TWM320623U - Fluid driving mechanism - Google Patents

Fluid driving mechanism Download PDF

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Publication number
TWM320623U
TWM320623U TW96205786U TW96205786U TWM320623U TW M320623 U TWM320623 U TW M320623U TW 96205786 U TW96205786 U TW 96205786U TW 96205786 U TW96205786 U TW 96205786U TW M320623 U TWM320623 U TW M320623U
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TW
Taiwan
Prior art keywords
fluid
drive mechanism
space
disposed
valve port
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Application number
TW96205786U
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Chinese (zh)
Inventor
Li-Hung Luo
Original Assignee
Li-Hung Luo
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Application filed by Li-Hung Luo filed Critical Li-Hung Luo
Priority to TW96205786U priority Critical patent/TWM320623U/en
Publication of TWM320623U publication Critical patent/TWM320623U/en

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Description

M320623 八、新型說明: 【新型所屬之技術領域】 本創作係與機械設備有關,特別是指一種能夠縮小體 積,且兼具適用性南之優點的流體式驅動機構。 5【先前技術】 流體式驅動機構係受到廣泛的使用,請參閱第一圖, 習用之流體式驅動機構〇)主要包含有一基板(2)、一油/氣壓 虹(4)'二導引管(5)以及一作動裝置(6);其中,該油/氣壓 缸(4)於知面(7)具有一驅動桿(8)係可沿其軸向進行位移,該 1〇基板(2)設於該油/氣壓缸(4)之端面(7)且可供該驅動桿(8)穿 設,該作動裝置(6)設於該驅動桿(8)且可與該驅動桿(8)同步 位移。其中,以結構來說,由於該油/氣壓缸(句一般呈圓筒 形狀,本身並無可供裝設的地方,只有鄰近該端面(7)才有 額外的部位可供進行裝設,所以習用者係在此處裝設該基 I5板(2),進而再透過該基板(2)配合其他設備進行組裝。藉 此,使用者經由設定該流體式驅動機構(1)作動方向以及^ 程,以達到於特定方向作動的目的。 然而,由於該基板(2)的厚度需要考量到該油/氣壓缸(句 的重里以及該流體式驅動機構(1)的結構強度,且該基板(2) 2〇位置位於該驅動桿(8)移動路徑,該基板(2)的厚度正^會消 耗掉該驅動桿(8)的一部分行程;換言之,假設該驅動桿(幻 之一行程距離全長為A,該基板(2)的厚度為B,則該驅動 桿(8)實際可以被運用的行程距離最長只有(A_B);當該其板 (2)厚度越厚,該驅動桿(8)能夠使用的行程則會相對短 4 M320623 減少,具有行程縮減的問題。 再者,若在不犧牲行程的前提下,對該流體式驅動機 構⑴進灯裝$ ’該流體式驅動機構⑴則勢必要再增加-框 架:以供該流體式驅動機構⑴進行裝設;如此-來,將會 5大幅增加整體的體積,該流體式驅動機構⑴將必需要更大 的裝设空間才能進行裝設。 另外,該基板(2)、該油/氣壓缸(4)以及該導引管(5)皆 ,獨立元件且尺寸長度不―,在組裝前必須要經過事先多 人加工’方#進行組裝’具有加工步驟繁多且加工工時長 的缺點。若以該流體式驅動機構(丨)的適用性為考量,該基 ='及該導引管⑺於組裝後並非“ 正^面,該流體式驅動機構⑴並無可供_的架設平面; ,言之、,即該流體式驅動機構(1)僅能於水平方向進行裝 15 適合用於水平方向作動的場合;若是要用於垂直方 =動的場合,則必須要加板_厚度,以增加結構 又j是,如此-來,不但要消耗更多的裝設空間,同 具 t 一體式驅動機構⑴行程縮減的問題將更為嚴重 有適用性不佳的缺點。 綜上所陳 2〇 待改進。 ’習用流體(轉機構具有Λ述之缺失而有 【新型内容】 能约要目的在於提供—誠體式驅動機構,其 肊夠鈿小體積,且兼具適用性高之優點。 M320623 為達成上述目的,本創作所提供一種流體式驅 構,包含有··一本體係具有一儲存空間、至少二貫孔機 第一閥口、一第二閥口、一活塞以及一驅動桿;其中,上 儲存空間形成於該本體内部且為呈長直狀的封閉空間·’, 5等貫孔之軸向係與該儲存空間之軸向平行;該第口該 及該第二閥口分別設於該本體兩相對侧且連通該儲存= 間,以供一流體輸入/輸出;該活塞位於該儲存空間内:二 受該流體推抵於該儲存空間内往復位移;該驅動桿設於= 活塞並受該活塞帶動而沿該驅動桿軸向位移;一作動裝^ ^有一板件以及至少二導桿;該驅動桿設於該板件中段, 該等導桿設於該板件兩侧且分別穿設於該本體之貫孔,各 該‘杯可沿各該貫孔軸向位移,以引導該板件位移。 藉此’本創作之流體式驅動機構透過上述結構,其能 u夠縮士體積,且不會縮減行程而影響作動範圍,且兼具適 用14π之優點,相較於習用者,具有使用上之方便性。 【實施方式】 為了詳細說明本創作之構造及特點所在,茲舉以下四 較佳實施例並配合圖式說明如后,直中: 20 裳一/ ,、 —圖係本創作第一較佳實施例之元件分解圖。 ,二圖係本創作第一較佳實施例之組合立體圖。 f四圖係本創作第一較佳實施例之結構示意圖。 第五圖係本創作第一較佳實施例之動作示意圖,主 ‘不作動裝置於伸出時的作動情形。 M320623 第六圖係本創作第一較佳實施例之另一結構示意圖, 主要揭不作動裝置於伸出時的作動情形。 第七圖係本創作第二較佳實施例之實施態樣。 一第八圖係本創作第二較佳實施例之動作示意圖,主要 5揭示作動裝置於伸出時的作動情形。 ^九圖係本創作第三較佳實施例之結構示意圖。 第十圖係本創作第四較佳實施例之結構示意圖。 請參閱第二圖至第四圖,其係為本創作第一較佳實施 例所&供之一流體式驅動機構(1〇),包含有一本體(2〇)以及 ίο —作動裝置(4〇)。 該本體(20)係具有一儲存空間(22)、二貫孔(24)、二穿 孔(26)、一第一閥口(28)、一第二閥口(29)、一活塞(3〇)、一 驅動桿(32)、一定位裝置(34)以及四防塵蓋(36)。該儲存空 間(22)形成於該本體(2〇)内部且為呈長直狀的封閉空間,該 I5儲存空間(22)於兩端定義出一第一端面(221)以及一第二端 面(222)。該二貫孔(24)位於該儲存空間(22)兩侧,該二貫孔 (24)之轴向係與該儲存空間(22)之轴向平行。該二穿孔(26) 設於該本體(20),以供二桿體(5〇)對該本體(2〇)進行裝設。 