1359062 六、發明說明: 【發明所屬之技術領域】 曰本發明係與滑桿結構有關,尤指—種滑桿結構之 '桿係設有限位件、彈性元件及珠體相配合控制,使施 •於本體上㈣料致脫出,該結構錢本體與施力二 相組設或分離。 【先前技術】 按吾人先前所知,習用之滑桿結構或有稱之τ > 了桿’如第三十一圖之前視圖所示’第三十二三: :圖之Ε-Ε處放大圖,其係包括:-本體(61)、一 施力桿(62)及二珠體(6 3),其中; 产該本體(61)係為具適當長度之 干杜’體(6 1 ) -端係設有驅動部(6工工),該驅 動部(6 1 1 )係為萬向接頭結構,驅動部(6工工了可 之’本體(61)另端部係設有貫穿之容桿 1 —施力桿(62),該施力桿(62)係穿設於本體 6 1 )之谷桿孔(6工2)内,該施力桿⑶u係可 於本版(6 1)上左右位移之,施力桿(6 2)與本體(6 i)係呈相互垂直,施力桿(6 2)兩端係設有限位孔(6 2 1); 一珠虹(6 3 ),該二珠體(6 3 )係分別固設於二 限位孔(6 2 1 )’該珠體(6 3 )部份係凸露於限位孔 6 2 1 )外’ δ亥珠體(6 3 )容設於限位孔(6 2) 3 1359062 f »亥限位孔(6 2工)開口處係受壓而漸縮,一般係有 用機械操作壓追’使該珠體(6 3)卡固於限位孔(6 2 1 )内。 該習用轉結構之優點係在於: „、邊%力桿(6 2 )係可於本體('6 1 )上左右位移之, =调整本體(6 1 )兩側力臂之長短距離,該施力桿(6 τ碟:側之限位孔(6 2 1 )内所容設的珠體(6 3 )係 =避免施力桿(62)於位移時不慎與本體(61) 開。 但習用滑桿結構之缺失係在於: 的珠? 2 )二側之限位孔(6 2 1)内所容設 於W係為固定結構’珠體(6 3)係無法控制 體:6 i ) L2 ί i處=或縮入’施力桿(6 2 )與本 S目、、且°又後係無法再相分離,施力桿(6 2 ) =法更換不同樣態之本體(⑴的驅動部(611) 本發明人有财上㈣習㈣桿結叙 =桿之製造經驗,幾經多次之試作經驗,终獲有本^ f發明内容】 位件本結=:- :時不致脫出’該結構亦使本趙與施力桿間;相組二: 4 1359062 具體而言,本發明係關於一種滑桿結構,其係包括: 一本體係設有橫向貫穿之容桿孔;一施力桿係穿設於容桿 孔内,該施力桿至少一端設有控制孔,該施力桿同控制孔 . 端係設有限位孔;至少一限位件係容設於控制孔内,該桿 體係設有第一容槽及第二容槽,該第二容槽深度係大於第 一容槽而形成階級狀,該第一容槽及第二容槽間係相連 通;至少一彈性元件一端係抵於限位件上,而另端係抵於 ·. 控制孔處;至少一珠體係容設於限位孔處,當限位件於第 • 一位置,該限位孔與第一容槽位置相對正,因第一容槽係 為較淺深度之槽體,該珠體係抵於第一容槽上而凸露於限 位孔外而具限位功效,當控制限位件作動,該限位孔與第 二容槽位置相對正,珠體係容設於第二容槽處而沒入限位 孔内。 本發明之其它目的係在於:該限位件及彈性元件係相 配合組設於施力桿之控制孔内,藉以控制限位孔處之珠體 沒入或凸出,當施力桿於本體上左右位移之,調整該本體 Λ 胃 二側之力臂長短距離,該凸出之珠體係可避免施力桿不小 心滑脫出本體外,當施力桿欲更換不同驅動部樣態之本體 時,該限位件係可控制珠體沒入,而使該施力桿與本體間 可相組設或分離之,該數支不同樣態之本體係可共用一施 力桿。 為使 鈞局委員及熟習此項技藝人士對本發明之功 效完全瞭解,茲配合圖式及圖號就本發明之結構、組成說 明於後,惟以下所述者僅為用來解釋本發明之實施例,並 5 1359062 非止圖據以對本發明做任何形气上 發明之精神下,所作的任何修^變艮制,是以凡是在本 保護範圍。 支更皆仍應屬於本發明之 【實施方式】 首先請參閱第一圖及第二圖 ^ 之分解圖及組合圖,本發明係 仏本發明滑桿結構 括:一本體U0)、-施力椁滑桿結構,其係包 〇)、至少-彈性元件(40)及至小、至少-限位件(3 中; 至夕—珠體(5 0),其 桿二該本體(1〇)係為具適當長度之 二人 係設有驅動部(11),該驅動 邓(1 1 )係為萬向接頭結構,节 、 合她區動之,太…η 部(1 1 )係可套 本體(1〇)另端部係設有橫向貫穿之容 :施力桿(2 0),該施力桿(2〇)係穿設於本體 二( 1 2 )内,該施力桿於本 脰((^5)上左右位移之,施力桿之中心轴)係盥 本版(1 0)之中心軸呈相互垂直,該施力桿(2 〇)至 少一端設有軸向開口之控制孔(2丄),控制孔(2 1 ) 内係設有直徑較小之容桿槽(2^ 2 ),該容桿槽(2工 1 )係具較長深度,該控制孔(2 1 )與容桿槽(2 1 1 ) 間因直徑差而形成階級部(2丄2 ),該施力桿(2 〇 ) 同控制孔(2 1 )端係設有限位孔(2 2 ),該施力椁(& 6 n t端均係設有限位孔(2 2),該每—限位孔(2 2) :母·;容桿槽(2 1 1)呈垂直相通狀,限位孔(22) %力杯(2 ◦)端部之距離係、大於或等於容桿孔(1 2 ) 處頭部之直徑_ ; 至少-限位件(3〇),該限位件(3〇)之數目係 桿(2 0)之限位孔(21)之數目,該限位件 之數目係為二個’該每—限位件(3 0)係分別 控制孔(21)内,且限位件(3〇)係隱沒 =二(221)内’該晴(3〇)端部係與施力 #(20)端部呈齊平狀,該限位件(3q)係設有一直 徑較;|、之桿體(31),該桿體(31)係配合容桿槽(2 1 1古直偟相容設’該限位件(3 0 )與桿體(3 !)間 — 珉抵邛(3 2 ) ’該桿體(3 1 )係設 有第一谷槽 及弟二谷奴(34),該第二容槽(3 4)深度係大於第一交描 + 夺4日(3 3)而形成階級狀,該第一 — —备乜(3 4)係位於同一平面,該第 一谷槽(33)及笫-六祕/0 1、 弟一谷槽(3 4)間係斜面狀相連通, 該限位件(3 0 )係可妖, — ,、了於彳工制孔(2 1 )内移位,使該第 一谷槽(33)及第 今槽(3 4)於移位時係分別與限 位孔(2 2)相對正. 至乂彈&元件(4 0 ) ’該彈性元件(4 〇 )數目 係配合限位件(3 D、4· a 、d 0 )相套設,彈性元件(4 〇 )之數目 係為二個,母-彈性元件(4 Q)係套設於限位 之桿體(3 1)上,兮確k —从,z ’ 邊弹性兀件(4 〇) —端係抵於限位 1359062 件^ 3 〇 )之抵部(3 2)而另端係抵於施力桿(2 Ο ) 之控制孔(2 1 )之階級部(2 1 2 )上. 至少一珠體(5 0 ),該珠體(s π /紅 位孔(2 2)相容設,該珠體(5 ^數目係配合限 該珠體係容設於限位孔(2〇2)^ 〇 ^ 處,當限位件(3 〇 )於弟一位置,該限位孔(22)與 位置相對正,因苐一容槽(3 3)為 曰 r π: n n ^ 0 j知為較淺深度之槽體, 忒珠肢(5 0 )係抵於第一容槽(? q r 9 9 . L a 〜l d 3 )上而凸露於限位 =2 2 )外而具限位功效’當控制限位件(3 〇 )作動, 作動之動作係為於控制孔(2丄)往内 該限位孔(2 2 )盥第-宏粬r q λ 币仪置 …η、 弟一令槽(3 4)位置相對正,該珠 =5 0)係容設於第二容槽(3 4)處而沒入限位孔 Z )内。 請繼續參閱第三圖所示,係為本發明滑桿結構之上視 圖’言二第四圖係為第三圖之A — A處剖視圖,第五圖係為 弟四圖之B處放大圖,該施力桿(2 Q )係容設於本體(1 f )之奋才干孔(1 2 )内,該每一限位件(3 〇 )係分別 2於每-控制孔(21)^該桿體(31)係容設於 ^干槽(2 1 1)處’該每i性元件(4 Q )係套設於 母一限位#(30)之桿體(31)上且位於控制孔(2 1 )處,。該每一珠體(5 〇 )係容設於每一限位孔(2 2 ) 處’當彈性兀件(4 0 )未受壓縮,言亥第-容槽(3 3 ) ,與限位孔(2 2)位置相對正,該珠體(5 〇)係抵於 第♦槽(3 3)處,因第一容槽(3 3)係為較淺深度 8 1359062 之槽體,該珠體(5 0)部份係凸露於限位孔(2 2)外, 該本體(1 0)於滑移時即受於珠體(5 〇)而具限位功 效。 請繼續參閱第六圖所示,係為本發明第一組合位置之 A:A處剖視圖’第七圖係為第六圖之㈣放大圖,當組 m 9 h ί ) 人本體(1 Q )之容桿 ,時施力桿(2 0)該端處所容設之珠體 (5 0)係凸露於限位孔(2 2)外,將施力桿(2 二端:處之限位件(3 0)推愿入,該彈性元件(40) 縮,限位件(3〇)位移,該第 =孔(22)位置相對正,該珠體(5〇):二: 弟—谷槽(3 4 )處而沒於限位孔(2 2 )内,該本雕^ 〇)係可移位進入施力桿(2 Λ ^ ( 1 動作,&圍内’而完成組合之 組合位置之A〜A處剖視圖,反立 :作。)欲移出施力桿(20)範圍時亦為相同之 该施力桿(2 〇)係可於本體 。内左右位移之,藉以調整該本體心=:(1 距離’該施力桿(2 〇 )私 1 = 係可避免施力桿(2())於位 朱广(50) 開本體(10)的容設,而一般而‘2力幹(20)脫 t::::1)’驅動部.(⑴之結二= 種之夕’當施力桿(2〇)欲 ]有數 刼作者係可壓抵限位件( 體(1 0), 0 )该弹性元件(4 〇)係 9 1359062 叉壓縮而使珠體(5 〇)沒入限位孔(2 2)内,該施力 才于(2 0 )即可脫開本體(丄〇 )的容設後,該施力桿(2 0)再與另一不同驅動部(11)樣態的本體(1〇)相 組設,亦言之不同樣態之本體(1〇)可共用一施力桿(2 〇),而減少施力桿(20)之支數係本發明之主要結構 優點所在。 