TWM362321U - A fluid power device - Google Patents

A fluid power device Download PDF

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TWM362321U
TWM362321U TW98201190U TW98201190U TWM362321U TW M362321 U TWM362321 U TW M362321U TW 98201190 U TW98201190 U TW 98201190U TW 98201190 U TW98201190 U TW 98201190U TW M362321 U TWM362321 U TW M362321U
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Taiwan
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fluid
pressure
outlet
piston
power device
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TW98201190U
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Chinese (zh)
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Chun-Kwan Yu
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Chun-Kwan Yu
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Priority to TW98201190U priority Critical patent/TWM362321U/en
Publication of TWM362321U publication Critical patent/TWM362321U/en

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Abstract

A fluid power device is provided. The fluid power device includes a basic pressure supply unit and a jet flow generator connected with the basic pressure supply unit. The jet flow generator includes: a fluid tank with a fluid inlet and a fluid outlet, a driven piston movable within the jet flow generator, and a connecting rod connecting the driven piston to the basic pressure supply unit. The connecting rod could transfer the force from the basic pressure supply unit to the driven piston, such that the driven piston moves to force the fluid out of the fluid tank. The fluid power device could convert a small input pressure into a large output fluid power.

Description

M362321 五、新型說明: 【新型所屬之技術領域】 ' 本創作有關於一種流體動力裝置,更特定而言,有 • 一種可實現動力轉化的可携式流體動力裝置。 $ ; 【先前技術】M362321 V. New description: [New technical field] 'This work is about a fluid power device, more specifically, a portable fluid power device that can realize power conversion. $ ; [Prior technology]

比 源 高速、高壓流體之動力在現代生活中有著廣泛的應用 如在機械加,需要骑地高壓流體料洗刀具 洗待加工零件。兩驗體洗車也是個典型的應料合 用均需要鶴機或者發動機來藝獨地供給能源,較浪= 此外’手搖式發電機也正日益廣泛地得到應用。但是 人手不停地做功,來帶動轉子在磁場中運 上、、、、’、產生电力。一旦停止人力做功,則手搖式發電機立 即就沒有電力產生。由於人的手力持續做功的能力有限,導致 了手搖式發電機的使用受到限制。 ,動螺检扳手是汽車修理中相肛具,其是_氣栗產 ί的壓縮空氣來推動螺栓扳手而進機轉做功的。然而,其携 π不方便在野外由於缺少電源__導致了大貨車司機不 便於自行拆卸車輛螺栓。 因此,需要一種節約能源、、便於携帶,而又可以持續做 功的流體動力裝置。 、 5 M362321 【新型内容】 種々丨L體動力裝置。其不受能源短缺 的逐步壓力輸入,累計產生出較大 為此,本創作提供了一 的影響,且可以借助於較少 的持久的動力輸出。 辅助提供了—種流體動力裝置,其_力 提供於人厭11。勤輔助㈣於為所述流體動力裝置 11錢力獅11減接。束流產生器 體人口和流體出Π的流體存儲罐;可在流體存儲 罐内讀滑動並在流體存儲罐内分隔出第—存儲腔和第二存 儲腔的束絲生雜;連接在壓力獅_和綠產生活塞之間 =力杆,力杆將壓力輔助器的作用力傳遞至束流產生活塞,使 得束流產生活塞義’進轉紐體存儲罐_趙從流體出 口流出,以產生流體動力。 ^其中,流體存儲罐具有第一流體入口、第一流體出口以及 第二流體入口和第二流體出口,其中,第一存儲腔是與第一流 體入口和第一流體出口相連’第二存儲腔是與第二流體入口和 第二流體出口相連,當束流產生活塞做推壓第一存儲腔的運動 日寸,弟一流體入口和弟一流體出口關閉,而第一流體出口和第 二流體入口打開,第一存儲腔内的流體從第一流體出口流出, 且有流體經第二流體入口而流入第二存儲腔内。 進一步地,束流產生器配置成使得,當束流產生活塞做推 壓苐二存儲腔的運動時,苐一流體出口和第二流體入口關閉, 而第一流體入口和第二流體出口打開’第二存儲腔内的流體從 第二流體出口流出’且有流體經第一流體入口流入第一存儲腔 M362321 内,並且,從第二流體出口流出的流體回流到第二流體入口附 近’以便於循環使用。 其中第一流體入口和第一流體出口内均具有流體單向導 通閥,並且第一流體入口和第一流體出口通過一段共用的流體 出入口而與第一存儲腔連通。可選的是,第一流體入口和第一 流體出口可單獨地與第一存儲腔連通。 在又一個實施例中,壓力輔助器包括壓力腔、置於壓力腔More than the source of high-speed, high-pressure fluid power in modern life has a wide range of applications, such as mechanical plus, you need to ride high-pressure fluid washing tools to wash the parts. The two-body car wash is also a typical application. Both cranes and engines are needed to supply energy separately. Waves = In addition, hand-cranked generators are increasingly being used. However, the human hand keeps doing work to drive the rotor to operate in the magnetic field, and to generate electricity. Once the manpower is stopped, the hand-cranked generator will have no electricity at all. The limited ability to perform work due to human hand forces has limited the use of hand-cranked generators. The dynamic