1^30695 九、發明說明: 【發明所屬之技術領域】 本發明涉及-種用於連接流體處理⑽連結裝置。 【先前技術】 氣壓作動的機械必須藉由空氣壓縮機來提供高壓空氣,壓縮 空氣可能被若干外來物質所污染,致使可能對氣壓㈣產生干 擾;所述外來㈣包含水滴、顧、來自壓縮機的雌、鐵錄與 鱗斑等。因為财作工元件、作動元件、㈣元件與訊號元件皆 須與壓縮空氣直接_,因此必須要有鎌去壓縮空氣中各種污 :物的準備’及壓力機設定之魏,才祕證氣壓元件的正常 操作。使用通過調理的壓縮空氣能夠延長氣壓設備元件的壽命, 、、'可使各種控姻干擾及元件修㈣造成的停用時間減至最低。 4:縮工氣巾總會含有不等程度的水分’其主要以水蒸氣的形 ^進入壓縮空氣_路中。水分的含量主要勒目聰度的結果, ^因空乱溫度及氣候狀況而定。如果超過壓縮空氣的飽和點,水 刀即凝、纟σ成水滴。壓縮空氣中的凝結水若不及時除去則管路、 二制70件#工凡件及機^將產生雜。如果讓凝結水進入到氣 =備即可使正常的機能受阻。固體物質如塵埃、鐵錄及鱗 片皆對禮設備的各機件機财糾㈣響。壓 =空氣物丨规_繼咖,編溫度下有產生 爆炸的危險。 1330695 為防止受到污染的壓縮空氣對氣壓設備造成損害,以及對控 制順序產生不利影響,通常必須在空氣壓縮機的進口處裝設進氣 濾'清器’用以分離空氣中的塵埃’並配合設在空氣壓縮機後面的 • 冷卻設備來分離凝結水而使空氣乾燥。另外須在氣壓元件的入氣 • 口裝設空氣濾清器、調壓閥及潤滑油機體,使送出讓輸入的壓縮 空氣非常清潔且乾燥。所述空氣濾清器、調壓閥及潤滑油機體的 組合統稱為「空氣壓調理組」。 • 早期的空氣壓調理組,其空氣濾清器、調壓閥及潤滑油機體 等三機體是藉由管接頭螺合在一起’但此種早期之結構不僅整體 體積大而較佔空間,且因管接頭之内徑較過濾、調壓機體之進、 出氣口及潤滑油機體之進氣口為小,致使壓縮空氣在由過濾、調 壓機體流至潤滑油機體之過程中,受到管接頭之小管徑的影響, 十刀谷易產生「環流」、「擾流」、「麼降」之現象。是以,後來的 此類產品,乃將其改良為將過濾機體與調壓機體設成一體,成為 • 單一的「過濾調壓機體」,並與潤滑油機體結合在一起,其捨棄了 管接頭之設置,而直接將過濾調壓機體與潤滑油機體以螺栓穿設 . 於預設在該二機體之螺孔而鎖合在一起(即業界中所通稱之二點 一型式);但此種結構的缺點在於僅可將二機體作結合,卻無法 將更多組機體串聯。此外,因為沒有定位結構,使得粗心的工作 者容易搞錯方向而發生根本無法裝配之情事,影響工作效率。 台灣專利申請第83211586號所提供的改良設計,是在機體設 有相對應的螺栓穿設道,並於螺栓穿設道之二端設有與其成垂直 ’月移道,於滑移道内設有螺帽,使該螺帽可在滑移道中自由移 動,於將機體組合時,可將前方機體内之螺帽移開螺栓穿設 "ί立齧 祕 ° 置,據以直接將螺栓穿設至最後方之機體而螺入最後方之螺帽 从結合’而且可以方便拆卸’域由定位梢作機體與機體間、及 機體與牙座間之配合定位,使*會發生裝卸錯誤。 第-圖顯:^知的空氣壓繼組,用來連接兩組流體處理器Β 的連接裝置Α之結構;其中’流體處理器Β的本體相對兩側設有 連通至本體内部的空氣進、出口另外的本體側面設有對稱的 凹部B2。該連接裝置A包含—具有通孔㈣的連接座μ、一固定 塊A5與至少一螺絲A6 ;其連結兩流體處理器b的方式,是在連結 座A1的通孔剔的外陳置密封_ A2,然後將兩側的通孔= 對準兩組流體處理器B的進、出σ B1,再A6穿過固定塊 A5的洞孔而鎖人連結座A1的螺孔A3,進而使固定祕兩側㈣ 折部嵌入流體處理器B本體的凹部B2,翻將兩組流體處理器B 連結固定’絲縮空氣能夠在兩域體處理Μ之間流通的目的。 習知其他形式的連接裝置軸有不同於第1所示的結構, 但總體而言仍需要較多的元件’ ^絲及拆卸均不方便。 【發明内容】 ,該連結 本發明的主要目的在於提供—種模組化的連結裝置 7 裝置可以預先被設置於空_調理組之流體處理器的空氣進、出 口位置,需要擴充所述處理器的數量時,可以藉由該連結裝置快 速方便地連結,且拆卸時也同樣地快速方便。 本發_瓶,係賴触的对提供心被連結組合的 .[連結元件與第二連結元件,該第—及第二連結元件可以被預 先固定於流體處理器的_,因此,馳流體處理器之間,可以 透過該第-及第二連結元件快雜合連結,甚至可以擴充更多組 # 流體處理器。 2述第-及第二連結元件的組合,主要是採用相互套合、旋 轉而粒,以將兩崎體處理器連接在—起且形成密封,並透過 I第及第一連結疋件讓壓縮空氣得以在兩組流體處理器之間流 通,所述第-及第二連結元件還可以解除定位,並反向旋轉後分 離,其組裝及拆卸均十分快速、方便。 —本㈣的技射段,在於該連結裝置包含有—第—連結元件 t第一連結元件’·該第一連結元件具有位於相對側的第一面與 -面’並具有貫穿該第一面與第二面的第一通孔,該第一面設 .嵌擎塊與至少一凸粒’所述第二面提供於安裝在-流體 2 15的空氣進出口位置,使該第-通孔與該空氣進出σ直線對 W。所述第二連結元件具有位於相對侧的第—面與第二面,並具 =料-面與第二面的第二通孔,該第—面設有—可配合於 通孔的軸管’姉管具有軸向貫通該第二連結元件之第 1330695 一面與第二面的第二通孔,所述第二連結元件的第一面設有至少 一可和該嵌掣塊配合的弧形溝槽’以及可和該凸粒互補的凹部, 該第二連結元件的第二面提供於安裝在另一流體處理器的空氣進 •出口位置,使該第二通孔與該空氣進出口直線對應,所述軸管在 該第一通孔内旋轉時,所述嵌掣塊沿著該弧形溝槽移動,至一預 定位置時,所述凸粒與該凹部互補配合而定位。 本發明將所述第-連結元與第二連結元件相互固定的技術手 • & ’疋在該嵌掣塊的自由端設置-鉤部,以及在所述孤形溝槽的 兩端分別形成-寬部與—窄部’該寬部可倾掣塊穿過,該嵌擎 塊移位至該铸時’所述鉤部扣合於該弧形溝槽的邊緣而固定; 當嵌擎塊反向沿著弧形溝槽移位至寬部時,則可以將嵌擎塊脫離 弧形溝槽,進而將第一與第二連結元件分離。 本發明可以在第-連結元件的第—面設置彈片,並將所述凸 粒《又於該彈片’使得凸粒具備彈性,當凸粒移位至凹部時,利用 ♦彈片的彈力讓凸粒嵌入凹部而定位。此外,本發明可以在第二連 結元件的第—面設置至少—凹槽,前述凸粒在未無凹部互補定 ‘位之月』係、位於„亥凹槽内’以避免凸粒持續被壓縮造成彈性疲乏。 【實施方式】 以下配合圖式對本發明的實施例做更詳細的說明,俾使任何 熟習該項賴者在研讀本專概明書後能據以實施。 9 參第二圖’本發明之連結裝置,其較佳實施例包括有一第一 結元件丨與—第二連結树2。其中,第—連結元们具有位於 二對側的第:面與第二面,並具有貫穿該第—面與第二面的第一 ^孔11 ’該第—面設有位於對稱兩側的兩個嵌孽塊12,該礙掣塊 12的自由端形成有鉤部,使得嵌掣塊12整體呈現L雜;該第一 面還财位於對稱兩側的_ 13,_ 13從第—連結元们 2-面上直接剖溝而形成,並在該彈片13接近自由端的位置設 凸粒131,此外,在第一連結元件i還設有複數個貫通其第一 面與第二面的第一洞孔14。 所述第二連結元件2的較佳實施例,具有位於相對侧的第-面與第二面’該第—面設有—可配合於所述第—通孔U的轴管 2〇,該軸管2G具妹向貫職第二連結元件2之第—面與第二面 的第二通孔21,歸2〇的外贱有至少—第__密封元件22 ;該 *連元件2的第-面設有位於對稱兩側,且可和前述嵌擎塊 12配合的弧形溝槽26,該弧形溝㈣具有位於-端的寬部261, 以及位於另一端的窄部262,該寬部261可供該嵌掣塊12穿過, 該嵌擎塊12移位至該窄部262時,嵌掣塊12端的釣部可以扣合 於弧形溝槽26的邊緣。第二連結元件2的第—面還設有位於對稱 兩側的凹槽23與凹部24,該凹槽23延伸—長度,該凹部%為可 和凸粒131互補的圓形凹點;凹槽23和凹部%彼此分離而不連 通;第二連結元件2的第二_設有圍繞於該第二通孔21的第二 密封元件28(如第六a圖所示彳。 複數個貫通其第H第_面,在第二連結元件2還設有 斤一 _ 〇第一面的第二洞孔25。 