M323543 八、新型說明: 【新型所屬之技術領域】 本創作有關於閥的領域,更特定地,有關於閥及用此 閥的按摩系統,該閥防止空氣從氣袋回流,該閥包括啟動 機構及閥體,該啟動機構包括活塞。 【先前技術】M323543 VIII. New description: [New technical field] This creation is about the field of valves, more specifically, the valve and the massage system using the valve, which prevents air from flowing back from the air bag, the valve including the starting mechanism And a valve body, the starting mechanism comprising a piston. [Prior Art]
閥藉開、關、局部阻塞各通道而規範流體(氣體、液 化固體、漿、液體)的流動。閥有閥體及啟動機構,該閥 體有二或更多孔。當該啟動機構運作而開、關該閥體的特 疋孔’流體能透過這些孔而進入或離開該閥。在流體系統 裡,閥的孔經常連到管路。 μ 啟動機構的一例是螺線管。「螺線管」通常护 電磁能轉變成動能(例如直線運動)的, 種把 、 、罝。因此,「Jr罗 線管閥」指整合電磁螺線管及閥體而成的裴置。、磲 統的例子裡,該螺線管由平衡的或可輕易移在凌體系 塞)組成,該活塞藉開、關在該閥體裡的通道的核(或活 進入或離開適當的孔。在流體(氣動及液壓^而弓丨導流體 裡,這種螺線管閥的使用通常允許小電流(、^統的規範 流到該螺線管,控制在約12〇千巴斯卡或丨連續或脈動) 氣閥經常用在按摩裝置裡。按摩裝置渴A巴的流體。 引導空氣,制意安排的統及T序或同時 用者的身上的按摩效果。 乂模仿在一使 美國專利申請案2005/023196揭露氣閱的The valve regulates the flow of fluids (gas, liquefied solids, pulp, liquid) by opening, closing, and partially blocking the passages. The valve has a valve body and a starting mechanism which is two or more porous. When the actuating mechanism is operated to open and close the special bore of the valve body, fluid can enter or leave the valve through the holes. In fluid systems, the bore of the valve is often connected to the line. An example of a μ starter mechanism is a solenoid. "Spiral" is usually used to protect electromagnetic energy into kinetic energy (such as linear motion). Therefore, "Jr Rotary Pipe Valve" refers to a device in which an electromagnetic solenoid and a valve body are integrated. In the case of SiS, the solenoid consists of a balanced or easily moveable plug that opens and closes the core of the passage in the valve body (or moves into or out of the appropriate hole). In fluids (pneumatic and hydraulic), the use of such solenoid valves generally allows for the flow of small currents (the specification of the system to the solenoid, controlled at approximately 12 〇 thousand kPa or 丨Continuous or pulsating) The air valve is often used in massage devices. The massage device is thirsty for the fluid of the A. The air is guided, the system is arranged and the T-sequence or the massage effect of the user's body is simultaneously applied. Case 2005/023196 reveals deflation
其插 5 M323543 述一種氣動按摩裝置(包括閥體及啟動機構)所用的電磁 螺線管閥組合。實質上,該組合有一輸入道與幾個連續的 與該輸入道相通的孔,空氣通過該輸入道。在每一孔有一 螺線管,以管制進入這些孔的氣流,其中該螺線管與氣袋 相通。因此,若欲使特定氣袋充氣,則啟動那個管制與該 氣袋相通的孔的螺線管,以允許空氣流入該孔,並接著流 入該氣袋。 尸然而,當兩個氣袋共用—流體源,若第二氣袋開始漏 氣,則第一氣袋立即局部漏氣,因在第一、二氣袋之間有 壓力差,第一氣袋的空氣傾向從第一氣袋衝入第二氣袋, 致第一氣袋裡的壓力劇降。空氣違反其原訂路線的流動 (在此例中,空氣從第一氣袋到第二氣袋的流動)稱為「回 回流造成壓力降,那可能是嚴重的,且通常在第一 耽袋裡持直到在第—氣袋裡的壓力等於在第二氣袋裡 的壓力。僅在壓力相等後,第—氣袋方能回復充氣。 【新型内容】 不芰回ML產生的後果,特別是在按摩裝置裡,因 [力的劇降經常造成按摩效果的立㈣失,以致按摩裝置 失效。因此,吾人需要_種閥,能防止空氣從一氣袋回流, 並用曰通里產方法’以低成本製造。就此,-種閥用申請 專利範圍定義的閥體克服上述的困難。 這種閥體通常與-種啟動機構一起用,該啟動機構包 括活塞。因此,在本創作的第—面,該閥體包括一輸入道 6 M323543 及一輸出道,二者藉至少-送料道相通。送料道從—輸人 道-送料道接點延伸至-送料道-輸出道接點。該送料道有 至少曾-、=孔連到-氣袋及至少兩閥座。―閥座接近 入道-喊道接點,另-閥座接近該送料道⑽道接點。 =一閥絲納活塞,以致_的活塞規範空氣從該輸 入逗以該送料道,並從該送料黯⑽輪岐。因此, 這些閥座與個活塞組合而成為闕。該送料道還有一止It inserts 5 M323543 an electromagnetic solenoid valve combination for a pneumatic massage device (including a valve body and a starting mechanism). Essentially, the combination has an input track and a plurality of consecutive holes in communication with the input path through which air passes. A solenoid is provided in each of the holes to regulate the flow of air into the holes, wherein the solenoid is in communication with the air bag. Therefore, if a particular air bag is to be inflated, the solenoid that regulates the hole communicating with the air bag is activated to allow air to flow into the hole and then into the air bag. The corpse, however, when the two airbags share a fluid source, if the second airbag begins to leak, the first airbag immediately leaks partially, because there is a pressure difference between the first and second airbags, the first airbag The air tends to rush from the first airbag into the second airbag, causing the pressure in the first airbag to drop dramatically. The flow of air in violation of its original route (in this case, the flow of air from the first airbag to the second airbag) is called "backflow causes a pressure drop, which can be severe and usually in the first pocket. The pressure in the airbag is equal to the pressure in the second airbag. Only after the pressure is equal, the first airbag can return to the air. [New content] The consequences of ML are not lost, especially In the massage device, because the sudden drop of force often causes the massage effect to be lost (four), the massage device fails. Therefore, we need a kind of valve to prevent air from flowing back from an air bag, and use the method of low-through production. Cost manufacturing. In this regard, the valve body overcomes the above difficulties with the valve body defined in the scope of the patent application. Such a valve body is usually used together with a starting mechanism including a piston. Therefore, in the first aspect of the present invention, The valve body comprises an input passage 6 M323543 and an output passage, and the two are connected by at least a feed passage. The feed passage extends from the input passage to the feed passage to the feed passage to the output passage. The feed passage has at least Zeng-, = Kong Lian - Air bag and at least two valve seats. ―The valve seat is close to the entrance - shouting the contact point, and the other - the valve seat is close to the contact point of the feed channel (10). = One valve is the nano piston, so that the piston of the _ specification air is teased from the input With the feed channel, and from the feed raft (10) rim. Therefore, these valve seats are combined with a piston to become 阙. The feed channel has a stop.