請繼續參閱第九圖所示,係本發明第二實施例之分解 圖’該實施例中’ 1亥施力桿(2 ◦)-端之限位孔(2 2) 係容設有限位件(3 0)、彈性元件(4 0)及珠體(5 〇)’而另一限位孔(2 2)係固設一珠體(5 0),固設 結構仏與m十—圖相同,該滑桿結構僅具—端 供控制脫開。 。月繼績參閱第十圖所示,係為本發明第三實施例之a 剖視圖’該實施例中,該限位件(3◦)係為較長 = 31)’該桿體(31)二端處皆設有第一容槽1359062 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a sliding rod structure, in particular to a type of sliding rod structure in which a rod is provided with a limiting member, an elastic member and a bead body to control the application. • On the body (4), the material is released, and the structure body is combined with the two phases of force application. [Prior Art] As we have previously known, the conventional slider structure or the so-called τ > rod 'as shown in the previous view of the thirty-first figure 'Thirty-two three:: Figure Ε - Ε zoom The figure comprises: a body (61), a force applying rod (62) and a double bead body (63), wherein the body (61) is produced as a dry length body (6 1 ) having an appropriate length. - The end is provided with a drive unit (6 workers), the drive unit (6 1 1) is a universal joint structure, and the drive unit (6 work can be used) a lever 1 - a urging rod (62), the urging rod (62) is disposed in a trough hole (6 gong 2) of the body 6 1 ), and the urging rod (3) u can be used on the version (6 1) For the left and right displacement, the force applying rod (6 2) and the body (6 i) are perpendicular to each other, and the end of the force applying rod (6 2) is provided with a limiting hole (6 2 1); a bead rainbow (6 3 ), The two beads (63) are respectively fixed in the two limiting holes (6 2 1 )', and the beads (63) are partially exposed to the limiting holes 6 2 1 ). 6 3 ) Capacitor in the limit hole (6 2) 3 1359062 f »Hat limit hole (6 2 work) is pressed and tapered Generally tied with mechanical pressing operation to recover 'so that the bead (63) fastened to the limiting hole (621) therein. The advantages of the conventional transfer structure are: „, the edge % force bar (6 2 ) can be displaced left and right on the body ('6 1 ), = adjust the length and length of the force arms on both sides of the body (6 1 ), the force applied Rod (6 τ disc: the bead body (6 3 ) contained in the limit hole (6 2 1 ) on the side = avoid the force lever (62) from inadvertently opening with the body (61) when shifting. The missing structure of the slider is: the bead? 2) The two-side limit hole (6 2 1) is accommodated in the W system as a fixed structure 'bead body (6 3) is unable to control the body: 6 i ) L2 ί i = or retracted 'the force bar (6 2 ) and the S mesh, and ° and then can not be separated again, the force bar (6 2) = method to replace the body of the same state ((1) drive Department (611) The inventor has the experience of manufacturing (four) Xi (four) rods and knots = the manufacturing experience of the rod, after several trials and trials experience, the final content of this ^ f invention] bit pieces this knot =: - : when not out 'The structure also makes Ben Zhao and the force bar; phase group two: 4 1359062 Specifically, the present invention relates to a slider structure, which comprises: a system with a transversely penetrating rod hole; The force rod is inserted into the hole of the rod The at least one end of the urging rod is provided with a control hole, and the urging rod is opposite to the control hole. The end is provided with a limiting hole; at least one limiting member is accommodated in the control hole, and the rod system is provided with the first receiving groove and the second receiving body a groove, the second groove depth is greater than the first groove to form a class, and the first groove and the second groove are in communication; at least one elastic member has one end against the limiting member, and the other end Corresponding to the control hole; at least one bead system is accommodated in the limiting hole, and when the limiting member is at the first position, the limiting hole is opposite to the position of the first receiving groove, because the first receiving groove is The shallower depth of the groove body, the bead system is opposite to the first receiving groove and protrudes outside the limiting hole to have a limiting