thread check wrench is the phase anality of the automobile repairing. It is the compressed air of the _ gas pumping ί to push the bolt wrench and enter the machine to do work. However, it is inconvenient to carry π in the wild due to the lack of power __ which makes it difficult for large truck drivers to disassemble the vehicle bolts themselves. Therefore, there is a need for a fluid power device that saves energy, is easy to carry, and can continue to work. , 5 M362321 [New content] Kind of L body power device. It is not subject to the gradual pressure input of energy shortages, and the cumulative generation is larger. This creation provides an impact and can be relied on with less sustained power output. Auxiliary provides a fluid power device, the force of which is provided by the human body. Diligent assistance (4) for the replacement of the fluid power device 11 Qian Lishi 11. a beam generator body population and a fluid outflow fluid storage tank; the slide can be read in the fluid storage tank and the bundle of the first storage chamber and the second storage chamber are separated in the fluid storage tank; _ and green generate piston = force bar, the force bar transmits the force of the pressure assister to the beam generating piston, so that the beam generates the piston's 'transfer of the new body storage tank_ Zhao flows out of the fluid outlet to generate the fluid power. Wherein the fluid storage tank has a first fluid inlet, a first fluid outlet, and a second fluid inlet and a second fluid outlet, wherein the first storage chamber is connected to the first fluid inlet and the first fluid outlet 'second storage chamber Is connected to the second fluid inlet and the second fluid outlet. When the beam generates a movement of the piston to press the first storage chamber, the fluid inlet and the fluid outlet are closed, and the first fluid outlet and the second fluid are closed. The inlet opens, fluid in the first storage chamber exits the first fluid outlet, and fluid flows into the second storage chamber through the second fluid inlet. Further, the beam generator is configured such that when the beam produces a piston to push the movement of the second storage chamber, the first fluid outlet and the second fluid inlet are closed, and the first fluid inlet and the second fluid outlet are open. Fluid in the second storage chamber flows out of the second fluid outlet 'and fluid flows into the first storage chamber M362321 through the first fluid inlet, and fluid flowing out from the second fluid outlet flows back to the second fluid inlet' to facilitate recycle. Wherein both the first fluid inlet and the first fluid outlet have a fluid single-way valve, and the first fluid inlet and the first fluid outlet are in communication with the first storage chamber through a common fluid inlet and outlet. Alternatively, the first fluid inlet and the first fluid outlet may be separately in communication with the first storage chamber. In yet another embodiment, the pressure assistor includes a pressure chamber and is placed in the pressure chamber

内的壓力輔助活塞以及與壓力腔相連的壓力輔助流體出口和 壓力辅助流體入口’力杆的兩端分別連接束流產生活塞和壓力 輔助活塞。 另外,可選的是,壓力輔助器包括驅動器以及由驅動器所 驅動的驅動輪,力杆的鄰近壓力輔助器的一端具有條形齒輪, 條型齒輪與驅動輪嚙合,使得束流產生活塞可通過力杆而 動器的帶動下滑動。 〃 其中’束流產生活塞的錄至少是壓力伽活塞的餘的 3々倍。該流體動力裝置還包括阻隔片,雜隔片呈環狀,設於 第-存儲腔與勤腔的結合處,力杆穿過阻隔片,使得阻 將第二存儲腔與壓力腔在流體上阻隔開來。 同 在又-健_巾,綠產纽塞的至少―_ 軋囊,以促進流體動力輸出的均勻性。 玍 本創作的流體動力裝置可⑽基本恒定的較小動 轉化為持久的高速、高壓流體動力輸出。其不受能源 響,可以組成便於携帶的流體動力裝置。 ’、、的衫 具體來講’可在該越動域置的讀出π處設_電機 7 M362321 葉輪’由於流出的流體具有高壓、高速的特點,可以實現發電 機的正常發電。可以根據具體需要的發電量來調節輸入的壓 力’以及調節輸出流體的流速以及流量大小。由於壓力辅助器 僅需要逐步輸入較小壓力即可實現流體存儲罐内持久的大致 穩定壓力以供給高壓流體,所以,可採用現有技術中常見的壓 力油泵或者手動氣泵來用作壓力辅助器。 比如在手搖式發電機的應用場合,採用本創作的手搖式發 電機’使用者只需要通過壓力辅助器而手搖輪入一定的壓力之 後,可以休息一段時間,而發電機則不停止發電。等到流體存 儲罐内壓力小到不能輸出高壓束流時,使用者再行逐步輸入壓 力即可維持下一階段的工作。 再如在氣動螺栓扳手的應用場合,只需要在流體存儲罐 内輸入氣體即可。