回閥設在該送料孔及該輸人道—送料道接點之間,以防止 流體從該送料孔流入該輸入道。 、在本創作的-實施例裡,該閥體可能包括數條送料 道,其中通過每條送料道的流體的流動從該輸人道開始而 結束於該輸ώ道。在此實施舰,這麵料道的這種安排 使通過-難道的流體的雜平行於通過另—送料的 流體的流動。 在另-實施例裡,該止回閥可能設在該送料孔及該闕 座之間,接近該送料孔。換言之,在此實施例裡,該正回 閥較接近該送料孔。 在另一實施例裡,該送料道可能有第二止回閥設在該 輸入孔及該送料道-輸出道接點之間,以防止流從該輸出 口流入該送料孔。更特定地,第二止回閥可能設在該送料 口及另一閥座之間,但接近該送料口。 在上述的閥體的任何實施例裡,該止回閥可能是任何 允許單向流動的閥。這種閥的例子包括,球型止回閥、單 擺碟止回閥或雙擺碟止回閥,但不限於上述幾種。在使用 7 M323543 m ” =型^_的實施例裡,該球型止_可能做成至少 ,彈簧。該回復彈簧設在該送料道裡,以致它受力而使二 球里止回閥的球回到其原點,該原點在該送料口及以 - 道-補道接點或送料道-輸出道接點之間。此外,該= • ㉟簧還防止該球阻塞該送料道人口(在順流期裡) • 料道(在任何回流期裡或以後)。 - 在另一實施例裡,每一閥座可能容納一螺線管的一 • f,姉塞當作活塞。因此,在此實施繼,這些閥座斑 二柱塞組合而成為閥。閥座容納螺線管的柱塞的方式可能 是在該閥座與該螺線管之間的機械性輕合(例如螺拾^ 如此,該閥座因該螺線管的柱塞的動作而開及關。王 ' 、/在上述之所有實施例裡,當該柱塞關該閥座,該閥座 • 通$此與該螺線管的柱塞形成氣密。舉例而言,這對防止 1體因戌漏而損失而言是必要的。典型氣密件的—例是橡 膠油環,它能密封在該閥座與該閥體之間的相對面。 • 在一實施例裡,該輸入道與該輸出道的空間安排可能 使這兩通道彼此平行。在此實施例裡,該送料以大致垂直 • 的方式從該輸出道延伸至該輸入道。 —該閥體可以一種適合射入成型的聚合物做成。做為一 範例,可用以下的方法製造有一個球型止回閥的閥體的實 施例。該閥體可能模塑成三部件,主要是上件、中件、下 件。該球型止回閥的球及該球所用的回復彈簧置於該中件 (有對應的穴以容納該球及該回復彈簧)裡。在把該球及 其對應的回復彈簧設在該中件以後,以超音波炼接把此三 8 M323543 部件結合。圖六及7將進一步描緣該間體的製造。該闕艘 的另-製造方法是把它做成一件,並在它的侧壁裡開孔, 讓該回復彈簧及該球型止回閥插入該送料道。將配合圖八 及9更詳細描繪這第二種方法。 除了如上述地射入模塑該模體(在該模體由三個分開 的零件組成),還能用普通加工技術(例如車及銑)製造 該閥體的三個部件。 在本創作的一個特定實施例裡,該閥體包括一輸入道 及一輸出道,二者透過幾條送料道而相通。每一送料道從 對應的輸人道道接點延伸至對應的送料道-輸出道 接點。 每-送料道包括-送料孔連到一氣袋及兩闕座。一闕 座接近該輸入道-送料道接點’另一閥座接近該送料道—輸 出道接點。閥絲、塞,以致》碰從該輪人道流入該送 料丄並從該送料道流入該輸出道,這些流動受對應的柱寨 規範’以致這_座與對應_塞組合而成為闕。 又,該範例的送料道還包括兩個球型止回閥,一球蜜 止回閥接近該送料孔’並在該送料孔與該閥座之間,另〆 球型止回閥接近該送料孔,但在該送料孔與該另一闕座之 間。 、、/在另一範例裡,該閥體可能有四送料道。這暗示這毖 运料道共有八閥座、四送料孔及多達八_止回闕。 本創作的第二面有關於一種閥機構’該閥機構有上述 之實施例中任-所述之閥體及一啟動麵。該啟動機構包 M323543 括至少兩螺管,每螺線管包括一柱塞,該閥體的每一閥座 與該螺線管的柱塞機械性耦合,以致該螺線管的柱塞的移 動造成該閥座的開及關。 在本創作的第二面的另一實施例裡,該螺線管可能是 KEEP螺線管,且在此面的另一實施例裡該閥機構可能包括 一控制電路與這些螺線管電性輕合。 本創作的第三面有關於一種流體泵裝置。該流體泵裝 置包括一如上述之實施例中任一所述的閥體及一啟動機 構,該啟動機構包括至少兩螺線管,每一螺線管有一柱 塞。該閥體的每一閥座與該螺線管的柱塞機械性耦合,以 致該螺線管的柱塞的移動造成該閥座的開及關。該流體泵 裝置還有一泵與該閥體的輸入道耦合。 在本創作的第三面的一實施例裡,該流體系裝置可能 還有一控制電路與該啟動機構及泵電性耦合。在此面的另 一實施例裡,該流體泵裝置可能還有一殼以容納該閥體、 啟動機構、泵。在此實施例裡,該殼可能還有一連接機構 月色與一有至少一氣袋的裝置相連,以致在相接時該裝置的 氣袋與該閥體的送料孔相連,反之亦然。在此面裡,該裝 置可能包括,但不限於,鞋、夾克、襪、按摩椅。 該殼的連接機構與該裝置的連接機構互補。在此實施 例裡,該殼的連接機構包括多枝流體管。這些流體管與該 閥體相通。在此實施例裡,這些流體管還耦合一流體閥(例 如以收音機輻射形撥盤的形式),該流體閥能改變流體從 這些流體管流到相連的裝置的速率。 M323543 在該裝置的對應的互補的連接機構還包括幾條接收 道,每一接收道適合一對應的流體管。該接收道透過管件 連到至少一氣袋。當該流體管塞入該接收道,就在該閥體 (在該殼裡)與該氣袋(在該裝置裡)之間建立流體溝通 關係。A return valve is disposed between the feed hole and the input channel-feedway contact to prevent fluid from flowing from the feed hole into the input channel. In the presently-created embodiment, the valve body may include a plurality of feed channels, wherein the flow of fluid through each of the feed channels begins at the input passage and ends at the transfer passage. In this implementation of the ship, this arrangement of the fabric track allows the passage of the passage-by-channel fluid parallel to the flow through the other-feeding fluid. In another embodiment, the check valve may be disposed between the feed aperture and the shank adjacent the feed aperture. In other words, in this embodiment, the positive return valve is closer to the feed aperture. In another embodiment, the feed channel may have a second check valve disposed between the input aperture and the feed-output track contact to prevent flow from flowing into the feed aperture from the output port. More specifically, a second check valve may be provided between the feed port and the other valve seat, but close to the feed port. In any of the above embodiments of the valve body, the check valve may be any valve that permits one-way flow. Examples of such a valve include a ball type check valve, a single pendulum check valve, or a double pendulum check valve, but are not limited to the above. In the embodiment using 7 M323543 m ” = type ^_, the ball stop may be made at least, a spring. The return spring is arranged in the feed channel so that it is forced to make the check valve in the two ball The ball returns to its origin, which is between the feed port and the -way-complementary contact or the feedway-outputway contact. In addition, the =35 spring prevents the ball from blocking the feedway population. (in the forward flow period) • The feed channel (in any reflow period or later) - In another embodiment, each valve seat may hold a • f of a solenoid, and the plug acts as a piston. In this implementation, these valve seat two plungers are combined to form a valve. The manner in which the