該第一閥口(28)設於該本體(2〇)之第一端面(221),該第二閥 20 口(29)設於該本體(20)之第二端面(222)且鄰近該作動裝置 (40);該第一閥口 (28)以及該第二閥口(29)連通該儲存^間 (22),以供一流體(38)輸入/輸出;該流體(38)係為液態或氣 態且可選自油、水、以及空氣其中一種;本實施例中,該 流體(38)係選自以油為例。該活塞(30)位於該儲存空間 7 M320623 内且可受該流體(38)推抵於該儲存空間(22)内往復位移;該 ,塞(3〇)將該儲存空間(22)區分為一第一空間(223)以及一 第二空間(224),該第一閥口(28)連通該第一空間(223),該 第=閥口(29)連通該第二空間(224);當該活塞(3〇)位移時, 5該第一空間(223)以及該第二空間(224)的容積會呈反比例 相對增減。該驅動桿(32)設於該活塞(3〇)並受該活塞(3〇)帶 動而沿該驅動桿(32)之軸向進行同步位移。該定位裝置(34) 設於該本體(2〇)且可被該作動裝置(4〇)觸發,藉以界定該作 動裝置(40)的作動位置或行程。該定位裝置(3句的類型係選 自極限開關(limit switch)、磁簧開關(reed switch)、光電開關 (photo-electricity switch)、輥輪開關(r〇uer switeh)以及微動 開關(jiggle switch);本實施例中,該定位裝置(34)係選自以 極限開關(limit switch)為例。該等防塵蓋(36)係呈環狀且分 別設於該本體(20)而位於該等貫孔(24)兩端,以防止異物或 15粉塵進入該等貫孔(24)而影響該作動裝置(4〇)位移。 該作動裝置(40)係具有一板件(42)、至少二導桿(44)以 及限位矛干(46),該驅動桿(32)設於該板件(42)中段,該等 導桿(44)設於該板件(42)兩侧且分別穿設於該本體(2〇)之貫 孔(24),各該導桿(44)可沿各該貫孔(24)軸向位移,以引導 2〇該板件(42)位移;該限位桿(46)設於該板件(42)一侧,當該 作動裝置(40)位移時,該限位桿(46)可推抵該定位裝置(34) 以進行觸發。 經由上述結構,該流體式驅動機構(1〇)的作動方式如 M320623 請參閱第三圖及第四圖,當對該第一閥口(28)輸入該流 體(38)時,該第一空間(223)的容積會因該流體(38)的輸入而 逐漸擴張,且該第一空間(223)的腔壓會逐漸增大,該活塞 (30)會受到該流體(38)的推擠而帶動該驅動桿(32)往該第二 5閥口(29)方向位移,使該作動裝置(40)呈現收縮狀態;此 • 時,該第二空間(224)則會因該活塞(30)位移而容積逐漸減 少,進而將該流體(38)自該第二閥口(29)排出。 籲 再請參閱第五圖及第六圖,當對該第二閥口(29)輸入該 流體(38)時,該第二空間(224)的容積會因該流體(38)的輸入 1〇而逐漸擴張,且該第二空間(224)的腔壓會逐漸增大,該活 塞(30)會受到該流體(38)的推擠而帶動該驅動桿(32)往該第 一闕口(28)方向位移,使該作動裝置(4〇)呈現伸出狀態;此 時,該第一空間(223)則會因該活塞(3〇)位移而容積逐漸減 少,進而將該流體(38)自該第一閥口(28)排出。 15 換s之’使用者只要透過對該第一閥口(28)與該第二閥 φ 口(29)切換該流體(38)的輸入/輸出狀態,即可控制該作動裝 置(40)做垂直方向的作動。 響作動範圍;同時, 該本體(20)本身具有複數個裝設平面,M320623 VIII. New description: [New technical field] This creation is related to mechanical equipment, especially a fluid drive mechanism that can reduce the volume and has the advantage of adaptability to the south. 5 [Prior Art] The fluid drive mechanism is widely used. Please refer to the first figure. The conventional fluid drive mechanism 主要) mainly includes a substrate (2) and an oil/pneumatic rainbow (4)' guide tube. (5) and an actuating device (6); wherein the oil/pneumatic cylinder (4) has a driving rod (8) on the surface (7) that is displaceable along the axial direction thereof, the one-turn substrate (2) Provided on the end face (7) of the oil/pneumatic cylinder (4) and permeable to the drive rod (8), the actuating device (6) is disposed on the drive rod (8) and can be coupled to the drive rod (8) Synchronous displacement. Among them, in terms of structure, due to the oil/pneumatic cylinder (the sentence is generally cylindrical, there is no place for installation, and only the adjacent end face (7) has additional parts for installation, so The user installs the base I5 plate (2) here, and then assembles the base plate (2) through other devices, whereby the user sets the action direction of the fluid drive mechanism (1) and the process. To achieve the purpose of actuation in a specific direction. However, since the thickness of the substrate (2) needs to be considered to the oil/pneumatic cylinder (the weight of the sentence and the structural strength of the fluid-driven mechanism (1), and the substrate (2) The position of 2〇 is located in the moving path of the driving rod (8), and the thickness of the substrate (2) is consumed by a part of the stroke of the driving rod (8); in other words, the driving rod is assumed to have a full length A, the thickness of the substrate (2) is B, then the drive rod (8) can actually be used for