且在野外使用時,完全可以藉由手動供給辅 助壓力來保持流體存儲罐内的高壓,進而實現氣動螺检板 正常工作。The inner pressure assisting piston and the pressure auxiliary fluid outlet and the pressure assisting fluid inlet connected to the pressure chamber are connected to the beam generating piston and the pressure assisting piston, respectively. In addition, optionally, the pressure assistor includes a driver and a driving wheel driven by the driver, and the end of the force bar adjacent to the pressure assister has a bar gear, and the bar gear meshes with the driving wheel, so that the beam generating piston can pass The force bar is driven to slide down. 〃 where the beam produces a piston that is at least 3 times the remainder of the pressure gamma piston. The fluid power device further includes a barrier piece, the spacer is annular, disposed at a junction of the first storage cavity and the diligent cavity, and the force bar passes through the barrier piece, so that the second storage cavity and the pressure cavity are fluidly blocked Open. At the same time - the health - towel, the green production of the New Zealand's at least "_ rolling pockets" to promote the uniformity of fluid power output.玍 The fluid power unit of this creation converts (10) a substantially constant small motion into a permanent high-speed, high-pressure fluid power output. It is unaffected by energy and can be built into a portable fluid power unit. Specifically, 'the shirt' can be set in the readout π of the overshifting field. _Motor 7 M362321 Impeller The normal power generation of the generator can be achieved because the fluid flowing out has the characteristics of high pressure and high speed. The input pressure can be adjusted according to the amount of power generation required and the flow rate of the output fluid and the flow rate can be adjusted. Since the pressure assister only needs to input a small pressure stepwise to achieve a substantially constant pressure in the fluid storage tank to supply the high pressure fluid, a pressure oil pump or a manual air pump which is common in the prior art can be used as the pressure assister. For example, in the application of a hand-cranked generator, the hand-cranked generator of the present invention can be used for a period of time after the user has only required a hand pressure through the pressure aid, and the generator does not stop. Power generation. When the pressure in the fluid storage tank is too small to output the high pressure beam, the user can gradually input the pressure to maintain the next stage of work. As in the case of pneumatic bolt wrenches, it is only necessary to input gas into the fluid storage tank. When used in the field, it is completely possible to maintain the high pressure in the fluid storage tank by manually supplying the auxiliary pressure, thereby realizing the normal operation of the pneumatic screw plate.

【實施方式】 類似的部件,為了簡 ’但是僅在某些視圖 在附圖中採用類似的附圖標記來標示 潔起見,有時同一部件在不同視圖中出現 中對其進行了標示。 請參考圖1,其顯示了根據本創作的流體動力裝置⑽的 -個實施例的示意圖。此流體動力裝置應包括壓力輔助器 140以及束流產生器12〇。壓力輔助器14〇和束流產生器^ 可通過各自的凸緣結構⑸、152而相互連接起來。壓^輔助 M362321 器140包括壓力腔(未標示)、置於壓力腔内的壓力輔助活塞 136以及與麼力腔相連的壓力輔助流體出入口 ι44、146。 束流產生器120包括:具有流體入口和流體出口的流體存 儲罐121、122 ;可在流體存儲罐内密封滑動並在流體存儲罐 内分隔出第一存儲腔121和第二存儲腔122的束流產生活塞 123 ;連接在壓力辅助活塞136和束流產生活塞123之間的力 杆135。在第二存儲腔122與壓力腔的結合處設有呈環狀的阻 隔片142。力杆135穿過阻隔片142,使得阻隔片142將第二 存儲腔12 2與壓力腔阻隔開來’防止以上兩個腔之間的流體相 互連通。束流產生活塞123的直徑至少是壓力輔助活塞136 的直徑的3倍(優選為5倍以上,最優為1〇倍以上),以便 明顯地體現出壓力積累的效果。在束流產生活塞123的兩侧設 置有弟一撓性氣囊124和第二撓性氣囊125。撓性氣囊^4、 125由具有彈性的包裹物(如彈性體袋)密封氣體而組成。挽 性氣囊124、125可在壓力的作用下縮小,一旦壓力變小則可 以逐步恢復原狀,以促進流體動力輸出的持續均勻性。、 第一存儲腔121具有第一流體入口 127、第一流體出口 126。第二存儲腔122具有第二流體入口 128和第二流體出口 129。第-流體人口 127、第-流體出口 126、第二流體入口 128以及第二流體出口 129内分別具有流體單向導通閥131、 132、133、134。第-流體入口 127和第一流體出口 126通過 一I又共用的流體出入口(未標示)而與第一存儲腔12ι連通。 第二流體人口 128和第二流體出α 129通過—段共用的流體出 入口(未標示)而與第二存儲腔122連通。