valve seat receives the plunger of the solenoid may be a mechanical coupling between the valve seat and the solenoid (eg, screw picking) ^ Thus, the valve seat is opened and closed by the action of the plunger of the solenoid. In all of the above embodiments, when the plunger closes the valve seat, the valve seat The plunger of the solenoid is made airtight. For example, this is necessary to prevent loss of one body due to leakage. Typical examples of the airtight member are a rubber oil ring that seals against the opposing face between the valve seat and the valve body. • In an embodiment, the spatial arrangement of the input track and the output track may cause the two channels to be parallel to each other. The feed extends from the output passage to the input passage in a substantially vertical manner. - The valve body can be made of a polymer suitable for injection molding. As an example, a spherical shape can be produced by the following method. An embodiment of a valve body of a check valve. The valve body may be molded into three parts, mainly an upper part, a middle part, and a lower part. The ball of the ball type check valve and a return spring used for the ball are placed therein a piece (with a corresponding hole to accommodate the ball and the return spring). After the ball and its corresponding return spring are placed in the middle piece, the three 8 M323543 components are combined by ultrasonic welding. 7 will further describe the manufacture of the body. The other method of manufacturing the ship is to make it into one piece and open a hole in its side wall, so that the return spring and the ball type check valve are inserted into the Feeding channel. This second method will be described in more detail in conjunction with Figures 8 and 9. In addition to injection molding the mold body as described above (in which the mold body is composed of three separate parts), it is also possible to manufacture the three parts of the valve body by ordinary processing techniques such as turning and milling. In a specific embodiment, the valve body includes an input passage and an output passage, and the two communicate with each other through a plurality of feed passages. Each feed passage extends from a corresponding input passage joint to a corresponding feed passage-output passage. Each of the feed channels includes a feed hole connected to an air bag and two seats. A seat is close to the input channel - the feed channel contact 'the other valve seat is close to the feed channel - the output track contact. The valve wire and the plug So that the ship enters the feed raft from the roundabout and flows into the output tract from the feed channel. These flows are subject to the corresponding slab specification, so that this _ seat and the corresponding _ plug combine to become 阙. Also, the sample feed The track also includes two ball type check valves, a ball honey check valve is close to the feed hole 'and between the feed hole and the valve seat, and another ball type check valve is close to the feed hole, but in the feed Between the hole and the other squat. , / In another example, the valve body may have four feed channels. This implies that there are eight valve seats, four feed holes and up to eight _ 阙 阙. The second aspect of the present invention relates to a valve mechanism which has the valve body and a starting surface as described in any of the above embodiments. The starter mechanism package M323543 includes at least two solenoids, each solenoid including a plunger, each valve seat of the valve body being mechanically coupled with the plunger of the solenoid such that movement of the plunger of the solenoid Causes the valve seat to open and close. In another embodiment of the second aspect of the present invention, the solenoid may be a KEEP solenoid, and in another embodiment of the invention, the valve mechanism may include a control circuit and electrical properties of the solenoids Light and light. The third aspect of the creation relates to a fluid pump device. The fluid pump apparatus includes a valve body according to any of the above embodiments and a starting mechanism, the starting mechanism comprising at least two solenoids, each solenoid having a plunger. Each valve seat of the valve body is mechanically coupled to the plunger of the solenoid such that movement of the plunger of the solenoid causes the valve seat to open and close. The fluid pumping device also has a pump coupled to the input passage of the valve body. In an embodiment of the third aspect of the present invention, the flow system device may further have a control circuit electrically coupled to the activation mechanism and the pump. In another embodiment of this aspect, the fluid pumping device may have a housing to house the valve body, the activation mechanism, and the pump. In this embodiment, the housing may also have a connecting mechanism moonlight connected to a device having at least one air pocket such that the air pocket of the device