第一圖顯不本發明之連結裝置用於 實施例;其中,_處理W 贼兩h體處理益3的1^30695 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to a coupling device for connecting fluid treatment (10). [Prior Art] The pneumatically actuated machine must provide high-pressure air by means of an air compressor, which may be contaminated by a number of foreign substances, which may cause interference with the air pressure (4); the external (4) contains water droplets, Gu, and from the compressor. Female, iron recorded and scaly. Because the financial work component, the actuating component, the (four) component and the signal component must be directly with the compressed air, it is necessary to remove all kinds of dirt in the compressed air: the preparation of the object and the press setting of the Wei, the secret pressure component Normal operation. The use of conditioned compressed air extends the life of the pneumatic equipment components, and minimizes the time it takes for various engagements and component repairs. 4: Shrinkage airbags always contain varying degrees of moisture 'which enters the compressed air _ road mainly in the form of water vapor. The moisture content is mainly the result of the spectroscopy, ^ depending on the air temperature and climatic conditions. If the saturation point of the compressed air is exceeded, the water knife will condense and 纟 σ into water droplets. If the condensed water in the compressed air is not removed in time, the pipeline, the two parts of the 70 parts, and the machine will produce impurities. If the condensate is allowed to enter the gas = the normal function can be blocked. Solid materials such as dust, iron records and scales are all correct for the machine parts of the equipment. Pressure = air 丨 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 1330695 In order to prevent damage to the pneumatic equipment caused by contaminated compressed air and adversely affect the control sequence, it is usually necessary to install an air filter "cleaner" at the inlet of the air compressor to separate the dust in the air' • Cooling equipment located behind the air compressor to separate the condensate and dry the air. In addition, the air filter, pressure regulator and lubricating oil body must be installed in the air inlet of the air pressure component to make the compressed air supplied to the input very clean and dry. The combination of the air cleaner, the pressure regulating valve, and the lubricating oil body is collectively referred to as an "air pressure conditioning group." • In the early air pressure conditioning group, the three air bodies, such as the air filter, the pressure regulating valve and the lubricating oil body, were screwed together by the pipe joints. However, such an early structure is not only bulky but also takes up space. Because the inner diameter of the pipe joint is smaller than the inlet and outlet of the pressure regulating body and the air inlet of the lubricating oil body, the compressed air is subjected to the pipe joint during the process of filtering and regulating the body to the lubricating oil body. The impact of the small diameter of the pipe, the Shidao Valley is prone to the phenomenon of "circulation," "scramble," and "when". Therefore, the latter products were modified to integrate the filter body and the pressure regulating body into a single "filtering and pressure regulating body", which was combined with the lubricating oil body and abandoned the pipe joint. The setting, and directly filtering the pressure regulating body and the lubricating oil body by bolts. The screw holes of the two bodies are preset to be locked together (that is, the two-point type commonly referred to in the industry); The disadvantage of the structure is that only two bodies can be combined, but more groups can not be connected in series. In addition, because there is no positioning structure, it is easy for a careless