此外’可以設置相 9 M362321 應的流體回收結構(圖未示),使得從流體出口流出的流體做 功之後,再回收到流體入口附近,便於循環利用。 - 下面將結合圖2和圖3來具體介紹本創作的流體動力裝置 100的工作過程。參考圖2,首先,通過壓力輔助流體出入口 146而逐步注入高壓流體(比如油、水或者空氣),此時壓力 腔内的部分流體通過壓力輔助流體出入口 144流出。壓力輔助 活塞136受壓而向左推動(圖2中箭頭A所示方向),同時 鲁 推動力杆135和束流產生活塞123左移。束流產生活塞123 做推壓第一存儲腔121的運動,第一流體入口 127和第二流體 出口 129關閉,而第一流體出口 126和第二流體入口 128打 開。第一存儲腔121内的流體從第一流體出口 126沿箭頭A, 方向流出,且有流體經第二流體入口 128沿箭頭A,,方向流入 第二存儲腔122内。同時,第一撓性氣囊124由於受壓而壓縮。 由於束流產生活塞123和壓力輔助活塞136之間直徑的明顯差 异,即使停止向壓力腔逐步注入高壓流體,只要壓力腔内存有 壓力,仍可以保持束流產生活塞123推動第一存儲腔121而流 出流體。隨著壓力輔助器140壓力腔内的壓力逐漸變小,第一 撓性氣囊124會逐步恢復原狀,這樣可使得在最後的階段,仍 可有流體從第一流體出口 126流出。 參考圖3 ’首先通過壓力輔助流體出入口 144而逐步注入 咼壓流體(比如油、水或者空氣),此時壓力腔内的部分流體 通過壓力輔助流體出入口 146而流出。壓力辅助活塞136 ^推 而向右推動(圖3中箭頭B所示方向),同時拉動力杆^35 和束流產生活塞123而右移。束流產生活塞123做推壓第二存 10 M362321 儲腔122的運動’第一流體出口 126和第二流體入口 128關 閉。第一流體入口 127和第二流體出口 129打開,第二存儲腔 122内的流體沿箭頭B”方向而從第二流體出口 129流出,且 有流體經第一流體入口 127沿箭頭B,方向流入第一存儲腔121 内。同時,第二撓性氣囊125由於受壓而壓縮。由於束流產生 活塞123和壓力輔助活塞136之間直徑的明顯差异,即使停止 向壓力腔逐步注入高壓流體’只要壓力腔内存有壓力,仍可以 •保持束流產生活塞123推動第二存儲腔122而流出流體。隨著 壓力輔助器140壓力腔内的壓力逐漸變小,第二撓性氣囊125 會逐步恢復原狀,這樣可使得在最後的階段,仍可有流體從第 二流體出口 129流出。 圖4是顯示了根據本創作的流體動力裝置的另一個實施 例的示意圖。本實施例的流體動力裝置2〇〇與圖i所示的流體 動力裝置100基本上類似。該流體動力裴置2〇〇同樣包括壓力 輔助器240、束流產生器220。壓力辅助器24〇和束流產生器 220通過各自的凸緣結構251、252而相互連接起來。束流產 • 生器220包括:第一存儲腔22卜第二存儲腔222、束流產生 活塞223、力杆235、阻隔片242、第一流體入口 227、第一流 體出口 226、第二流體入口 228和第二流體出口 229、流體單 向導通閥 231、232、233、234。 ’ 料同的是,第一流體入口 227和第一流體出口 226單獨 地與第一存儲腔22i連通。第二流體入口挪和第二流體出口 229單獨地與第二存儲腔222連通。 此外,壓力辅助器240包括驅_(圖未示,例如為電動 11 M362321 馬達)以及由驅動器所驅動的驅動輪246,力杆235的鄰近壓 力辅助器240的一端具有條形齒輪245,條形齒輪245與驅動 輪246嚙合,使得束流產生活塞223可通過力杆235而在驅動 器的帶動下滑動。[Embodiment] Similar components are used for simplicity, but only in some of the drawings, like reference numerals are used to indicate the singularity, and sometimes the same component is indicated in the different views. Referring to Figure 1, there is shown a schematic view of an embodiment of a fluid power device (10) in accordance with the present teachings. This fluid power device should include a pressure assistor 140 and a beam generator 12A. The pressure aid 14 and the beam generator can be connected to each other by respective flange structures (5), 152. The pressure assisting M362321 140 includes a pressure chamber (not shown), a pressure assisting piston 136 placed in the pressure chamber, and a pressure assisting fluid inlet and outlet port 144, 146 connected to the force chamber. The beam generator 120 includes: a fluid storage tank 121, 122 having a fluid inlet and a fluid outlet; a bundle slidable within the fluid storage tank and separating the first storage chamber 121 and the second storage chamber 122 within the fluid storage tank The flow produces a piston 123; a force rod 135 connected between the pressure assisting piston 136 and the beam generating piston 123. An annular blocking piece 142 is provided at the junction of the second storage chamber 122 and the pressure chamber. The force rod 135 passes through the barrier sheet 142 such that the barrier sheet 142 blocks the second reservoir chamber 12 2 from the pressure chamber to prevent the fluid between the two chambers from interconnecting. The beam generating piston 123 has a diameter at least three times (preferably 5 times or more, preferably 1 〇 or more) of the diameter of the pressure assisting piston 136 so as to clearly exhibit the effect of pressure accumulation. On both sides of the beam generating piston 123, a flexible airbag 124 and a second flexible airbag 125 are disposed. The flexible airbags ^4, 125 are composed of a flexible covering such as an elastomeric bag to seal the gas. The accommodating airbags 124, 125 can be shrunk under the action of pressure, and once the pressure is reduced, they can be gradually restored to the original state to promote continuous uniformity of the fluid power output. The first storage chamber 121 has a