is coupled to the feed aperture of the valve body when connected, and vice versa. In this regard, the device may include, but is not limited to, shoes, jackets, socks, massage chairs. The attachment mechanism of the housing is complementary to the attachment mechanism of the device. In this embodiment, the attachment mechanism of the housing includes a plurality of fluid tubes. These fluid tubes communicate with the valve body. In this embodiment, the fluid tubes are also coupled to a fluid valve (e.g., in the form of a radio radiant dial) that changes the rate at which fluid flows from the fluid tubes to the associated devices. The corresponding complementary connection mechanism of the M323543 in the device further includes several receiving channels, each receiving channel being adapted to a corresponding fluid tube. The receiving passage is connected to at least one air bag through the pipe. When the fluid tube is inserted into the receiving channel, a fluid communication relationship is established between the valve body (in the housing) and the air bag (in the device).
在另一實施例裡,該流體泵裝置可能還有/電源包耦 合該閥體的控制電路、啟動機構及/或流體泵,該電源包 設在該殼裡。在此實施例裡,該電源包可能是一電池源、 電容器或一連到外部電源的插座。 最後,在本創作的第四面(有關於按摩鞋系統),該 按摩鞋系統包括一上述的流體泵裝置及一鞋。該鞋有一本 體,其下有鞋底。該本體有至少一氣袋設於其中,且該鞋 底有「連接機構嵌於其中。該鞋的連接機構與該氣袋耦 口並與該流體泵裝置相連,以致該氣袋與該流體泵裝置 的閥體的送料孔相通。 在本,作的此面的—實施例裡,該氣袋在該鞋底的一凹處 ^,—實_裡’該鞋的連接機構在該鞋底的跟部, 條产it 統的所有實施例裡,該鞋的連接機構透過幾 條极體官而與該氣袋相連。 【實施方式】 動機構111 件播^是—閥機構⑽的立體圖。閥機構⑽由兩主零 式相連而成。第—零件糾體1G1,第二零件是啟 11 M323543 閥體101有一輸入道102及一輸出道1〇4,兩通道1〇2 及104都貫通閥體ιοί,二者大致彼此平行。沿閥體1〇1 的長軸線,在閥體101的頂面有四送料孔1〇6彼此線性對 齊。每一送料孔106透過一送料道(未被描繪)而與輸入 道102及輸出道104相通,其包括一對閥座(未被描繪)。 在此實施例裡,啟動機構111包括多枝螺線管1〇8。 每一螺線管108包括一柱塞(未被描繪)每一螺線管1〇8 與閥體101機械性耦合,以致柱塞置於在閥體1〇1的底面 的閥座裡。這些螺線管108還有多個可導電的端子11〇電 性耦合一電源及/或一控制電路。 應注意,輸入道104的兩端均為開放。然而,在閥機 構100 (或只限於閥體101)的實際使用及製造裡,輸入 道104的一端通常是關的。就此,可能用一密封件阻塞輸 入道的這端,或把輸人道的這端連到另—泵,以關閉ς入 道的這端。 圖二是沿圖-的線Α-Α對該閥機構所取的橫剖圖。在 此圖裡,輸入道102及輸出道1〇4與剖開的面垂直。送料 道202使輸入道1〇2與輸出道104相連。送料道2〇2從輸 入道-送料道接點226延伸至送料道-輸出道接點222。= 料道202還與送料孔106相通,其接近該送料道2〇2的中 心0 進料道202還有兩球型止回閥2〇4Α及2〇犯。一球止 闕通常包括管狀限制件及球,該球設在該限制件的一端, 該球的直徑大於該管子的内徑。當流體依一個方向(對著 12 M323543 該球)流過該限制件,該球被推開而開放該限制件。然而, 當流體反向流動,該球被推向該限制件,藉以關閉該限制 件,並禁止祕流過該限制件。在此範例裡,球型間麗 在閥座224與送料孔106之間並接近送料孔⑽。因此, 當閥座224打開時,球型閥2〇4A (輸入闊座)被用以防止 、 越從送料孔106流入輸入道102。在另-方面,球型閥 .204B置於閥座228 (輸出閥座)送料孔106間而接近送料 孔106。球型閥204B用以防止流體從輸出道1〇4流入送料 孔106。以下將更詳細描述球型閥2〇从及2〇4B的功用。 如上述,送料道202還包括兩閥座228及224。閥座 224接近輸入道-送料道接點226 ,閥座228接近送料道一 輸出道接點222。閥座224及228容納活塞210。 這些活塞210設在彈簧214上,彈簧214依次被多個 活塞座216支持。在每一活塞21〇、彈簧214及活塞座216 的周圍有一線圈212。在每一活塞210的周圍有一磁鐵 I 208。在一協議狀態,磁鐵208使活塞210維持在一位置, 以致彈簧214被壓縮,且閥座224及228是開的,亦即流 體可能從輸入道102,經閥座224,流入送料道202及送 料孔。為啟動活塞以關閉閥座224,可能使電流通過線點 212而使線圈212產生磁場。一旦產生磁場,活塞210被 該磁場推開,並與現被釋放的彈簧214的彈力相連,從磁 鐵208而來的磁力(使活塞210維持於其協議狀態)被克 服,且活塞210垂直向上,藉以關閉閥座224。此時可能 切斷電流,且彈簧214使活塞210 (阻塞閥座224)維持 13 M323543 在该位置。活塞210包括一個橡膠密封件2〇6,在接觸閥 座224時形成氣密,藉以防止任何流體從輸入道1〇2流入 送料孔106。 為了把閥座224送回其協議狀態,而反轉供給線圈212 的電流的方向。這使線圈212產生的電磁也反過來,藉以 , 向下拉柱塞21〇。線圈212產生的電磁力足以克服彈簧力。 • 當柱塞210被送回其較早的位置,它被來自磁鐵208的磁 力疋位。電流可能於此時被切斷且柱塞21〇被磁鐵2〇8的 . 磁力維持在該位置。 應注意,這種包含磁鐵2〇8的柱塞210及螺線管的安 排稱為「KEEP螺線管」。因此,當電流通過線圈212,一 個脈波足以使柱塞21〇的定位變化。這型螺線管的使用允 許供給的電流量(及螺料目此產生的熱)維持在最小 值在閥機構接觸或靠近使用者的情形中,這是特別重要 的。還應注意,雖僅針對閥座224描述KEEp螺線管的工 #關,相同的卫作法則還應用於其他閥座228及其對應 P 的螺線管及柱塞210。 囷—疋&圖的線Α-Δ對該閥機構所取的橫剖圖,該 闕機構處於充氣程序裡。在該充氣程序裡,與輸入道1〇2 有關的柱塞210垂直向下移,藉以開啟其對應的闕座 224。机體從輸入道1〇2流入送料道22〇並使球型閥2〇4A 離開該限制件。依箭頭所示,職魏續流人送料孔106。 在該充氣程序裡,閥座228可能開或關,雖然關著較好, 因須避免流體從送料道2〇2漏到輸出道2〇6。 14 M323543 圖四是沿圖一的線A-A對該閥機構所取的橫剖圖,該 閥機構處於轉料裡。在該轉程序巾,該流體被維持 在运料道202裡。尤其是在球型閥2〇4A、送料孔1〇6及 閥座220的邊界内容納該流體。如此,閥座224及220分 別被它們的柱塞210關閉。在此程序中,該流體可能企圖 從迗料孔106流出,並因此推動而關閉球型閥2〇4A,且 被關閉的閥座22G維持在送料道搬裡。此外,雖然閥座 224可能開放,但因球型_ 2〇4A已防止該流體從送料孔 106流入輸入道1〇2在預防措施上,最好關閥座224。 圖五是沿圖一的線A - A對該閥機構所取的橫剖圖,該 閥機構處於洩氣程序裡。在此程序裡,閥座224維持關 著’但同時閥座220開放。因開放的閥座22〇,該流體從 送料孔106流入輸出道1〇4。且,因球型閥2〇4A的存在, 將防止一部份的該流體企圖透過閥座224流出,並迫使該 流體流入該輸出道。 在一例裡,在輸出道104裡的壓力大於在送料道裡的 壓力,該流體傾向從輸出道104透過閥座220回流入送料 道202。在這種情形裡,球型閥2〇4B藉由關閉而開始起 作用,並防止該流體進一步流入送料道202。大致上,球 型閥204B用於防止該流體在此特定情境裡再次進入送料 孔 106。 圖六是共同形成閥體101的一上件6〇2、一中件6〇4、 一下件606的立體圖。上件包括送料孔1〇6。中件6〇4包 括入口 102及出口 1〇4。中件6〇4還包括穴以容納球型閥 15 M323543 204的球610及一回復彈簧6〇8。當上件6〇2被固定(彈 入或壓入)或黏(以黏劑或uv)到中件604,送料孔106 與該穴相通。中件的更多細節見於圖七,其描述如下。 下件606包括一對凹處616及614,分別對應入口 1〇2 及出口 104。當這二部件被組合並黏在一起,凹處gw及 * 614局部界定閥體ιοί的入口 1〇2及出口 1〇4。如稍早所 述,三部件602、604及6〇6可能個別被射入成型或加工 並被黏在一起而形成整個閥體101。 .圖七是閥體101的中件6〇4的立體圖。中件6〇4有入 口 102及出口 1〇4貫通中件6〇4。中件6〇4還包括幾個穴 702。因每一穴702被放在適當的位置,當上件6〇2被黏 到中件604的頂面(如圖六所示),送料孔1〇6與穴7〇2 相通。穴702能容納止回閥2〇4A及2〇4B的球61〇。穴7〇2 還容納回復彈簧608。空氣被打入該閥或從該閥被釋放之 後,回復彈簧6〇8變形而使球61〇回到其協議位置。 有關於球型閥204A及204B的球610的協議位置,球 .型閥204A的協議位置靠近入口。至於球型閥2〇4β,其球 610的協議位置靠近該送料口及該出口。 圖八是單件式閥體的立體圖。如上述,閥體101有輸 入道102及輸出道1〇4。沿閥體1〇ι的周圍是多個孔81〇, 每一孔810對齊一送料孔ι〇6。大致上,每一送料孔ι〇6 有一對孔810在每一側,在閥體1〇ι的縱向侧壁的頂部。 靠近入口 102 (貫通閥體101)的孔810容納回復彈 簧808及一個球型止回閥。該球型止回閥包括一球8〇6及 16 M323543 其止動件804,二者於置入閥體101時形成一與稍早描述 的球型止回閥204A相等的結構。孔810隨後被一塞8〇2 關閉。同樣地,先後把球806、彈簧808及塞802放入靠 近輸出道104的孔810,以形成球型閥204B。 圖九是沿圖八的線J-J對該閥體所取的橫剖圖。圖九 A是這些球型閥置入先前的橫剖圖。在圖九b裡,如上述, 在回復彈簧805置入以後,球型閥204A已形成。在該彈 簧置入以後,球806及止動件804依序透過孔810而置入 送料道202。靠近輸入道102的孔810被塞802關閉。同 樣地,球806及回復彈簧808依循透過孔810而置入靠近 輸出道104的送料道202的另一端。隨後,靠近輸出道 1〇4的孔810被塞802關閉。 