worker to make a wrong direction and it is impossible to assemble at all, which affects work efficiency. The improved design provided by Taiwan Patent Application No. 83211586 is provided with a corresponding bolt-through passage in the body, and is provided at the two ends of the bolt-through passage, which are perpendicular to the 'moon passage, and are provided in the slide lane. The nut allows the nut to move freely in the sliding path. When the body is assembled, the nut in the front body can be removed from the bolt and the bolt can be directly placed. To the last part of the body, the nut that is screwed into the last side can be misaligned by the positioning of the body between the body and the body, and between the body and the socket. The first-picture shows: the air pressure relay group, which is used to connect the two types of fluid processor Β the connection device ; structure; wherein the body of the fluid processor 设有 is provided with air inlet to the inside of the body, The other side of the outlet body is provided with a symmetrical recess B2. The connecting device A comprises a connecting seat μ having a through hole (4), a fixing block A5 and at least one screw A6; the way of connecting the two fluid processors b is to seal the through hole of the connecting seat A1. A2, then the through holes on both sides = aligned with the inlet and outlet σ B1 of the two sets of fluid processor B, and then A6 passes through the hole of the fixed block A5 to lock the screw hole A3 of the joint A1, thereby making the fixing secret The two sides (four) of the folds are embedded in the concave portion B2 of the body of the fluid processor B, and the two sets of fluid processors B are connected to fix the 'filament air can be circulated between the two domains. It is a matter of course that other types of connecting device shafts differ from those shown in Fig. 1, but in general, more components are required, and it is inconvenient to remove the wires. SUMMARY OF THE INVENTION The main object of the present invention is to provide a modular connection device 7. The device can be pre-set in the air inlet and outlet positions of the fluid processor of the empty-conditioning group, and the processor needs to be expanded. The number of the devices can be quickly and easily connected by the connecting device, and the same quick and convenient disassembly. The present invention is a combination of a connecting element and a second connecting element. The first and second connecting elements can be pre-fixed to the fluid processor. Therefore, the fluid processing is performed. Between the devices, the first and second connecting elements can be quickly hybridized, and even more groups of # fluid processors can be expanded. 2 The combination of the first and second connecting elements is mainly used to align and rotate the particles to connect the two-seat processor to form a seal, and to compress through the first and first connecting members. Air can be circulated between the two sets of fluid handlers, and the first and second connecting elements can also be disengaged and separated in reverse rotation, which is quick and convenient to assemble and disassemble. The technical segment of (4), wherein the connecting device comprises a first connecting element t-first connecting element 'the first connecting element having a first face and a face on the opposite side and having a first face therethrough a first through hole of the second surface, the first surface is provided with a block and at least one of the protrusions; the second surface is provided at an air inlet and outlet position