first fluid inlet 127 and a first fluid outlet 126. The second reservoir chamber 122 has a second fluid inlet 128 and a second fluid outlet 129. The first fluid population 127, the first fluid outlet 126, the second fluid inlet 128, and the second fluid outlet 129 have fluid single-way valves 131, 132, 133, 134, respectively. The first fluid inlet 127 and the first fluid outlet 126 are in communication with the first storage chamber 12i through a shared fluid inlet (not shown). The second fluid population 128 and the second fluid outlet a 129 are in communication with the second storage chamber 122 via a fluid inlet (not labeled) that is shared by the segments. In addition, the fluid recovery structure (not shown) of the phase 9 M362321 can be set so that the fluid flowing out of the fluid outlet is recycled to the vicinity of the fluid inlet for recycling. - The operation of the fluid power device 100 of the present invention will be specifically described below with reference to Figs. 2 and 3. Referring to Fig. 2, first, a high pressure fluid (e.g., oil, water, or air) is gradually injected through the pressure assist fluid inlet and outlet port 146, at which time a portion of the fluid in the pressure chamber flows out through the pressure assist fluid inlet and outlet port 144. The pressure assisting piston 136 is pressed to the left (in the direction indicated by the arrow A in Fig. 2), while the urging force lever 135 and the beam generating piston 123 are moved to the left. The beam generating piston 123 acts to urge the first storage chamber 121, the first fluid inlet 127 and the second fluid outlet 129 are closed, and the first fluid outlet 126 and the second fluid inlet 128 are opened. Fluid in the first storage chamber 121 flows out of the first fluid outlet 126 in the direction of arrow A, and fluid flows into the second storage chamber 122 in the direction of arrow A through the second fluid inlet 128. At the same time, the first flexible air bag 124 is compressed due to the pressure. Due to the significant difference in diameter between the beam generating piston 123 and the pressure assisting piston 136, even if the high pressure fluid is gradually injected into the pressure chamber, the beam generating piston 123 can be held to push the first storage chamber 121 as long as there is pressure in the pressure chamber. Flow out of fluid. As the pressure within the pressure chamber of the pressure assistor 140 gradually decreases, the first flexible bladder 124 will gradually return to its original shape, such that at the final stage, fluid may still flow out of the first fluid outlet 126. Referring to Fig. 3', a pressurized fluid (such as oil, water or air) is first injected through the pressure assisting fluid inlet and outlet port 144, at which time a portion of the fluid in the pressure chamber flows out through the pressure assisting fluid inlet and outlet port 146. The pressure assisting piston 136 is pushed to the right (in the direction indicated by the arrow B in Fig. 3) while the pulling lever 35 and the beam generate the piston 123 and move to the right. The beam generating piston 123 acts to push the second reservoir 10 M362321 reservoir 122 movement 'the first fluid outlet 126 and the second fluid inlet 128 are closed. The first fluid inlet 127 and the second fluid outlet 129 are open, the fluid in the second storage chamber 122 flows out of the second fluid outlet 129 in the direction of arrow B", and fluid flows in the direction of arrow B through the first fluid inlet 127. At the same time, the second flexible air bag 125 is compressed due to the pressure. Since the beam flow produces a significant difference in diameter between the piston 123 and the pressure assisting piston 136, even if the high