the longest travel distance (A_B); when the thickness of the plate (2) is thicker, the drive rod (8) can The stroke used will be relatively short 4 M320623, which has the problem of stroke reduction. Without the sacrifice of the stroke, the fluid drive mechanism (1) is installed in the lamp. The fluid drive mechanism (1) is necessary to be added again - the frame is provided for the fluid drive mechanism (1); thus - will The fifth type will greatly increase the overall volume, and the fluid drive mechanism (1) will require a larger installation space to be installed. In addition, the substrate (2), the oil/pneumatic cylinder (4), and the guide tube ( 5) All, independent components and the length of the length are not ―, before assembly, it must be processed by the multi-person processing 'party # assembly' has the disadvantages of many processing steps and long processing time. If the fluid drive mechanism (丨) The applicability is considered. The base=' and the guiding tube (7) are not "positive" after assembly. The fluid driving mechanism (1) has no erecting plane for _; in other words, the fluid driving The mechanism (1) can only be installed in the horizontal direction. 15 It is suitable for the horizontal direction. If it is to be used for the vertical direction=moving, then the plate_thickness must be added to increase the structure and j is, so - come , not only consume more installation space, the same t One-piece drive mechanism (1) The problem of stroke reduction will be more serious and has the disadvantage of poor applicability. In summary, the 2 needs to be improved. 'The use of fluids (the transfer mechanism has a lack of description and there is a new content) The purpose is to provide an honest drive mechanism that is compact and has the same applicability. M320623 To achieve the above objectives, the present invention provides a fluid drive that includes a system with a storage space, at least two first hole of the through hole machine, a second valve port, a piston and a driving rod; wherein the upper storage space is formed inside the body and is a long straight closed space · ', 5 The axial direction of the equal-hole is parallel to the axial direction of the storage space; the first port and the second valve port are respectively disposed on opposite sides of the body and communicate with the storage= for a fluid input/output; The piston is located in the storage space: two is reciprocally displaced by the fluid in the storage space; the driving rod is disposed on the piston and is axially displaced along the driving rod by the piston; And to The two guide rods are disposed on the middle portion of the plate member, and the guide rods are disposed on two sides of the plate member and respectively disposed through the through holes of the body, and each of the 'cups can be axially displaced along each of the through holes. To guide the displacement of the plate. By the above structure, the fluid drive mechanism of the present invention can reduce the volume of the mans, and does not reduce the stroke and affect the range of motion, and has the advantage of being applicable to 14π, which is used in comparison with the conventional user. Convenience. [Embodiment] In order to explain in detail the structure and