of the fluid 2 15 to make the first through hole Enter and exit the σ line with the air. The second connecting element has a first surface and a second surface on opposite sides, and has a second through hole of a material-surface and a second surface, and the first surface is provided with a shaft tube that can be fitted to the through hole The second tube has a second through hole extending axially through the first and second sides of the second connecting member, and the first surface of the second connecting member is provided with at least one arc engageable with the insert block a groove 'and a recess complementary to the protrusion, the second side of the second coupling member being provided at an air inlet/outlet position of the other fluid processor, the second through hole and the air inlet and outlet straight line Correspondingly, when the shaft tube rotates in the first through hole, the embedding block moves along the arcuate groove, and when the predetermined position is reached, the convex piece is positioned in complementary cooperation with the concave portion. The technical hand that the first connecting element and the second connecting element are fixed to each other is provided with a hook portion at the free end of the insert block, and respectively formed at both ends of the isolated groove a wide portion and a narrow portion through which the wide portion can be tilted, and the embedded block is displaced to the edge of the arc when the hook portion is fastened to the edge of the curved groove; When the reverse direction is displaced to the wide portion along the curved groove, the insert block can be disengaged from the arcuate groove to separate the first and second connecting members. In the present invention, a spring piece may be disposed on the first surface of the first connecting member, and the convex piece "and the elastic piece" may make the convex piece elastic. When the convex piece is displaced to the concave portion, the elastic force of the elastic piece is used to make the convex piece Positioned by embedding the recess. In addition, the present invention may be provided with at least a groove on the first surface of the second connecting member, and the convex portion is in the "moon groove" in the absence of the recessed portion, so as to prevent the convex particles from being continuously compressed. [Embodiment] The embodiments of the present invention will be described in more detail below with reference to the drawings, so that any person familiar with the subject can implement the book after reading the book. 9 Refer to the second figure' The preferred embodiment of the present invention includes a first junction element and a second connection tree 2. The first connection elements have a first surface and a second surface on opposite sides, and have a through The first surface of the first surface and the second surface 11' is provided with two inlay blocks 12 on opposite sides of the symmetric surface, and the free end of the blocking block 12 is formed with a hook portion so that the inlaid block 12 is generally represented by L; the first side is also located on the two sides of the symmetry _ 13, _ 13 formed directly from the second surface of the first connecting element, and the convex piece is located near the free end of the elastic piece 13 131, in addition, the first connecting element i is further provided with a plurality of through the first side thereof a first hole 14 of the second side. The preferred embodiment of the second connecting member 2 has a first side and a second side on the opposite side, the first side being