1, the unloaded road 125, and the circulation track 23 of the circulator 2, so as to roll into the load rail 114. Each of the balls 3 abuts against the first oil passage 123 in the load rail 1H for sucking the lubricating oil in the first oil passage 123, and can respectively move against the linear slide rail 20, thereby making the slippery M439119 Block 10 can slide along linear slide 20. Referring to the third and fourth figures, the present invention 12 includes at least one third oil passage 126 for communicating the third oil passage 126 to the second oil passage 124 of the end surface of each of the creeping blocks 121. Therefore, the lubricating oil can be circulated through the third oil passage 126 to the second oil passages 124 at both ends. Referring to the eighth embodiment, the end surface of the end block 121 of the present invention 12 has a plurality of coupling posts 127' for the gentleman ringer 2 and a plurality of cycles H 2 (4). The coupling hole 26 ′ corresponding to the binding post 127 can thus be bonded to the column 127 by thermocompression bonding
方式,使結合柱U7扣住循環器2的結合㈣(如第八圖所 =之^),進而使循環器2組合在基座^兩端。•閱 第二^九騎示’亦可在該結合柱127的柱端設有一鎖孔 128,俾利用-固定元件27穿過循環器2 於結合柱1.27的鎖孔128,進 :°孔26並鎖& 媳。 運而使錢盗2組合在基座工兩 麥閲第二圖所示 上述第二油道124的注油孔28,方彳 連I ; 以及第-油道123。另外1 =填充潤滑油到第二油道 體223係射出成型具有多數條等寬相=執座22的剛性塑料 肋條間形成有用以提供魏_體2 =肋條結構,並於 的嵌槽結構,如此能利用剛性塑料體2 f、结合在一起 結構,達到防止應力不均的功效。 寬相連接的肋條 藉由本創作線性滑塊的 計,因此只要採用模造成型 一油道123及第二油道丨24, 包覆體12結合座體U的結構設 的製程就能形成包覆體匕的第 而不必為了油道結構而對金屬 9 M439119 材質的座體11實施鑽减切,加工,因此能達到簡化線 性滑塊製程及降低成本的功效。其次,透過第—油道η] 及第二油道124的結構,可使潤滑油進人整排滾珠3移動時 的負荷執道114巾’進而達到充分潤滑的功效。又,本創作 該第一油道123的設計亦兼具有逃屑功能,能使不慎進入負 荷執道114的異物,透過滾珠3的滾動而落入第_;油道us 中’進而達到防止異物干涉滾珠3以確保滾珠3順二 的功效。再者’本創作透過基座丄兩端的循環器2結構改 良’致使循環器2外軌座22採用剛性塑料體223及軟性塑料 體224二次射出成型技術,且剛性塑料體223為多數條等寬 相連接的肋條構成,因此使其具有消除應力的結構。另外 ’猶環器2的外軌座22可在二次射出成型時,—併射出對 應線性滑軌20的擋止部25,用以貼靠在線性滑軌2〇表面, P方止異物侵人線性滑獅,進而達到確保本創作祕滑塊 滑動時的平順穩定等功效。 综上所述’本創作線性滑塊,已確具實用性與創作性 ’其技術手段之運用亦出於新穎無疑,且功效與設計目的 符合,已稱合理進步至明。為此,依法提出新型專利 清’惟懇請鈞局惠予詳審’並賜准專利為禱,至感德 【圖式簡單說明】 第一圖為本創作線性滑塊與線性滑執分解立體示意圖 〇 第二圖為本創作線性滑塊之分解立體示意圖。 第二圖為本創作基座之立體示意圖。 第四圖為本創作基座之端面示意圖。 第五圖為本創作座體之立體示意圖。 第六圖為本創作包覆體與基座組合結構之局部剖面示 意圖。 第七圖為本創作包覆體與基座組合結構之立體剖面示 第八圖為本㈣結合餘合《ϋ之局部剖面示意圖 —〇 之局部剖面示意圖 弟九圖為本創作結合柱組合循環器 第十圖為本創作循環器第一 第十一圖為本創作循環器第 視角之分解立體示意圖。 一視角之分解立體示意圖 第十二圖為本創作外執座第一 視角之分解立體示意圖In a manner, the binding post U7 is fastened to the combination (4) of the circulator 2 (as shown in the eighth figure), and the circulator 2 is combined at both ends of the susceptor. • The second leg can also be provided with a locking hole 128 at the column end of the binding post 127, and the shackle 2 is passed through the circulator 2 to the locking hole 128 of the binding column 1.27. And lock & 媳. The money pirate 2 is combined in the pedestal work. The oil filling hole 28 of the second oil passage 124 shown in the second figure is shown in Fig. 2; and the first oil passage 123. In addition, 1 = filling lubricating oil to the second oil passage body 223 is formed by forming a plurality of equal width phases = rigid plastic ribs of the seat 22 to form a groove structure for providing a Wei-body 2 = rib structure, In this way, the rigid plastic body 2f can be utilized and the structure can be combined to achieve the effect of preventing stress unevenness. The wide-angle connecting ribs are calculated by the linear slider of the present invention. Therefore, as long as the mold-forming one oil passage 123 and the second oil passage 丨24 are used, the coating body 12 can be combined with the structure of the seat body U to form the covering body. In the meantime, it is not necessary to perform the cutting, cutting and machining of the metal 11 M439119 material body 11 for the oil passage structure, thereby achieving the effect of simplifying the linear slider process