characteristics of the present invention, the following four preferred embodiments are described below with reference to the following description: Straight: 20 shangyi / , - Figure is the first preferred implementation of the creation An exploded view of the components. The second drawing is a combined perspective view of the first preferred embodiment of the present creation. f is a schematic view showing the structure of the first preferred embodiment of the present invention. The fifth figure is a schematic view of the action of the first preferred embodiment of the present invention, and the main ‘no actuation device is activated when it is extended. M320623 The sixth figure is another structural schematic diagram of the first preferred embodiment of the present invention, which mainly discloses the operation of the operating device when it is extended. The seventh drawing is an embodiment of the second preferred embodiment of the present creation. An eighth diagram is a schematic diagram of the action of the second preferred embodiment of the present invention, and the main 5 discloses the actuation of the actuator when it is extended. The nine-figure diagram is a schematic structural view of a third preferred embodiment of the present creation. The tenth figure is a schematic structural view of a fourth preferred embodiment of the present creation. Please refer to the second to fourth figures, which are a fluid-driven driving mechanism (1) for the first preferred embodiment of the present invention, comprising a body (2〇) and an ίο-actuating device (4〇). ). The body (20) has a storage space (22), two through holes (24), two through holes (26), a first valve port (28), a second valve port (29), and a piston (3). ), a drive rod (32), a positioning device (34) and a four dust cover (36). The storage space (22) is formed inside the body (2〇) and is a long straight closed space. The I5 storage space (22) defines a first end surface (221) and a second end surface at both ends ( 222). The two through holes (24) are located on both sides of the storage space (22), and the axial direction of the two through holes (24) is parallel to the axial direction of the storage space (22). The two through holes (26) are disposed on the body (20) for the two bodies (5〇) to mount the body (2〇). The first valve port (28) is disposed on the first end surface (221) of the body (2), and the second valve 20 port (29) is disposed on the second end surface (222) of the body (20) adjacent to the Actuating device (40); the first valve port (28) and the second valve port (29) are connected to the storage chamber (22) for inputting/outputting a fluid (38); the fluid (38) is It is liquid or gaseous and may be selected from one of oil, water, and air; in this embodiment, the fluid (38) is selected from oils. The piston (30) is located in the storage space 7 M320623 and is reciprocally displaced by the fluid (38) in the storage space (22); the plug (3) divides the storage space (22) into one a first space (223) and a second space (224), the first valve port (28) communicates with the first space (223), the first valve port (29) communicates with the second space (224); When the piston (3 〇) is displaced, the volume of the first space (223) and the second