effect. When the control limiting member is actuated, the limiting hole is opposite to the second receiving groove. The bead system is disposed in the second cavity and is not in the limiting hole. The other object of the present invention is that the limiting component and the elastic component are matched and arranged in the control hole of the force applying rod, thereby The beads at the control limit hole are immersed or protruded, and when the force applying rod is displaced to the left and right on the body, the body is adjusted to the stomach The length of the arm is long and short. The protruding bead system can prevent the force-applying rod from slipping out of the body. When the force-applying rod is to replace the body of different driving parts, the limiting piece can control the bead body. If the plunging is made, the urging rod and the body can be assembled or separated, and the system of the plurality of different states can share a force applying rod. In order to enable the member of the squad and the skilled person to use the effect of the invention. It is to be understood that the structure and composition of the present invention are described in conjunction with the drawings and drawings, and the following description is only for explaining the embodiments of the present invention, and 5 1359062 is not limited to the invention. Under the spirit of invention on the air, any modifications made by the system are in the scope of this protection. [Embodiment] Still referring to the first diagram and the second diagram of the exploded view and the combination diagram, the present invention is characterized in that the slider structure of the present invention includes: a body U0), - force椁 slide bar structure, which is 〇), at least - elastic element (40) and to small, at least - limit member (3; eve-bead body (50), the rod 2 of the body (1 〇) A driving unit (11) is provided for a two-person system of appropriate length, and the driving Deng (1 1 ) is a universal joint structure, and the section and the joint area are moved, and the η part (1 1 ) is a sleeve body. (1〇) The other end is provided with a transverse penetrating capacity: a force-applying rod (20), which is inserted in the body 2 (12), and the force-applying rod is in the body ((2) ^5) Up and down displacement, the central axis of the urging rod) The central axis of the plate (10) is perpendicular to each other, and the urging rod (2 〇) has at least one end with an axial opening control hole (2丄), the control hole (2 1 ) is provided with a smaller diameter rod groove (2^ 2 ), the rod groove (2 1) has a longer depth, and the control hole (2 1 ) and the rod The groove (2 1 1 ) is formed due to the difference in diameter In the class department (2丄2), the force-applying rod (2 〇) is provided with a limiting hole (2 2 ) at the end of the control hole (2 1 ), and the force-applying 椁 (& 6 nt end is provided with a limiting hole (2) 2), the per-limit hole (2 2): the mother; the rod groove (2 1 1) is vertically connected, and the distance between the end of the limiting hole (22) and the force cup (2 ◦) is greater than Or equal to the diameter of the head at the rod hole (1 2 ) _ ; at least - the limit member (3 〇), the number of the limit member (3 〇), the limit hole (21) of the tie rod (20) The number of the limit members is two 'each of the limit members (30) are respectively controlled in the hole (21), and the limit member (3〇) is hidden = two (221) The end of the sunny (3〇) end is flush with the end of the force (#), and the limiting piece (3q) is provided with a diameter (|), the rod body (31), the rod body (31) It is matched with the rod groove (2 1 1 ancient straight 偟 compatible setting between the limit member (30) and the rod body (3!) - 珉 邛 (3 2 ) 'The rod body (3 1) is set There is a first trough and a younger trough (34). The depth of the second trough (3 4) is greater than the first cross-section + 4 days (3 3) to form a class, the first-prepared (3 4) The system is located in the same plane, and the first trough (33) and the 笫-six secrets/0 1 and the squad (3 4) are