provided to be coupled to the first a shaft tube 2〇 of the through hole U, the shaft tube 2G having a second through hole 21 of the second surface of the second connecting element 2 and the second side of the second connecting element 2, at least the outer 贱 of the second — __ a sealing member 22; the first surface of the connecting member 2 is provided with arcuate grooves 26 on both sides of the symmetry and engaging with the aforementioned block block 12, the arcuate groove (4) having a wide portion 261 at the end, and a narrow portion 262 at the other end, the wide portion 261 is permeable to the insert block 12, and when the insert block 12 is displaced to the narrow portion 262, the fishing portion at the end of the insert block 12 can be engaged with the curved groove The edge of the groove 26. The first surface of the second connecting member 2 is further provided with a groove 23 and a recess 24 on both sides of the symmetry, the groove 23 extending - the length, the recess % being a circle complementary to the convex 131 The pits; the recess 23 and the recess % are separated from each other without communication; the second_ of the second joining element 2 is provided with a second sealing member 28 surrounding the second through hole 21 (as shown in Fig. 6a). complex The second through hole 25 is further disposed on the second connecting member 2, and the second connecting hole 2 is provided with a second hole 25 on the first side of the first connecting member 2. The first figure shows that the connecting device of the present invention is used in the embodiment; Handling W thief two h body treatment benefits 3
不相同,惟,料物㈣^ —輸_處理器B 何形狀的舰處㈣之2^本發_連結裝置可《適用於任 的相對兩側面均具有衫三圖中,兩組流體處理器3 造該流體纽$ W _线複_L 32 ;在製 別安裝=二可以直接在具有空氣進出,兩側面分 裝第連4件丨與第二連結元件2 ;其安裝方式,是利 的蟫^第連結疋件1的第—洞孔14,再鎖入流體處理器3 -侧 :L 32 ;而利用螺絲穿過第二連結元件2的第二洞孔25,再鎖 體^體處理器3另—侧的螺孔32 ’使第—和第二連結元件隨著流 理禮3㈣時即峡在—起;第二連結雜2蚊於流體處 用。大後=述第二密封元件28即受到壓迫而產生密合的防漏作 戶-口此’當需要將兩組流體處理器3連接時,可以如第六A圖 Γ、直接將第二連結元件2的軸管20套入第一連結元件1的第 —通孔彳Ί Φ 甲’同時使嵌掣塊12套入弧形溝槽26的寬部261内, 山粒131亦置入凹槽23内’然後將兩組流體處理器3相對旋轉, 使欺零塊12從寬度261移位至窄部262,直到極限後讓凸粒131 k凹槽23端部而進入凹部24定位,此時嵌掣塊12的鉤部即扣 s ;弧形4槽26的邊緣(如第六b圖所示),讓兩組流體處理器3 ^結固^,制構成找壓_組;所述第_密封元件22則在轴 管20外徑與第-通孔u陳之間產生密合防漏作用。第四圖為 顯示第三_元件組合後·態。t需要擴充更纽流體處理器 時,也可_財述的方式,無_地加以連結組合(如第五圖所 示)。 a當要將流體處理輯㈣,則只要將兩組流體處理器以相反 於前述的方向旋轉’便能使凸粒131脫離凹部24,且喪掣塊12 移位至寬部261,_能使嵌掣塊12脫雜形賴26而分離;其 操作組裝或拆卸十分快速、方便。 、以上所述者僅為用以解釋本發明之較佳實施例,並非企圖據 、十本發㈣任何喊上之限制,是以,凡有在姻之發明精神 乍有關本發明之任何修飾或變更,皆仍應包括在 圖 保護之範疇。Not the same, but, material (four) ^ - transmission _ processor B, the shape of the ship (4) 2 ^ the hair _ connection device can be applied to the opposite sides of the two sides have a shirt three, two sets of fluid processors 3 Make the fluid New Zealand $ W _ 线 complex _L 32; in the installation installation = two can directly in the air in and out, the two sides of the four connected 丨 and the second connecting element 2; its installation method is profitable The first hole 14 of the first connecting piece 1 is locked into the fluid processor 3 - side: L 32; and the second hole 25 of the second connecting element 2 is passed through the screw, and then the body is processed. The screw hole 32' of the other side of the device 3 causes the first and second connecting elements to be in the gorge with the flow of the ritual 3 (4); the second connecting genus 2 is used in the fluid. Larger = the second sealing element 28 is pressed to create a tight leak-proof user-port. When the two sets of fluid processors 3 need to be connected, the second link can be directly connected as shown in Figure 6A. The shaft tube 20 of the component 2 is inserted into the first through hole Φ Φ of the