pressure fluid is gradually injected into the pressure chamber, as long as There is pressure in the pressure chamber, and it is still possible to keep the beam generating piston 123 pushing the second storage chamber 122 to flow out of the fluid. As the pressure in the pressure chamber of the pressure assistor 140 becomes smaller, the second flexible airbag 125 gradually returns to its original state. This may allow fluid to flow out of the second fluid outlet 129 at the final stage. Figure 4 is a schematic diagram showing another embodiment of a fluid power device according to the present invention. The fluid power device 2 of the present embodiment The crucible is substantially similar to the fluid power unit 100 shown in Fig. i. The hydrodynamic unit 2 also includes a pressure assistor 240 and a beam generator 220. The auxiliary unit 24 and the beam generator 220 are connected to each other by respective flange structures 251, 252. The beam generator 220 includes a first storage chamber 22, a second storage chamber 222, a beam generating piston 223, and a force. Rod 235, barrier sheet 242, first fluid inlet 227, first fluid outlet 226, second fluid inlet 228 and second fluid outlet 229, fluid single-way valve 231, 232, 233, 234. The first fluid inlet 227 and the first fluid outlet 226 are separately in communication with the first storage chamber 22i. The second fluid inlet and the second fluid outlet 229 are separately in communication with the second storage chamber 222. Further, the pressure assistor 240 includes a drive _ (not shown, for example, an electric 11 M362321 motor) and a drive wheel 246 driven by a driver, the end of the force bar 235 adjacent to the pressure assistor 240 has a bar gear 245, and the bar gear 245 meshes with the drive wheel 246. The beam generating piston 223 is caused to slide by the driver 235 through the force lever 235.

明一並參照圖5和圖ό,其分別顯示了根據本創作的流體 動力裳置的缝出口和紐人口的不同實施例。圖5中的流體 入口 329處的單向閥4〇〇關閉,而流體出口 326處的單向閥 332打開’使得流體可以沿箭頭c、c,方向流出。圖6中的流 體入口 429處的單向㈤434關閉,而流體出口 426處的單向閥 432打開,使得流體可以沿箭頭D、D,方向流出。 需要指出的是,壓力辅助器14〇、細可以配備壓力感測 器以及自動㈣裝置,當感酬壓力辅助器14G、24G壓力腔 =的壓力餘預設辦,可以由控雜置進行㈣來重新注入 兩壓流體。 此外,儘管本文實關巾_要採賴絲囊,但是 可以不採用祕氣囊,祕本上不影響本創作的效果。 根據創作人的實驗數據,流體出σ處的流體流雜活塞上 的麗力大贼正_係’同時糾計算以及實驗均發現^ 他條件不變的條件下’束流產生活塞123的直徑越大,出 口處的流體流速保持越久。 出 本文中所用到的方位用詞“上”、“下,,、“左” ‘‘ 以及類似賴等均是姆的,是―方便描__的^’。 如果在不_朗中變化了視圖觀察點,則上述 要相應地變化。 而 M362321 不背_明了本創作的各種優選實施例,但是只要 各種料和細’本領域的技術人貞可輯其進行 和敎’觸於本_的賴範圍。 本創η 以實施例揭露如上,然其並非用以限定 =之領,有通常知識者,在不脫離 創作之伴’當可作些許之更動與潤飾,故本 保視後社申請專鄉_界定者為準。 【圖式簡單說明】 可參考附圖通過實例更加具體 未按照比例繪製,在附圖中: ^㈣其中附圖並 。 置的一個實施例的 口 1中流體動力I置的—個運作狀態。 圖4是二了另-個運作狀態。 的示意圖。 的机體動力裝置的另-個實施例 【主要元件符號說明】 1〇〇 :流體動力裝置 120 :束流產生器 121 :第一存儲腔 122 :第二存儲腔 M362321 :束流產生活塞 :第一撓性氣囊 :第二撓性氣囊 :第一流體出口 :第一流體入口 :第二流體入口 :第二流體出口 :單向導通閥 :單向導通閥 :單向導通閥 :單向導通閥 :力杆 :壓力輔助活塞 :壓力輔助器 :阻隔片 :流體出入口 :流體出入口 .凸緣結構 •凸緣結構 :流體動力裝置 :束流產生器 :第一存儲腔 :第二存儲腔 :束流產生活塞 14 M362321 :第一撓性氣囊 :第二撓性氣囊 :第一流體出口 :第一流體入口 :第二流體入口 :第二流體出口 :單向導通閥 :單向導通閥 :單向導通閥 :單向導通閥 :力杆 :壓力輔助活塞 :壓力輔助器 :阻隔片 :條形齒輪 .驅動輪 :凸緣結構 :凸緣結構 15Referring to Figures 5 and 明, respectively, different embodiments of the slot outlet and the Newton population of the hydrodynamic skirt according to the present invention are shown. The one-way valve 4 流体 at the fluid inlet 329 in Figure 5 is closed, and the one-way valve 332 at the fluid outlet 326 is open so that fluid can flow in the direction of arrows c, c. The one-way (five) 434 at the fluid inlet 429 in Figure 6 is closed, while the one-way valve 432 at the fluid outlet 426 is open so that fluid can flow in the direction of arrows D, D. It should be pointed out that the pressure assistor 14 can be equipped with a pressure sensor and an automatic (four) device. When the pressure of the pressure auxiliary device 14G, 24G pressure chamber is preset, it can be performed by the control (4). Refill the two