connected in a slanted plane, and the limiting member (30) is demon. , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The number of elastic members (4 〇) is matched with the limit members (3 D, 4 · a , d 0 ), and the number of elastic members (4 〇) is For two, the mother-elastic element (4 Q) is sleeved on the limit rod (3 1), and the k-s, z'-side elastic element (4 〇) - the end is against the limit 1359062 pieces ^ 3 〇) the abutting part (3 2) and the other end is on the class part (2 1 2 ) of the control hole (2 1 ) of the force applying rod (2 Ο ). At least one bead body (5 0 The bead body (s π / red bit hole (2 2) is compatible, the bead body (5 ^ number is matched to limit the bead system to be accommodated in the limit hole (2〇2) ^ 〇 ^ The limiting member (3 〇) is in the position of the younger one, and the limiting hole (22) is relatively positive with respect to the position, because the 容 容 容 (3 3) is 曰r π: nn ^ 0 For shallower depths, the 忒 忒 (5 0 ) is the first hull (? Qr 9 9 . L a ~ ld 3 ) is exposed to the limit = 2 2 ) Externally has the limit function 'When the control limiter (3 〇) is actuated, the action is actuated as the control hole (2丄) The limit hole (2 2 ) 盥 first - Acer rq λ coin device ... η, the brother one groove (3 4) position is relatively positive, the bead = 5 0) system capacity is set in the second cavity (3 4) is not in the limit hole Z). Please continue to refer to the third figure, which is the top view of the slider structure of the present invention. The fourth figure is the cross-sectional view of the third figure A-A, and the fifth picture is the enlarged view of the B of the fourth figure. The urging rod (2 Q ) is received in the body hole (1 2 ) of the body (1 f ), and each of the limiting members (3 〇) is respectively 2 in each control hole (21) The rod body (31) is accommodated in the trunk groove (2 1 1). The each element (4 Q) is sleeved on the rod body (31) of the female one limit #(30) and is located in the control Hole (2 1 ),. Each of the beads (5 〇) is accommodated at each of the limiting holes (2 2 ) 'when the elastic element (40) is uncompressed, the haihai-tolerance (3 3 ), and the limit The hole (2 2) is relatively positive, and the bead (5 〇) is at the ♦ groove (3 3), because the first groove (3 3) is a shallow depth of 8 1359062, the bead The body (50) is exposed outside the limiting hole (2 2), and the body (10) is subjected to the bead (5 〇) when it is slipped and has a limiting effect. Please continue to refer to the sixth figure, which is a cross-sectional view of the first combination position of the present invention: A. The seventh figure is the enlarged view of the sixth figure (four), when the group m 9 h ί ) the human body (1 Q ) When the rod is placed, the bead body (50) at the end of the urging rod (20) is exposed outside the limiting hole (2 2), and the urging rod (2 end: limit) Piece (30) pushes, the elastic element (40) is contracted, the limit member (3〇) is displaced, the position of the second hole (22) is relatively positive, the bead (5〇): two: brother-valley The groove (3 4 ) is not in the limit hole (2 2 ), and the stencil can be displaced into the urging rod (2 Λ ^ (1 action, & The cross-sectional view of position A~A is reversed: for the purpose of removing the range of the force-applying rod (20), the same force-applying rod (2 〇) can be placed on the body, and the left and right displacements are used to adjust the body. Heart =: (1 distance 'The urging rod (2 〇) private 1 = can avoid the urging rod (2 ()) in place Zhu Guang (50) open the body (10), and generally '2 force Dry (20) off t::::1) 'driver. ((1) knot 2 = species eve 'when the force bar (2 〇) wants] The number of authors can be pressed against the limiter (body (1 0), 0). The elastic element (4 〇) is 9 1359062. The fork is compressed so that the bead (5 〇) is not in the limit hole (2 2). After the force is released from the body (丄〇), the force applying rod (20) is further assembled with the body (1〇) of another different driving portion (11). In addition, the body of the different state (1〇) can share a force