圖十是一流體泵裝置的分解圖。該流體泵裝置包括閥 體101及啟動機構111組成的閥機構。該閥機構電性耦合 一控制電路1306。就此,啟動機構in耦合控制電路 1306。該閥體1〇1經其輸入道1〇2 ^一泵1302。泵1302 也可能搞合控制電路1306。為運作該流體泵裝置1702, 一電源1308耦合該控制電路13〇6、該泵13〇2及/或該啟 動機構11卜所有各式元件,例如該閥機構、該控制電路 1306、該泵及該電源,被安排在一殼131〇裡。殼丨31〇包 括一連接機構以連接一裝置(712),該裝置包括至少一氣 袋。當連接该裝置(712) ’受制於任何中間的閥,該閥體 101的送料孔106與該裝置的該氣袋相通。 圖十-是-個鞋型按摩系統的局部的分解圖。該鞋型 17 M323543 按照系統的這部分展示按摩雜置的賴機構712。該按 摩鞋裝置通常包括至少—氣袋設於該鞋裡。該鞋於鞋底 718裡有一個凹處,以容納連接機構了12。連接機構 藉一蓋720而固定於該凹處裡。如所示,該連接機構置於 該鞋底718的跟部裡,然而,該連接機構可以置於較前 方,例如中底區。 連接機構712與參考圖十而描述的流體泵系統的連 接機構互補。不用時,該連接機構可能被一蓋714關閉, 以防止灰塵阻塞連接機構712的流體通道。連接機構712 透過幾條流體流通管716而連到在該鞋裡的該氣袋。 圖十二是一個鞋型按摩系統的鞋底的分解圖。鞋底 718通常在跟部及中底區是空的,以如上述地容納連接機 構712及流體流通管716。流體流通管716連到閥體1〇1, 該閥體與啟動機構111組合而形成該閥機構。一鞋底蓋 1〇〇2關閉空心的鞋底718。鞋底蓋1002包括至少一氣袋 1〇〇4。氣袋1〇〇4可能直接設在鞋底蓋1〇〇2的側面或在另 一層材料之下,例如尼奥普林(一種合成橡膠)。 圖十三是一鞋型按摩系統的鞋底的另一實施例的分 解圖。此實施例極像圖十二的實施例,除了氣袋1〇〇4是 在該中底區的凹處1008裡之外。凹處1〇〇8位於鞋底蓋 1002的中間。 應注意,上述之範例僅用於協助更瞭解本創作。因 此本創作不受限於上述之範例,卻由所附之申請專利範 圍定義。 18 M323543 【圖式簡單說明】 圖一是一個閥機構的立體圖。 圖二是沿圖一的線A-A對該閥機構所取的橫剖圖。 圖三是沿圖一的線A-A對該閥機構所取的橫剖圖,該闕機 構處於充氣程序裡。 圖四是沿圖一的線A-A對該閥機構所取的橫剖圖,該闕機 構處於維持程序裡。 圖五是沿圖一的線A-A對該閥機構所取的橫剖圖,該闕機 構處於洩氣程序裡。 圖六疋一個閥體的上件、中件、下件的立體圖。 圖七是該閥體的中件的立體圖。 圖八是單件式閥體的立體圖。 圖九是沿圖八的線j—j對該閥體所取的横剖圖。 圖十是一個流體泵裝置的分解圖。 圖十一是一個鞋型按摩系統的局部的分解圖。 圖十二是一個鞋型按摩系統的鞋底的分解圖。 圖十三是一個鞋型按摩系統的鞋底的另一個實施例的分 解圖。 【元件符號之簡單說明】 100 閥機構 101 102 輸入道 104 106 送料孔 108 閥體 輸出道 螺線管 19 M323543In another embodiment, the fluid pumping device may also have a power pack coupled to the control circuit, the starting mechanism and/or the fluid pump of the valve body, the power source being packaged in the housing. In this embodiment, the power pack may be a battery source, a capacitor, or a socket that is connected to an external power source. Finally, in the fourth aspect of the creation (with respect to the massage shoe system), the massage shoe system includes a fluid pump device as described above and a shoe. The shoe has a body with a sole underneath. The body has at least one air bag disposed therein, and the sole has a "connecting mechanism embedded therein. The connecting mechanism of the shoe is coupled to the air bag and connected to the fluid pump device, so that the air bag and the fluid pump device The feeding hole of the valve body is in communication. In the embodiment of the present invention, the air bag is in a recess of the sole, and the connecting mechanism of the shoe is at the heel of the sole. In all embodiments of the production system, the connecting mechanism of the shoe is connected to the air bag through a plurality of polar bodies. [Embodiment] The moving mechanism 111 is a perspective view of the valve mechanism (10). The valve mechanism (10) is composed of two The main part is connected by the first type. The first part is the body 1G1, the second part is the opening 11 M323543. The valve body 101 has an input channel 102 and an output channel 1〇4, and the two channels 1〇2 and 104 pass through the valve body ιοί, The two are substantially parallel to each other. Along the long axis of the valve body 1〇1, four feed holes 1〇6 are linearly aligned with each other on the top surface of the valve body 101. Each feed hole 106 passes through a feed channel (not depicted) and The input track 102 and the output track 104 are in communication and include a pair of valve seats (not depicted). In the embodiment, the starting mechanism 111 includes a plurality of solenoids 1 〇 8. Each solenoid 108 includes a plunger (not depicted). Each solenoid 1 〇 8 is mechanically coupled to the valve body 101 such that the solenoid The plug is placed in a valve seat on the bottom surface of the valve body 1〇 1. These solenoids 108 also have a plurality of electrically conductive terminals 11 electrically coupled to a power source and/or a control circuit. It should be noted that the input channel 104 Both ends are open. However, in the actual use and manufacture of the valve mechanism 100 (or only the valve body 101), one end of the input passage 104 is normally closed. Thus, it is possible to block the end of the input passage with a seal. Or connect the end of the human channel to the other pump to close the end of the intrusion. Figure 2 is a cross-sectional view of the valve mechanism taken along line Α-Α. In this figure, enter The track 102 and the output track 1〇4 are perpendicular to the cut surface. The feed channel 202 connects the input track 1〇2 to the output track 104. The feed channel 2〇2 extends from the input track-feedway contact 226 to the feed channel-output Road contact 222. = The channel 202 is also in communication with the feed hole 106, which is close to the center 0 of the feed channel 2〇2 and has two ball stops. Valves 2〇4Α and 2〇. A ball stop usually includes a tubular restriction member and a ball, the ball being disposed at one end of the restriction member, the diameter of the ball being larger than the inner diameter of the tube. When the fluid is in one direction (facing 12 M323543 The ball flows through the restriction, the ball is pushed open to open the restriction. However, when the fluid flows in