space (224) is inversely proportionally increased or decreased. The drive rod (32) is disposed on the piston (3〇) and is synchronously displaced along the axial direction of the drive rod (32) by the piston (3〇). The positioning device (34) is disposed on the body (2〇) and can be triggered by the actuating device (4〇) to define an actuating position or stroke of the actuating device (40). The positioning device (the type of the three sentences is selected from a limit switch, a reed switch, a photo-electricity switch, a roller switch (r〇uer switeh), and a micro switch (jiggle switch). In this embodiment, the positioning device (34) is selected from the group consisting of a limit switch. The dust caps (36) are annular and are respectively disposed on the body (20). The two ends of the through hole (24) prevent the foreign matter or 15 dust from entering the through holes (24) and affect the displacement of the actuating device (4〇). The actuating device (40) has a plate member (42), at least two a guide rod (44) and a limiting spear (46), the driving rod (32) is disposed at a middle portion of the plate member (42), and the guiding rods (44) are disposed on both sides of the plate member (42) and are respectively worn Disposed on the through hole (24) of the body (2〇), each of the guiding rods (44) is axially displaceable along each of the through holes (24) to guide the displacement of the plate member (42); the limit position The rod (46) is disposed on one side of the plate member (42). When the actuating device (40) is displaced, the limiting rod (46) can be pushed against the positioning device (34) for triggering. The operation mode of the fluid drive mechanism (1〇) is M32062 3 Referring to the third and fourth figures, when the fluid (38) is input to the first valve port (28), the volume of the first space (223) is gradually expanded by the input of the fluid (38). And the chamber pressure of the first space (223) is gradually increased, and the piston (30) is pushed by the fluid (38) to drive the driving rod (32) to the second 5 valve port (29). The directional displacement causes the actuating device (40) to assume a contracted state; at this time, the second space (224) is gradually reduced in volume due to the displacement of the piston (30), and the fluid (38) is further from the second The valve port (29) is discharged. Referring again to the fifth and sixth figures, when the fluid (38) is input to the second valve port (29), the volume of the second space (224) is due to the fluid. The input of (38) gradually expands, and the cavity pressure of the second space (224) gradually increases, and the piston (30) is pushed by the fluid (38) to drive the driving rod (32). Displacement toward the first port (28) causes the actuating device (4〇) to assume an extended state; at this time, the first space (223) is gradually reduced in volume due to the displacement of the piston (3〇). Further the fluid (38) from the A valve port (28) is discharged. 15 s 'the user can simply switch the input/output state of the fluid (38) through the first valve port (28) and the second valve φ port (29). Controlling the actuating device (40) to perform a vertical direction of actuation. The body (20) itself has a plurality of mounting planes.