bar (2 〇), and reducing the number of the force bar (20) is the main structural advantage of the present invention. Please continue to refer to the ninth figure. As shown in the exploded view of the second embodiment of the present invention, in the embodiment, the limit hole (2 2) of the '1 Hz urging rod (2 ◦)-end is provided with a limiting member (30), and the elasticity The component (40) and the bead body (5 〇)' and the other limiting hole (2 2) are fixed with a bead body (50), and the fixing structure 仏 is the same as the m —-figure, the slider structure is only The end-to-end control is disengaged. The monthly success is shown in the tenth figure, which is a cross-sectional view of a third embodiment of the present invention. In this embodiment, the limiting member (3◦) is longer = 31 ) 'The first body is provided at both ends of the rod body (31)
及第二容槽(3 4 )’該二處之第一容槽(3 3 ) (3 4 )位置係與施力桿(2 〇 )二端之限位 W Γ 9 η相配合’當推壓該限位件(3 0 )移位,該施 —端處所容設之二珠體(5 0)係一同受限 位件(3 0 )控制。 j又丨艮 请參閱第十一圖 合圖’該本體(1 Q 樣態。 所示,係本發明第四實施例之立體組 )之驅動部(1 1 )係呈萬向套筒之 請參閱第十二 圖所示,係本發明第五實施例之立體組 ^59062 合圖’該本體(1 0 )之驅動部(1 1 )係為一般套筒之 樣態。 請參閱第十三圖、係第六實施例之組合圖所示,該本 1 0 )係具較短之長度,該驅動部(1 1 )係呈四角 頭狀。 请參閱第十四圖、係為第七實施例之組合圖所示,該 本體(1 0 )之驅動部(1 1 )係呈球座結構之萬向套筒 樣態。 請繼續參閱第十五圖 '第八實施例之組合圖所示,該 貫施例中’該本體(1 〇 )之驅動部(1 1 )係呈六角頭 狀。 清芬閱第十六圖、第九實施例之組合圖所示,該實施 例中’該本體(1 0 )之驅動部(1 1 )係呈一字起子頭 狀。 請參閱第十七圖、第十 實施例之組合圖所示,該實施 例中’該本體(1 0)之驅動部(1 1 )係呈星型起子頭 狀。 、 請參閱第十八圖、第十一實施例之A —A處剖視圖所 示’該實施例中’該控制孔(2 1 )内係不設有階級部(2 1 2 ),該限位件(3 0)亦不設有抵部(3 2 ),該每一 彈性%件(4 0)係分別容設於每一控制孔(2 1 )之槽 底處’該彈性元件(4 0)另端係抵於限位件(3 〇 )端 部。 °月參閱第十九圖、第十二實施例之組合圖所示,該本 比9〇62 ^ ( 1 0)—端係設有驅動部(丄丄)而另端設有套合部 13) 1亥套合部(1 3 )係呈四角槽狀,該本體(1 〃細*力梓(2 0 )分離後,該本體(1 〇 )可當為接 抨使用。 八睛繼續參閱第二十圖所示,係本發明第十三實施例之 上,圖第一十一圖係為A — A處剖視圖,該實施例中, 该施力桿(2 0 )於控制孔(2工)周緣係設有二第一指 :線^23),該限位件(30)之第—容槽(33)及 =容槽(3 4)係呈垂直相通狀,亦即二者係不位於同 平面上,—者係位於二垂直之平面上,該限位件(3 〇 ) ^頭端處係設有第二指示線(35),該二彈性元件(4 ◦)係分別容設於控制孔(2 D之槽底處而另端抵於限 2件(3 ◦)端部,該二珠體(5〇)係分別容設於限位 孔(2 2 )處。 請參閱第二十二圖、第十三實施例第一位置之前視圖 1 斤示,第二十三圖係第二十二圖之C-C處剖視圖,第二 十四圖係D處放大圖,當限位件(3㈡之第二指示線(3 1 與施力桿(2〇)之-第-指示線⑴)相對正, 遠弟-容槽(3 3)係與限位孔(2 2 )位置相對正,該 珠體(5〇)係抵於苐一容槽(33)處而部份凸露於限 位孔(22)外,該珠體(5〇)係具限位功效,當旋轉 限位件(3〇)將第二指示線(35)與施力桿(20) 之另一第一指不線(23)相對正,該第二容槽(34) 係與限位孔(2 2)位置相對正,該珠體(5〇)係容設 1359062 於第二容槽(3 4)處而沒於限位孔(2 2)内,此時該 本體(1 0)及施力桿(2 0)係可相組設或脫開,第二 十五圖係第二位置之剖視圖,第二十六圖係第二位置之組 請繼續參閱第二十七圖所示,係為第十四實施例之分 解圖,該限位件(3 〇)之第一容槽(3 3 )及第二容槽 (3 4)位置係為上下位置狀,亦即二者係分別位於二相 平打之平面上’該第一容槽(3 3)及第二容槽(3 4) 間設有連接部(3 3 1 ),該連接部(3 3 !)係與第一 容槽3 )及第二容槽(3 4)相通,t亥第一容槽(3 3 )\第二容槽(3 4 )及連接部(3 3 1 )係呈u形狀, 亦即第-容槽(3 3 )及第二容槽(3 4)係大於連接部 (3 3 1 )之貧度’當彈性元件(4 〇.)不受壓縮而容設 於抵=(3 2)及階級部(2 ! 2 )間,珠體(5 〇)係 抵方、第#槽(3 3)處,珠體(5 〇)係部份凸露於限 位孔(2 2)外而具限位功效,如第二十八圖之第一位置 剖視圖所示。 。月、%續參閲第一十九圖所示,係第十四實施例、第二 位置之剖視圖,將限位件(3 〇)推壓移位,使彈性元^ (4 0)受壓縮,該限位孔(2 2)係與連接部(3 3工) 位置相對齊,再旋轉限位件(3 〇 ),使第二容槽(3 4 ) 與限位孔(2 2 )位置相對正,放開限位件(3 〇 ),限 位件(3 Q)受彈性元件(4 Q)移位,珠體(5 〇 )係 谷0又於第一容槽(3 4)處而沒入限位孔(2 2 )内,本 13 1359062 體(1 Ο)及施力桿(2◦)係可相组設或分離,如第三 十圖所示。 本發明結構設計優點係在於: • 1、該二限位件(3 0)及彈性元件(4〇)係相配 -合組設於施力桿(2 〇)二端之控制孔(2 n内,藉以 控制限位孔(2 2 )處之珠體(5 〇)沒入或凸出,^施 力桿(2 0)於本體(! 〇)上左右位移之,調整該本體 (1 0 )-側之力f長短距離,該凸出之珠體(5 〇 )係 籲可避免施力桿(2 0 )不小心滑脫出本體(工〇)外,當 施力桿(2 0)欲更換不同驅動部(‘丄i )樣態之本體^ 0 )犄,戎限位件(3 0)係可控制珠體(5 〇 )沒入, 而使該施力桿(2 0 )與本體(工〇 )間可相組設或分離 之,該數支不同樣態之本體(丄〇 )係可共用一施力桿 0 )。 2、 該限位件(3 0)係容設於施力桿(2 〇 )上, 因此本體(1 〇)即為-般習用之本體相同,本發明之滑 桿結構買後,該施力桿(2 0 )係可先前購買之各習用滑 桿之本體相穿設,亦言之習用(骨桿之本體亦可共用施^ (20)° 3、 本發明當實施時係可於一工具盒内 體(!0),如第一圖、第十一圖至第十七圖之= 0 ),以及約數支不同長度之施力桿(2 〇 ),如係為四支 不同長度之施力桿(20),每-本體(工〇)均可於不 同長度之施力桿(2 0)相穿設而具使用之擴充性,且複 1359062 )均係為長桿體狀而 盒之空間,具有省略 數本體(1 Ο)與數支施力桿(2 ο 排列於工具盒内,如此亦較不佔工具 空間及擴充性之功效。 八 因此本發明 步性且具功效, 出申請。 ^滑桿結構具有產t利用性、新穎性及進 減能符合發明專利之申請要件,爰依法提And the second pocket (3 4 )' the position of the first pocket (3 3 ) (3 4 ) at the two positions is matched with the limit W Γ 9 η of the two ends of the force applying rod (2 〇) The limiting member (30) is displaced, and the two beads (50) accommodated at the application end are controlled by the limited position member (30). Please refer to the eleventh drawing in conjunction with the figure 'the body (1 Q state. The three-dimensional group of the fourth embodiment of the present invention is shown). The driving part (1 1 ) is a universal sleeve. Referring to Fig. 12, a three-dimensional group of the fifth embodiment of the present invention is shown in the figure. The driving portion (1 1 ) of the body (10) is a general sleeve. Referring to the thirteenth embodiment and the combination diagram of the sixth embodiment, the first 10) has a shorter length, and the driving portion (1 1 ) has a quadrangular shape. Referring to Fig. 14, which is a combination diagram of the seventh embodiment, the driving portion (1 1 ) of the body (10) is in the form of a universal sleeve of a spherical structure. Continuing to refer to the fifteenth diagram, the combination of the eighth embodiment shows that the driving portion (1 1 ) of the body (1 〇) has a hexagonal shape. In the combination diagram of the sixteenth embodiment and the ninth embodiment, in the embodiment, the driving portion (1 1 ) of the body (10) is in the shape of a head. Referring to the combination diagrams of the seventeenth and tenth embodiments, in the embodiment, the driving portion (1 1) of the body (10) has a star-shaped screwdriver head shape. Referring to the eighteenth embodiment, the sectional view of the A-A of the eleventh embodiment shows that in the embodiment, the control hole (2 1 ) is not provided with a class portion (2 1 2 ), and the limit is The member (30) is also not provided with a resisting portion (3 2 ), and each of the elastic members (40) is respectively accommodated at the bottom of each control hole (2 1 ). The elastic member (4 0 The other end is at the end of the limiter (3 〇). Referring to the combination diagram of the nineteenth and twelfth embodiments, the ratio is 9〇62 ^ (10), the end is provided with a driving portion (丄丄) and the other end is provided with a fitting portion 13 1 Sea cover part (1 3 ) is in the shape of a square groove. After the body (1 〃 thin * force 梓 (20) is separated, the body (1 〇) can be used as a joint. 20 is a sectional view of the thirteenth embodiment of the present invention, and FIG. 11 is a cross-sectional view taken at A-A. In this embodiment, the urging rod (20) is in the control hole (2) The circumference is provided with two first fingers: line ^23), and the first groove (33) and the groove (34) of the limiting member (30) are vertically connected, that is, the two are not Located on the same plane, the system is located on two vertical planes, and the second indicator line (35) is provided at the end of the limiting member (3 〇) ^, and the two elastic members (4 ◦) are respectively accommodated. At the bottom of the control hole (2 D, the other end is limited to the end of 2 (3 ◦), the two beads (5 〇) are respectively accommodated at the limiting hole (2 2 ). Twenty-two figure, the first position of the thirteenth embodiment, the front view 1 Twenty-three figure is a cross-sectional view of CC in the twenty-second figure, and the twenty-fourth figure is an enlarged view of D, when the second indicator line of the limit piece (3 (2) (3 1 and the force bar (2〇) - The first-indicator line (1) is relatively positive, and the far-child-to-receiver (3 3) is relatively positive with the position of the limit hole (2 2 ), and the bead (5〇) is at the same position as the pocket (33). The part is exposed outside the limiting hole (22), and the bead body (5〇) has a limit function. When the rotation limiting piece (3〇) is used, the second indicator line (35) and the force applying rod (20) The other first finger line (23) is relatively positive, the second groove (34) is opposite to the position of the limit hole (2 2), and the bead body (5〇) is the first capacity of the first volume (5〇). The groove (3 4) is not in the limiting hole (2 2), and the body (10) and the force applying rod (20) can be set or disengaged, and the twenty-fifth figure is A cross-sectional view of the two positions, a group of the second position of the twenty-sixth embodiment, please continue to refer to the twenty-fifth embodiment, which is an exploded view of the fourteenth embodiment, the first capacity of the limiting member (3 〇) The positions of the groove (3 3 ) and the second groove (34) are in the up and down position, that