the opposite direction, the ball is pushed toward the restriction, thereby closing the restriction and prohibiting the secret flow The restricting member. In this example, the ball type is between the valve seat 224 and the feed hole 106 and close to the feed hole (10). Therefore, when the valve seat 224 is opened, the ball valve 2〇4A (input wide seat) is It is used to prevent and flow from the feed hole 106 into the input channel 102. On the other hand, the ball valve .204B is placed between the valve seat 228 (output valve seat) feed hole 106 and close to the feed hole 106. The ball valve 204B serves to prevent fluid from flowing from the output passage 1〇4 into the feed hole 106. The function of the ball valve 2〇 and 2〇4B will be described in more detail below. As mentioned above, the feed channel 202 also includes two valve seats 228 and 224. The valve seat 224 is adjacent to the input channel-feedway contact 226, and the valve seat 228 is adjacent to the feed channel-output track contact 222. Valve seats 224 and 228 receive piston 210. These pistons 210 are disposed on a spring 214 which in turn is supported by a plurality of piston seats 216. There is a coil 212 around each piston 21, spring 214 and piston seat 216. There is a magnet I 208 around each piston 210. In a protocol state, the magnet 208 maintains the piston 210 in a position such that the spring 214 is compressed and the valve seats 224 and 228 are open, i.e., fluid may flow from the input passage 102 through the valve seat 224 into the feed passage 202 and Feed hole. To activate the piston to close the valve seat 224, it is possible to pass current through the line point 212 to cause the coil 212 to generate a magnetic field. Once the magnetic field is generated, the piston 210 is pushed away by the magnetic field and is coupled to the spring force of the now released spring 214. The magnetic force from the magnet 208 (which maintains the piston 210 in its protocol state) is overcome and the piston 210 is vertically upward. Thereby the valve seat 224 is closed. At this point the current may be cut off and the spring 214 maintains the piston 210 (blocking valve seat 224) at 13 M323543 in this position. The piston 210 includes a rubber seal 2〇6 that is hermetically sealed upon contact with the valve seat 224 to prevent any fluid from flowing from the input passage 1〇 into the feed orifice 106. In order to return the valve seat 224 to its protocol state, the direction of the current supplied to the coil 212 is reversed. This causes the electromagnetic generated by the coil 212 to be reversed, whereby the plunger 21 is pulled down. The electromagnetic force generated by the coil 212 is sufficient to overcome the spring force. • When the plunger 210 is returned to its earlier position, it is clamped by the magnetic force from the magnet 208. The current may be cut off at this time and the plunger 21 is held by the magnet 2 〇 8. The magnetic force is maintained at this position. It should be noted that the arrangement of the plunger 210 and the solenoid including the magnet 2〇8 is referred to as a "KEEP solenoid". Therefore, when current is passed through the coil 212, a pulse is sufficient to cause the position of the plunger 21 to change. This type of solenoid allows the amount of current supplied (and the heat generated by the screw) to be kept to a minimum in situations where the valve mechanism is in contact with or near the user, which is especially important. It should also be noted that although the KEEp solenoid is only described for the valve seat 224, the same operating rule is applied to the other valve seat 228 and its corresponding P solenoid and plunger 210. The cross-sectional view of the valve mechanism is the line Α-Δ of the 囷-疋& diagram, which is in the inflation procedure. In the inflation procedure, the plunger 210 associated with the input track 1〇2 is moved vertically downward to open its corresponding sley 224. The body flows into the feed channel 22 from the input channel 1〇2 and causes the ball valve 2〇4A to leave the restriction. According to the arrow, the employee Wei continued to feed the hole 106. In this inflation procedure, the valve seat 228 may be opened or closed, although it is better to avoid leakage of fluid from the feed channel 2〇2 to the output channel 2〇6. 