用性高之優點; 用性高之優點;如此_來, 又,牡愿用上較為方便,具有適 本創作相較於習用者,能夠克 藉此’本創作所提供之該流體式驅動機構(10)透過上述 結構’其簡化習用者的結構而縮小體積,能夠降低該流體 式驅動機構(10)於裝設時的空間限制,也不會縮減行程而影 ’另一方面可提供外部設 9 M320623 服習用者之缺失,具有使用上之方便性。 請參閱第七圖及第八圖,其係為本創作第二較佳實施 例所提供之一流體式驅動機構(12)’其結構與第一較佳實施 例大致相同,包含有一本體(20)以及一作動裴置(4〇^p惟’ 5其差異在於’該流體式驅動機構(12)的伸出方向係為向下伸 出,其與第一較佳實施例所揭示伸出方向為向上伸出者係 為相反;藉此,本實施例同樣可以達到與第—較佳實施例 相同之功效,並提供另一實施態樣。 、 請參閱第九圖,其係為本創作第三較佳實施例所提供 10之-流體式驅動麵(14),其結構與第一較佳實施例大致相 同,包含有一本體(20)以及一作動裝置(40);惟,其差異在 於,該本體(20)係直接鎖固於一平台(6〇),該平台(6〇)具有 二穿孔(62),該等穿孔(62)分別對應於該作動裝置(4〇)之二 導桿(44),以於該流體式驅動機構(14)作動時容置該作動裝 15置(40)之導桿(44);藉此,本實施例同樣可以達到與第一較 佳實施例相同之功效,並提供又一實施態樣。 請參閲第十圖,其係為本創作第四較佳實施例所提供 之一流體式驅動機構(16),其結構與第一較佳實施例大致相 同,包含有一本體(20)以及一作動裝置(4〇);惟,其差異在 2〇於,該本體(20)更包含有一彈簧(7〇),該彈簧(7〇)位於^本 體(20)之儲存空間(22)的第二空間(224)且推抵該活塞(3〇), 以提供該活塞(30)復歸的作用力。另外,使用者可依需要將 該彈簧設於該儲存空間(22)之第二空間(224),以提供該活 基(30)不同方向之作用力;藉此,本實施例同樣可以達到與 M320623 第-,佳實施例相同之功效,並提供再_實施態樣。 絲上所陳,本創作所提供流體式驅動機構透過上述結 構,其簡化習用者的結構而縮小體積,能夠降低該流體式 驅,機構於裝設時的空間限制,也不會縮減行程而影響作 5動範圍;同時,該本體可供外部設備直接進行裝設,在應 用上較為方便,具有適用性高之優點;如此一來,本創作 相較於習用者,能夠克服習用者之缺失,具有使用上 便性。 乃 本創作於前揭諸實施例中所揭露的構成元件及方法步 10驟,僅係為舉例說明,並非用來限制本案之範圍,本案之 範圍仍應以申請專利範圍為準,其他等效元件或步驟的替 代或變化,亦應為本案之申請專利範圍所涵蓋。 11 M320623 【圖式簡單說明】 圖係習用之流體式驅動機構。 圖係本創作第一較佳實施例之元件分解圖。 5 10 鲁 圖係本創作第一較佳實施例之組合立體圖。 :圖係本創作第一較佳實施例之結構示意圖。 揭示作動Ξ係本創作第—較佳實施例之動作示意圖,主要 置於伸出時的作動情形。 主要=作另’示意圖’ 第IΞ係本創作第二較佳實施例之實施態樣。 揭示,動裝之動作示意圖,主要 第十 M320623 【主要元件符號說明】 5The advantage of high use; the advantage of high use; so _,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, (10) By reducing the volume by the above-described structure 'simplifying the structure of the user, the space limitation of the fluid driving mechanism (10) at the time of installation can be reduced, and the stroke is not reduced, and the external device can be provided. 9 M320623 The use of the user is missing, it is convenient to use. Please refer to the seventh and eighth figures, which are a fluid-type driving mechanism (12) provided in the second preferred embodiment of the present invention. The structure is substantially the same as that of the first preferred embodiment, and includes a body (20). And an actuating device (4〇^p'5 differs in that the extending direction of the fluid-type driving mechanism (12) is downwardly extended, which is extended from the first preferred embodiment. The upwardly extending person is the opposite; thereby, the embodiment can also achieve the same effect as the first preferred embodiment, and provide another embodiment. Please refer to the ninth figure, which is the third creation of the present invention. The preferred embodiment provides a fluid driving surface (14) having a structure substantially the same as that of the first preferred embodiment, comprising a body (20) and an actuating device (40); however, the difference is that The body (20) is directly locked to a platform (6〇), the platform (6〇) has two perforations (62), and the perforations (62) respectively correspond to two guiding rods of the actuating device (4〇) 44), when the fluid driving mechanism (14) is actuated, the guiding rod (44) of the actuating device 15 (40) is accommodated; thereby, the embodiment is the same The same effect as the first preferred embodiment can be achieved, and another embodiment is provided. Referring to the tenth figure, which is a fluid driving mechanism (16) provided