first connecting element 1 while the insert block 12 is nested in the wide portion 261 of the curved groove 26, and the granule 131 is also placed in the groove. Then, the two sets of fluid handlers 3 are then rotated relative to each other, so that the bullying block 12 is displaced from the width 261 to the narrow portion 262, and after the limit, the end of the groove 131 of the convex portion 131 k is entered into the concave portion 24, at this time. The hook portion of the inlay block 12 is the buckle s; the edge of the curved 4 slot 26 (as shown in the sixth b), the two sets of fluid processors 3 ^ are fixed to form a pressure-seeking group; The sealing member 22 creates a tight leak-proof function between the outer diameter of the shaft tube 20 and the first through hole. The fourth figure shows the state after the third_component combination. When it is necessary to expand the new fluid processor, it can also be combined in a way that is not described in the figure (as shown in the fifth figure). a When the fluid treatment is to be processed (4), the two sets of fluid processors can be rotated in the opposite direction to the direction of the protrusions, so that the convex particles 131 can be disengaged from the concave portion 24, and the fungus block 12 can be displaced to the wide portion 261. The inlay block 12 is decoupled and separated by 26; its operation assembly or disassembly is very fast and convenient. The above description is only for the purpose of explaining the preferred embodiments of the present invention, and is not intended to be construed as a limitation of any of the claims. Changes should still be included in the scope of the map protection.
12 丄 【圖式簡單說明】 顯示習知空氣壓調理組之連接裝置結構之立雜分解圖。 弟一圖為顯示本發明連結t置之實施例立體圖。 圖為,4示本發明連結裝置用於連接兩組流體處理器之實施例 立體分解圖。 ° 第四圖為顯示第三圖所示之元件組合後之狀態。 第五圖為顯示本發明之連結裝置用於連接擴充更多流體處理器之 • 實施例立體圖。 第六A圖為顯示本發明之第一連結元件與第二連結元件未組合前 之結構狀態。 第六B圖為顯示本發明之第一連結元件與第二連結元件組合後之 結構狀態。 【主要元件符號說明】 1••… •第一連結元件 11··. …第一通孔 12... 13··· …彈片 131· .....凸粒 14.·. 15.·. 13 133069512 丄 [Simple diagram of the diagram] The pseudo-decomposition diagram of the structure of the connection device of the conventional air pressure conditioning group is displayed. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view showing an embodiment of the present invention. Figure 4 is an exploded perspective view of an embodiment of the joining device of the present invention for connecting two sets of fluid handlers. ° The fourth figure shows the state after the combination of the components shown in the third figure. The fifth figure is a perspective view showing an embodiment of the joining device of the present invention for connecting and expanding more fluid processors. Fig. 6A is a view showing the state of the structure before the first joining member and the second joining member of the present invention are combined. Fig. 6B is a view showing the structural state of the first connecting member and the second connecting member of the present invention. [Description of main component symbols] 1••... • First connecting element 11··....first through hole 12...13··· ...shrap piece 131· ..... bump 14.·. 15.· . 13 1330695
2….· •第二連結元件 20… …軸管 21… …第二通孔 22… …第一密封元件 23… …凹槽 24··· …凹部 25… …第二洞孔 26… …孤形溝槽 261·· •…·寬部 262- …··窄部 27… …螺絲 28… …第二密封元件 3…·, ••流體處理器 31… …空氣進出口 32… …螺孔 142....·•Second connection element 20...shaft tube 21...second through hole 22...first sealing element 23...groove 24·...recession 25...second hole 26...isphan Shaped groove 261·····wide portion 262-...ends narrow portion 27...screw 28...second sealing member 3...·, • fluid processor 31...air inlet/outlet 32... screw hole 14