14 M323543 Figure 4 is a cross-sectional view of the valve mechanism taken along line A-A of Figure 1, which is in the feed. In the transfer towel, the fluid is maintained in the transport lane 202. In particular, the fluid is contained in the boundary between the ball valve 2〇4A, the feed hole 1〇6, and the valve seat 220. As such, the valve seats 224 and 220 are closed by their plungers 210, respectively. In this procedure, the fluid may attempt to flow out of the dip hole 106 and thereby push to close the ball valve 2〇4A, and the closed valve seat 22G is maintained in the feed lane. In addition, although the valve seat 224 may be open, since the ball type _ 2 〇 4A has prevented the fluid from flowing from the feed hole 106 into the input path 1 〇 2, it is preferable to close the valve seat 224. Figure 5 is a cross-sectional view of the valve mechanism taken along line A - A of Figure 1, which is in a deflation procedure. In this procedure, the valve seat 224 remains closed while the valve seat 220 is open. This fluid flows from the feed hole 106 into the output passage 1〇4 due to the open valve seat 22〇. Moreover, due to the presence of the ball valve 2〇4A, a portion of the fluid is prevented from attempting to flow out through the valve seat 224 and forcing the fluid to flow into the output passage. In one example, the pressure in the output passage 104 is greater than the pressure in the feed passage, and the fluid tends to flow back from the output passage 104 through the valve seat 220 into the feed passage 202. In this case, the ball valve 2〇4B starts to function by closing and prevents the fluid from flowing further into the feed channel 202. In general, the ball valve 204B is used to prevent the fluid from re-entering the feed aperture 106 in this particular situation. Figure 6 is a perspective view of a top piece 6〇2, a middle piece 6〇4, and a lower piece 606 which together form the valve body 101. The upper piece includes a feed hole 1〇6. The middle part 6〇4 includes the entrance 102 and the exit 1〇4. The middle piece 6〇4 also includes a hole to accommodate the ball 610 of the ball valve 15 M323543 204 and a return spring 6〇8. When the upper piece 6〇2 is fixed (bounced or pressed) or glued (adhesive or uv) to the middle piece 604, the feed hole 106 communicates with the hole. More details of the middle part are shown in Figure 7, which is described below. The lower piece 606 includes a pair of recesses 616 and 614 corresponding to the inlet 1〇2 and the outlet 104, respectively. When the two components are combined and bonded together, the recesses gw and * 614 partially define the inlet 1〇2 and the outlet 1〇4 of the valve body ιοί. As described earlier, the three components 602, 604, and 6〇6 may be individually injection molded or machined and bonded together to form the entire valve body 101. Figure 7 is a perspective view of the middle piece 6〇4 of the valve body 101. The middle piece 6〇4 has an inlet 102 and an outlet 1〇4 through the middle piece 6〇4. The middle piece 6〇4 also includes several holes 702. Since each hole 702 is placed in an appropriate position, when the upper piece 6〇2 is adhered to the top surface of the middle piece 604 (as shown in Fig. 6), the feed hole 1〇6 communicates with the hole 7〇2. The hole 702 can accommodate the ball 61〇 of the check valves 2〇4A and 2〇4B. The hole 7〇2 also houses a return spring 608. After the air is driven into or released from the valve, the return spring 6〇8 deforms to cause the ball 61 to return to its agreed position. Regarding the protocol position of the ball 610 of the ball valves 204A and 204B, the protocol position of the ball type valve 204A is close to the inlet. As for the ball valve 2〇4β, the ball 610 has a protocol position close to the feed port and the outlet. Figure 8 is a perspective view of a one-piece valve body. As described above, the valve body 101 has the input passage 102 and the output passage 1〇4. Along the valve body 1 is a plurality of holes 81, each of which is aligned with a feed hole ι6. In general, each of the feed holes ι 6 has a pair of holes 810 on each side, at the top of the longitudinal side walls of the valve body 1〇. A hole 810 near the inlet 102 (through the valve body 101) houses a return spring 808 and a ball check valve. The ball type check valve includes a ball 8〇6 and a 16 M323543 stopper 804 which, when placed in the valve body 101, form a structure equivalent to the ball check valve 204A described earlier. Hole 810 is then closed by a plug 8〇2. Similarly, ball 806, spring 808, and plug 802 are placed in close proximity to aperture 810 of output passage 104 to form ball valve 204B. Figure 9 is a cross-sectional view of the valve body taken along line J-J of Figure 8. Figure IX A is a cross-sectional view of these ball valves placed in the previous. In Fig. 9b, as described above, after the return spring 805 is placed, the ball valve 204A has been formed. After the spring is placed, the ball 806 and the stopper 804 are sequentially inserted into the feed path 202 through the hole 810. The aperture 810 near the input track 102 is closed by the plug 802. Similarly, the ball 806 and the return spring 808 are placed through the aperture 810 into the other end of the feed channel 202 adjacent the output track 104. Subsequently, the hole 810 near the output track 1〇4 is closed by the plug 802. Figure 10 is an exploded view of a fluid pump device. The fluid pump device includes a valve body 101 and a valve mechanism composed of an actuating mechanism 111. The valve mechanism is electrically coupled to a control circuit 1306. In this regard, the activation mechanism is coupled to the control circuit 1306. The valve body 