in the fourth preferred embodiment of the present invention, The structure is substantially the same as that of the first preferred embodiment, and includes a body (20) and an actuating device (4〇); however, the difference is 2, the body (20) further includes a spring (7〇), The spring (7〇) is located in the second space (224) of the storage space (22) of the body (20) and is pushed against the piston (3〇) to provide the re-entry force of the piston (30). The spring may be disposed in the second space (224) of the storage space (22) as needed to provide a force in different directions of the living base (30); thereby, the embodiment can also achieve the same as M320623- The same effect as the preferred embodiment, and providing a further embodiment. As shown in the wire, the fluid drive mechanism provided by the present invention, through the above structure, simplifies the structure of the user and reduces the volume, and can reduce the fluid drive. The space limitation of the installation during the installation will not reduce the stroke and affect the range of 5 movements; When the body is directly installed by an external device, it is convenient in application and has the advantage of high applicability; thus, the creation can overcome the lack of the practitioner and has the convenience of use compared with the conventional user. The components and methods disclosed in the foregoing embodiments are merely illustrative and are not intended to limit the scope of the present application. The scope of the case should still be based on the scope of the patent application. Alternatives or variations of the elements or steps of the invention are also covered by the scope of the patent application of the present application. 11 M320623 [Simple description of the drawings] The fluid drive mechanism used in the drawings. Figure 1 is an exploded view of the first preferred embodiment of the present invention Figure. 5 10 Lutu is a combined perspective view of the first preferred embodiment of the present creation. The figure is a schematic structural view of the first preferred embodiment of the present invention. The schematic diagram of the action of the preferred embodiment of the present invention is disclosed, which is mainly placed in the action of stretching. Mainly as another 'schematic' The first embodiment is the embodiment of the second preferred embodiment of the present creation. Revealing the action diagram of the movement, mainly the tenth M320623 [Description of the main components] 5

10 流體式驅動機構(10)(12)(14)(16) 本體(20) 儲存空間(22) 第一端面(221) 第二端面(222) 第一空間(223) 第二空間(224) 貫孔(24) 穿孔(26) 第一閥口 (28) 第二閥口 (29) 活塞(30) 驅動桿(32) 定位裝置(34) 防塵蓋(36) 流體(38) 作動裝置(40) 板件(42) 導桿(44) 限位桿(46) 桿體(50) 平台(60) 彈簧(70) 穿孔(62)10 Fluid drive mechanism (10)(12)(14)(16) Body (20) Storage space (22) First end face (221) Second end face (222) First space (223) Second space (224) Through Hole (24) Perforation (26) First Valve Port (28) Second Valve Port (29) Piston (30) Drive Rod (32) Positioning Device (34) Dust Cover (36) Fluid (38) Actuator (40 ) Plate (42) Guide rod (44) Limit rod (46) Rod body (50) Platform (60) Spring (70) Perforation (62)

1313

Claims (1)