pressurized fluids. In addition, although this article is really a towel, it is necessary to use the sac, but it does not use the secret airbag. The secret does not affect the effect of this creation. According to the creator's experimental data, the Lili thief on the fluid flow miscellaneous piston at the σ out of the fluid is simultaneously calculated and experimentally found that the diameter of the beam generating piston 123 is the same under the condition that the condition is constant. Large, the longer the fluid flow rate at the exit. The orientation words "upper", "lower,", "left" and similar in the text used in this article are all um, which is "convenient to describe __^". If it does not change in lang The view observation point, the above will be changed accordingly. And M362321 does not clarify the various preferred embodiments of the present creation, but as long as the various materials and fines of the art can be edited and smashed The scope of the invention is as disclosed above in the embodiment, but it is not used to limit the =, the general knowledge, without the separation of the companion's can make some changes and retouching, so this application BRIEF DESCRIPTION OF THE DRAWINGS [Description of the drawings] A more detailed description of the drawings may be made by way of example with reference to the accompanying drawings, in which: FIG. Figure 1 is a schematic diagram of another operating state. Another embodiment of the body power unit [main component symbol description] 1〇〇: fluid power unit 120: beam current Generator 121: first storage cavity 122: Storage cavity M362321: Beam generating piston: First flexible airbag: Second flexible airbag: First fluid outlet: First fluid inlet: Second fluid inlet: Second fluid outlet: Single-way valve: Single-way valve : Single-way valve: Single-way valve: Force bar: Pressure auxiliary piston: Pressure assist: Barrier: Fluid inlet and outlet: Fluid inlet and outlet. Flange structure • Flange structure: Fluid power unit: Beam generator: First Storage cavity: second storage cavity: beam generating piston 14 M362321: first flexible airbag: second flexible airbag: first fluid outlet: first fluid inlet: second fluid inlet: second fluid outlet: one-way communication Valve: Single-way valve: Single-way valve: Single-way valve: Force bar: Pressure auxiliary piston: Pressure assist: Barrier: Bar gear. Drive wheel: Flange structure: Flange structure 15

Claims (1)

M362321 六、申請專利範圍: 1 ·一種流體動力裝置,包括: 壓力輔助器,用於為所述流體動力裝置提供輸入壓力; 束流產生n ’與所述壓力輔助別目連接,並在所述壓力輔 助器的作用下產生具有一定速度的動力束流; 其中’所述束流產生器包括: =體存儲罐’可存於輸出動力的流體,所述流體存儲 罐具有流體入口以及流體出口; ί趙’在所述赫存儲_密封滑祕在所述流 體存儲罐内/刀隔出第一存儲腔和第二存儲腔, 助哭壓,助器和束流產生“之間,將壓力輔 1產生活塞,使得束流產生活塞滑動, ϊ 舰或第二存儲_的流體從流體出口流 出,以產生流體動力。 2 .如申請專利細第丨項所述之流體動力裝置, 所述g存儲罐具有第-流體人口、第― 第 體入口、第二流體出口,其中 35 乂及弟一抓 样入⑽山, 私—存儲腔是與所述第一 1入口_出口相連,所述第二存儲 流體入口和第二流體出口相連’當所述束流錢活夷 述第-存儲腔的運糾,所述第★ &quot;娜[所 ,瓜體入口和所述第二流體出 而所述弟一〜體出口和所述第二流 第-^腔⑽流舰所述第__.如,且= 二流體入口而流人所述第二存錯腔内。 H 工第 16 M362321 所述第2項所述之流體動力裝置,其中, 第二存儲腔的運動時=當=流f生活織推壓_ 關閉,而第-流體入=述—第第二流體入口 7疋第一川L體出口打開,所述繁-左 入S'二:3述工二流體出口流出,且有流體經第-流體 ^ 所衫—存内,並且,從所述第二流體出口法 使用 出的流體做功之後回流到所述第二流體人口附近,以便於循ς … &quot;月專利範圍第3項所述之流體動力裝置,其中, 所述第一流體入口和第— ’、 不弟机體出口内均具有流體單向導通 ♦並且所述第—流體人口和所述第—流體出口通過一段 的流體出人口而與所述第—存儲腔連通。 、 、I.如申請專利範圍第3項所述之流體動力裝置,其中, 1述第-流體人口和第—流體出口内均具有流體單向導通 F二並且所述第一流體人口和所述第-流體出口均單獨地與所 述第一存儲腔連通。 一、 、=·如申請專利範圍第1項所述之流體動力裝置,其中, 所述壓力辅助器包括壓力腔、置於所述壓力腔内的壓力輔助活 塞以及與所述壓力腔相連的壓力輔助流體出口和壓力輔助流 體入口所述力杆的兩端分別連接所述束流產生活塞和所述壓 力輔助活塞。 17 M362321 所述壓力如輔項所述之流體動力裝置,其中, 輪,所述力杆的°盗以及由所述驅動器所驅動的驅動 述條形===力輔助器的-端具有條形餘,所 所述力杆而在所述驅動⑽^^仏產生活塞可通過 中,:述項所述之流體動力袭置,其 的3倍。生趙的直徑至少是所述壓力輔騎塞的直徑 #勺1^如申睛專利範圍第6項所述之流體動力裝置,复中, 還包括阻隔片,所述阻 ,、甲 述壓力腔’册所述第二存儲腔與所 迹力杆穿過所述阻隔片,使得__ 、、-存儲贿所賴力腔在紐上阻隔開來。 10、如中晴專利範圍第4或9項所述之流體動力震置, 述束流產生活塞的至少—側設置有撓性氣囊,以促進 流體動力輸出的均勻性。 