1〇1 passes through its input channel 1〇2 ^ a pump 1302. Pump 1302 may also engage control circuit 1306. To operate the fluid pump device 1702, a power source 1308 couples the control circuit 13〇6, the pump 13〇2, and/or the activation mechanism 11 to various components such as the valve mechanism, the control circuit 1306, the pump, and The power supply is arranged in a casing 131. The casing 31 includes a coupling mechanism for attaching a device (712), the device including at least one air pocket. When the connecting device (712) is subjected to any intermediate valve, the feed opening 106 of the valve body 101 communicates with the air bag of the device. Figure 10 - is a partial exploded view of a shoe-type massage system. This shoe type 17 M323543 shows the massage hybrid 712 according to this part of the system. The shoe device generally includes at least an air bag disposed in the shoe. The shoe has a recess in the sole 718 to accommodate the attachment mechanism 12. The connecting mechanism is fixed in the recess by a cover 720. As shown, the attachment mechanism is placed in the heel of the sole 718, however, the attachment mechanism can be placed in the forward direction, such as the midsole region. The coupling mechanism 712 is complementary to the connection mechanism of the fluid pump system described with reference to FIG. When not in use, the attachment mechanism may be closed by a cover 714 to prevent dust from clogging the fluid passage of the attachment mechanism 712. The attachment mechanism 712 is coupled to the air pocket in the shoe through a plurality of fluid flow tubes 716. Figure 12 is an exploded view of the sole of a shoe-type massage system. The sole 718 is generally empty in the heel and midsole regions to accommodate the attachment mechanism 712 and the fluid flow tube 716 as described above. The fluid flow tube 716 is connected to the valve body 1〇1, which is combined with the activation mechanism 111 to form the valve mechanism. A sole cover 1〇〇2 closes the hollow sole 718. The sole cover 1002 includes at least one air bag 1〇〇4. The air bag 1〇〇4 may be placed directly on the side of the sole cover 1〇〇2 or under another layer of material, such as neoprene (a synthetic rubber). Figure 13 is an exploded view of another embodiment of a sole of a shoe type massage system. This embodiment is very similar to the embodiment of Fig. 12 except that the air bag 1〇〇4 is outside the recess 1008 of the midsole region. The recess 1〇〇8 is located in the middle of the sole cover 1002. It should be noted that the above examples are only used to assist in understanding the creation. Therefore, the present creation is not limited to the above examples, but is defined by the attached patent application. 18 M323543 [Simple description of the drawing] Figure 1 is a perspective view of a valve mechanism. Figure 2 is a cross-sectional view of the valve mechanism taken along line A-A of Figure 1. Figure 3 is a cross-sectional view of the valve mechanism taken along line A-A of Figure 1, which is in the inflation procedure. Figure 4 is a cross-sectional view of the valve mechanism taken along line A-A of Figure 1, which is in the maintenance routine. Figure 5 is a cross-sectional view of the valve mechanism taken along line A-A of Figure 1, which is in a deflation procedure. Figure 6. A perspective view of the upper, middle and lower parts of a valve body. Figure 7 is a perspective view of the middle piece of the valve body. Figure 8 is a perspective view of a one-piece valve body. Figure 9 is a cross-sectional view of the valve body taken along line j-j of Figure 8. Figure 10 is an exploded view of a fluid pump device. Figure 11 is a partial exploded view of a shoe type massage system. Figure 12 is an exploded view of the sole of a shoe-type massage system. Figure 13 is an exploded view of another embodiment of a sole of a shoe type massage system. [Simple description of the component symbol] 100 Valve mechanism 101 102 Input channel 104 106 Feed hole 108 Valve body Output channel Solenoid 19 M323543
110 可導電的端子 111 啟動機構 202 送料道 204A 球型閥 204B 球型閥 206 輸出道 208 磁鐵 210 柱基 212 線圈 214 彈簧 216 活塞座 220 閥座 222 送料道-輸出道接點 224 閥座 226 輸入道-送料道接點 228 閥座 602 上件 604 中件 606 下件 608 回復彈簧 610 殼 614 凹處 616 凹處 702 穴 712 連接機構 714 蓋 716 流體流通管 718 鞋底 720 蓋 802 塞 804 止動件 805 回復彈簧 806 球 808 回復彈簧 810 1002 鞋底蓋 1004 氣袋 1008 凹處 1306 控制電路 1308 電源 1310 殼 20110 Conductive terminal 111 Actuation mechanism 202 Feed channel 204A Ball valve 204B Ball valve 206 Output channel 208 Magnet 210 Column base 212 Coil 214 Spring 216 Piston seat 220 Seat 222 Feed channel - Output channel contact 224 Seat 226 Input Road-feed channel contact 228 valve seat 602 upper piece 604 middle piece 606 lower piece 608 return spring 610 case 614 recess 616 recess 702 hole 712 connection mechanism 714 cover 716 fluid flow tube 718 sole 720 cover 802 plug 804 stop 805 return spring 806 ball 808 return spring 810 1002 sole cover 1004 air bag 1008 recess 1306 control circuit 1308 power 1310 shell 20