M320623 九、申請專利範園: h 一種流體式驅動機構,包含有·· 二二:具!;=間、至少二貫孔第-間 於該本想内部且為呈長;狀的:=·::;空間形成 分別設於該本:::=連及該第二閥口 該:間該=,可受該推抵於 帶動而沿該㈣桿㈣轉;《於抑塞並受該活塞 於該本體H錢導桿分別穿設 導該板件位移。 干j/°各該貝孔軸向位移,以引 15 盆由t依^申請專利範圍第1項所述之流體式驅動舰 ;;中;ΤΓ儲存空間區分為-第-空間以及=空 :==:第一空間,該第,連上 η ’田Μ塞位移時’該第— 積會呈反比例相對增減。 Μ第一二間的容 1中專利範圍第1項所述之流體式驅動機構, 抵該以提活::歸於該儲存空間且推 5· 依據申π專利朗第i項所述之流體式驅動機構, 20 M320623 其中該本體具有至少一定位裝置,該定位裝置設於該本體 或外界且可被該作動裝置觸發,藉以界定該作動裝置的 動位置或行程。 、 6·依據申請專利範圍第5項所述之流體式驅動機構, 5其中該定位裝置的類型係選自極限開關(limit switch)、磁菩 開關(reed switch)、光電開關(photo-electricity switch)、觀卜 開關(roller switch)以及微動開關(jiggle switch)。 7·依據申請專利範圍第1項所述之流體式驅動機構, 其中該本體更包含有至少一防塵蓋,各該防塵蓋係呈環狀 10且設於該本體而位於該貫孔一端。 8·依據申請專利範圍第1項所述之流體式驅動機構, 其中該流體係為液態或氣態。 9·依據申請專利範圍第8項所述之流體式驅動機構, 其中該流體係選自油、水、以及空氣其中一種。 15 ι〇.依據申請專利範圍第1項所述之流體式驅動機 構,其中該本體更包含有至少一穿孔,以供該本體進行裴 設0 11·依據申請專利範圍第1項所述之流體式驅動機 構,其中該儲存空間於兩端定義出一第一端面以及一第二 20端面,該第-閥口形成於該第一端面,該第二閥口形 该第二端面。 15M320623 Nine, apply for a patent garden: h A fluid-type drive mechanism, including ·· 22: with!; = between, at least two through holes - between the inside and the inside is long; like: = · ::; space formation is respectively set in the book:::= and the second valve port: between the =, can be driven by the push and rotate along the (four) rod (four); "in the depression and the piston The body H guide rods are respectively disposed to guide the plate member displacement. Dry j / ° each of the shell hole axial displacement, to lead the 15 basin by t according to the patent application scope of the first type of fluid-driven ship;; medium; ΤΓ storage space is divided into - the first space and = empty: ==: The first space, the first, when connected to the η 'Field tamper displacement', the first-product will be inversely proportionally increased or decreased. The fluid-type drive mechanism described in item 1 of the first and second paragraphs of the first and second patents is to be lifted to: to be attributed to the storage space and push 5· according to the fluid type described in the application of the patent The driving mechanism, 20 M320623, wherein the body has at least one positioning device disposed on the body or outside and can be triggered by the actuating device to define a moving position or a stroke of the actuating device. 6. The fluid drive mechanism according to claim 5, wherein the type of the positioning device is selected from a limit switch, a reed switch, and a photo-electricity switch. ), a roller switch, and a jiggle switch. The fluid drive mechanism of claim 1, wherein the body further comprises at least one dust cover, each of the dust cover being annular 10 and disposed at the body and located at one end of the through hole. 8. The fluid drive mechanism of claim 1, wherein the flow system is in a liquid or gaseous state. 9. The fluid drive mechanism of claim 8, wherein the flow system is selected from the group consisting of oil, water, and air. The fluid drive mechanism of claim 1, wherein the body further comprises at least one perforation for the body to be disposed. 11. The fluid according to claim 1 The driving mechanism, wherein the storage space defines a first end surface and a second 20 end surface at both ends, the first valve port is formed on the first end surface, and the second valve port forms the second end surface. 15
TW96205786U 2007-04-11 2007-04-11 Fluid driving mechanism TWM320623U (en)

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