Λ從遘 18M362321 VI. Patent Application Range: 1 - A fluid power device comprising: a pressure assister for providing an input pressure to the fluid power device; a beam flow generating n' to the pressure assisting eye connection, and Producing a power beam having a certain velocity under the action of a pressure aid; wherein the beam generator comprises: a body storage tank that can be stored in a fluid that outputs power, the fluid storage tank having a fluid inlet and a fluid outlet;赵 ' ' 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在The piston is generated such that the beam causes the piston to slide, and the fluid of the ship or the second reservoir flows out of the fluid outlet to generate fluid power. 2. The fluid power device as described in the application specification, the g storage tank Having a first fluid population, a first body inlet, and a second fluid outlet, wherein the 35th and the younger ones are captured into the (10) mountain, and the private-storage chamber is connected to the first 1 inlet_outlet. The second storage fluid inlet and the second fluid outlet are connected to each other when the bundle is in the middle of the storage chamber, the second &quot; And the second one of the body outlets and the second stream of the first cavity (10) of the flow ship said the __., and = two fluid inlets and flow into the second error chamber. The fluid power device of item 2, wherein the movement of the second storage chamber is = when the flow = the flow of the fabric is pressed, and the first fluid is introduced into the second fluid inlet 7 The first L-shaped body outlet is opened, and the complex-left-in S' two: 3 working fluid outlets are outflowed, and the fluid flows through the first fluid-in-situ, and from the second fluid outlet method &lt;RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; Each of the outlets of the body has a fluid single guide ♦ and the first fluid population and the first fluid outlet The fluid power device of the third aspect of the invention, wherein the first fluid population and the first fluid outlet are both in the first fluid population and the first fluid outlet. The fluid is in a single pass F and the first fluid population and the first fluid outlet are each separately in communication with the first storage chamber. 1. The fluid power device according to claim 1 The pressure assistor includes a pressure chamber, a pressure auxiliary piston disposed in the pressure chamber, and a pressure auxiliary fluid outlet connected to the pressure chamber and a pressure auxiliary fluid inlet respectively connected to two ends of the force rod The beam produces a piston and the pressure assist piston. The invention is directed to a fluid power device according to the invention, wherein the wheel, the thief of the force bar and the driving strip driven by the driver have a strip shape at the end of the force assister. The force rod is used to generate a piston through the drive (10), and the fluid power described in the above item is three times. The diameter of the living Zhao is at least the diameter of the pressure auxiliary riding plug. The scoop 1 ^ is the fluid power device described in claim 6 of the patent application scope, and further includes a blocking piece, the resistance, and the pressure chamber. The second storage chamber and the tracked force rod pass through the barrier sheet, so that the storage compartment of the __, - is blocked. 10. A hydrodynamic shock as described in the fourth or ninth patent of the Japanese Patent Publication No. 4 or 9, wherein at least one side of the beam generating piston is provided with a flexible airbag to promote uniformity of fluid power output. Λ from 遘 18
TW98201190U 2009-01-21 2009-01-21 A fluid power device TWM362321U (en)

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