is, the two are respectively located in the two phases. a connecting portion (3 3 1 ) is disposed between the first receiving groove (3 3) and the second receiving groove (3 4) on the flat surface, and the connecting portion (3 3 !) is connected to the first receiving groove 3 ) And the second pocket (34) communicates with each other, and the first pocket (3 3 ), the second pocket (34), and the connecting portion (3 3 1 ) of the t-hai are u-shaped, that is, the first-cavity ( 3 3 ) and the second pocket (3 4) is greater than the leanness of the joint (3 3 1 )' when the elastic element (4 〇.) is not compressed and accommodated in the offset = (3 2) and the class ( 2 ! 2 ), the bead (5 〇) is the offset, the ## (3 3), and the bead (5 〇) is partially exposed to the limit hole (2 2) and has a limit effect. , as shown in the first position cross-sectional view of the twenty-eighth figure. . Month, % continued to refer to the first nineteenth embodiment, which is a cross-sectional view of the fourteenth embodiment and the second position, and the limit member (3 〇) is pushed and displaced to compress the elastic element ^ (40) The limiting hole (2 2) is aligned with the connecting portion (3 3 working), and then the limiting member (3 〇) is rotated to position the second receiving groove (3 4 ) and the limiting hole (2 2 ) Relatively positive, release the limiter (3 〇), the limiter (3 Q) is displaced by the elastic element (4 Q), and the bead (5 〇) is valley 0 and is at the first pocket (3 4) However, in the limit hole (2 2 ), the 13 1359062 body (1 Ο) and the force bar (2◦) can be set or separated, as shown in the thirty-fifth figure. The structural design advantages of the present invention are as follows: • 1. The two limiting members (30) and the elastic members (4〇) are matched and assembled in a control hole (2 n) at the two ends of the force applying rod (2 〇) In order to control the bead (5 〇) at the limit hole (2 2 ) to be immersed or protruded, and the force bar (20) is displaced to the left and right on the body (! ,) to adjust the body (10) - The force of the side f is long and short. The protruding bead (5 〇) is used to avoid the force bar (20) accidentally slipping out of the body (worker), when the force bar (2 0) Replace the body of the different drive section ('丄i) ^ 0 ) 犄, the limiter (30) can control the rim of the bead (5 〇), and make the urging rod (20) and the body ( The work can be grouped or separated, and the body (不) of the different states can share a force bar 0). 2. The limiting member (30) is placed on the urging rod (2 〇), so the body (1 〇) is the same as the conventional body. After the sliding rod structure of the present invention is purchased, the urging rod is (20) can be worn by the body of each of the previously used slide bars, and it is also customary (the body of the bone bar can also be shared (20) ° 3. When the invention is implemented, it can be used in a tool box. The inner body (!0), such as the first figure, the eleventh to seventeenth figure = 0), and about several different lengths of the force bar (2 〇), if four different lengths of force The rod (20), each body (worker) can be used for the extension of the struts (20) of different lengths, and the expansion is used, and the complex 1359062) is a long rod body and the space of the box It has an omitting number body (1 Ο) and a plurality of urging rods (2 ο arranged in the tool box, so that it is less effective in tool space and expandability. VIII Therefore, the present invention is versatile and effective, and is applied for. ^Slider structure has the advantages of production, novelty, and reduction and energy reduction in accordance with the application requirements of invention patents.