and reducing the cost. Secondly, through the structure of the first oil passage η] and the second oil passage 124, the lubricating oil can be introduced into the load of the entire row of balls 3, thereby achieving sufficient lubrication. Moreover, the design of the first oil passage 123 of the present invention also has an escape function, and the foreign matter that inadvertently enters the load passage 114 can fall into the _ through the rolling of the ball 3; Prevent foreign matter from interfering with the ball 3 to ensure the smoothness of the ball 3. Furthermore, the present invention is improved in the structure of the circulator 2 at both ends of the susceptor, so that the circulator 2 outer rail seat 22 is formed by a rigid plastic body 223 and a soft plastic body 224, and the rigid plastic body 223 is a plurality of strips. The ribs are connected in a wide phase, so that they have a stress-relieving structure. In addition, the outer rail seat 22 of the looper 2 can be used in the second injection molding, and the stopper portion 25 corresponding to the linear slide rail 20 is injected to abut against the surface of the linear slide rail 2, and the P side stops the foreign matter invasion. The human linear lion dance, in order to ensure the smoothness and stability of the sliding slider of this creation. In summary, the linear slider of this creation has been practical and creative. The use of its technical means is also novel and undoubted, and its efficacy is consistent with the purpose of design. It has been said to be reasonably progressive. To this end, the new patent is proposed in accordance with the law, but the 钧 惠 惠 详 详 详 详 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并The second figure is an exploded perspective view of the linear slider of the creation. The second figure is a three-dimensional schematic diagram of the creation base. The fourth picture is a schematic view of the end face of the creation base. The fifth picture is a three-dimensional diagram of the creative seat. The sixth figure is a partial cross-sectional view of the combined structure of the enveloping body and the base. The seventh figure is a three-dimensional cross-section of the combined structure of the enveloping body and the pedestal. The eighth figure is the same. (4) The combination of the remnant and the 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 局部 弟 弟The tenth figure is the first eleventh figure of the creation circulator, which is an exploded perspective view of the first viewing angle of the creation circulator. An exploded perspective view of a viewing angle. The twelfth figure is an exploded perspective view of the first perspective of the externally executed object.
M439119 【主要元件符號說明】 10 線性滑塊 20 線性滑執 1 基座 11 座體 111 外露頂面 112 底面 113 執槽 114 負荷軌道 115 凹槽 116 貫穿孔 1Π 後孔 12 包覆體 121 端塊 122 連接部 123 第一油道 124 第二油道 125 無負荷軌道 126 第三油道 127 結合柱 128 鎖孔 129 拉錫 2 循環器 21 内軌座 211 半循環槽 212 第一槽框 213 銜接凸塊 22 外執座 221 半循環槽 222 第二槽框 223 剛性塑料 224 軟性塑料體 23 循環軌道 24 執框 25 擋止部 26 結合孔 27 固定元件 28 注油孑L 3 滾珠 12M439119 [Description of main components] 10 Linear slider 20 Linear slider 1 Base 11 Seat 111 Exposed top surface 112 bottom surface 113 Slot 114 Load rail 115 Groove 116 Through hole 1 Π Rear hole 12 Wrap body 121 End block 122 Connecting portion 123 First oil passage 124 Second oil passage 125 No load rail 126 Third oil passage 127 Bonding column 128 Locking hole 129 Pulling tin 2 Circulator 21 Inner rail seat 211 Semi-circulating groove 212 First groove frame 213 Connecting projection 22 Outer seat 221 Semi-circular groove 222 Second frame 223 Rigid plastic 224 Flexible plastic body 23 Cyclic track 24 Frame 25 Stopper 26 Bonding hole 27 Fixing element 28 Oil filling 孑L 3 Ball 12