15 【圖式簡單說明】 第 第 第 圖 圖 圖 係本發明滑捍結構之立體分解圖。 係本發明滑桿結構之立體組合圖。 奸 係本發明滑桿結構之上視圖。 2圖知本發明第三圖之A — Α處剖視圖。 圖、係本發明第四圖之β處放大圖。 圖、係本發明第—組合位置之A -Α處剖視圖。 f七圖、係本發明第六圖之B處放大圖。 f八圖、係本發明第二組合位置之A-A處剖視圖。 一九圖h本發明第二實施例之立體分解圖。 ^十圖、係本發第三實施例之A — A處剖視圖。 =十圖、係本發明第四實施例之立體組合圖。 :十二圖、係本發明第五實施例之立體組合圖。 第十一圖、係本發明第六實施例之立體組合圖。 第十四圖、係本發明第七實施例之立體組合圖。 第十五圖、係本發明第八實施例之立體組合圖。 ^第十六圖、係本發明第九實施例之立體組合圖。 第十七圖、係本發明第十實施例之立體組合圖。 =八圖、係本發明第十—實施例之a — a處剖視圖。 九圖、係本發明第十二實施例之立體組合圖。 十圖、係本發明第十三實施例之立體分解圖。 〇 〇 ^-:圖、係本發明第十三實施例之a — a處剖視圖。 ^一^二圖、係本發明第十三實施例第—位置之前視圖。 十二圖、係本發明第二十二圖之C-C處剖視圖 16 1359062 禁 θ發明第二十三圖之D處放大圖。 坌五目係第十三實施例第二位置之D處放大圖。 :一十六圖、係第十三實施例第二位置之組合圖。 ^二十七圖、係本發明第十四實施例之立體分解圖。 f二十八圖、係本發明第十四實施例之第一位置剖視圖。 ^一十九圖、係本發明第十四實施例之第二位置剖視圖。 第三十圖、係本發明第十四實施例之第三位置剖視圖。 第三十一圖、係習用滑桿結構之前視圖。15 [Simple description of the drawings] Fig. 1 is a perspective exploded view of the slider structure of the present invention. It is a three-dimensional combination diagram of the slider structure of the present invention. The above view of the slider structure of the present invention. 2 is a cross-sectional view of the third section of the present invention. The figure is an enlarged view of the β of the fourth figure of the present invention. Figure is a cross-sectional view of the A-Α of the first combined position of the present invention. Figure 7 is an enlarged view of a portion B of the sixth drawing of the present invention. F8 is a cross-sectional view taken at A-A of the second combined position of the present invention. Figure 9 is a perspective exploded view of a second embodiment of the present invention. Figure 10 is a cross-sectional view taken along line A-A of the third embodiment of the present invention. A ten-dimensional diagram is a three-dimensional combination diagram of a fourth embodiment of the present invention. FIG. 12 is a perspective assembled view of a fifth embodiment of the present invention. Figure 11 is a perspective assembled view of a sixth embodiment of the present invention. Figure 14 is a perspective assembled view of a seventh embodiment of the present invention. Fig. 15 is a perspective assembled view of an eighth embodiment of the present invention. Figure 16 is a perspective assembled view of a ninth embodiment of the present invention. Figure 17 is a perspective assembled view of a tenth embodiment of the present invention. = Eight Diagrams, a cross-sectional view of a - a of the tenth embodiment of the present invention. Nine diagrams are perspective assembled views of a twelfth embodiment of the present invention. Figure 10 is a perspective exploded view of a thirteenth embodiment of the present invention. 〇 〇 ^-: FIG. is a cross-sectional view taken at a-a of the thirteenth embodiment of the present invention. ^一二图, is a front view of the thirteenth embodiment of the present invention. Figure 12 is a cross-sectional view taken at C-C of the twenty-second diagram of the present invention. 16 1359062 Forbidden θ The enlarged view of the second figure of the twenty-third figure.坌五目 is an enlarged view of the D position of the second position of the thirteenth embodiment. Fig. 16 is a combination diagram of the second position of the thirteenth embodiment. Figure 27 is a perspective exploded view of a fourteenth embodiment of the present invention. Figure 28 is a cross-sectional view showing the first position of the fourteenth embodiment of the present invention. Figure 19 is a cross-sectional view showing a second position of the fourteenth embodiment of the present invention. Figure 30 is a cross-sectional view showing a third position of the fourteenth embodiment of the present invention. The thirty-first figure is a front view of the conventional slider structure.
第三十二圖、係第三十一圖之E — E處剖視放大圖。 【主要元件符號說明】Figure 32 is an enlarged cross-sectional view of E-E at the 31st chart. [Main component symbol description]
(10)本體 (12)容桿孔 (2 0)施力桿 (211)容桿槽 (2 2 )限位孔 (3 0 )限位件 (3 2 )抵部 (3 3 1 )連接部 (3 5 )第二指示線 (4 0 )彈性元件 (5 0 )珠體 (11)驅動部 (1 3)套合部 (2 1 )控制孔 (212)階級部 (2 3)第一指示線 (3 1 )桿體 (3 3)第一容槽 (3 4)第二容槽 (61)本體 C 6 1 2)容桿孔 (6 2 1 )限位孔 〔b 1 1 )驅動部 2)施力桿 (6 3)珠體 17(10) body (12) rod hole (20) force rod (211) rod groove (2 2) limit hole (3 0) limit member (3 2) abutment (3 3 1) connection (3 5) second indicator line (40) elastic member (50) bead body (11) drive portion (13) sleeve portion (2 1) control hole (212) class portion (23) first indication Line (3 1 ) rod body (3 3) first tank (3 4) second tank (61) body C 6 1 2) rod hole (6 2 1) limit hole [b 1 1 ) drive unit 2) Applying rod (6 3) beads 17