TWI736107B - Micro bubble generation module - Google Patents

Abstract

本發明提供一種微氣泡產生模組其包含有一第一網體、一第二網體及一緩衝保護裝置，而該第一網體設有複數第一通孔與鄰設至少一該第一通孔之至少一進氣通孔；該第二網體設置於該第一網體上，並具有複數第二通孔；而該本體係可容置該第一網體與該第二網體；該緩衝保護裝置設於該第一網體與該第二網體之外周側，其中，該第一通孔與對應之該第二通孔連通形成一導流通道；而該進氣通孔會連通至少一該等導流通道，該進氣通孔使液體在通過該導流通道時會在該第一通孔與該第二通孔的連通處產生微小氣泡。The present invention provides a microbubble generation module which includes a first net body, a second net body and a buffer protection device, and the first net body is provided with a plurality of first through holes and adjacently arranged at least one first through hole. At least one air inlet through hole of the hole; the second net body is arranged on the first net body and has a plurality of second through holes; and the present system can accommodate the first net body and the second net body; The buffer protection device is arranged on the outer peripheral side of the first net body and the second net body, wherein the first through hole communicates with the corresponding second through hole to form a diversion channel; and the air inlet through hole will At least one of the diversion channels is connected, and the air inlet through hole causes the liquid to generate tiny bubbles at the connection between the first through hole and the second through hole when the liquid passes through the diversion channel.

Description

微氣泡產生模組Micro bubble generation module

本發明有關於一種微氣泡產生裝置，尤指一種用以柔化水流並提高水流含氣量及氣泡細微度之微氣泡產生模組。 The present invention relates to a microbubble generating device, in particular to a microbubble generating module used to soften the water flow and increase the air content of the water flow and the fineness of the bubbles.

習用之蓮蓬頭若要產生微氣泡時，通常是另外裝設一微氣泡產生裝置，使得水流在通過該微氣泡產生裝置時，能產生細微的氣泡，藉此，可以利用微小的氣泡來將深入人體毛細孔中的髒污帶走。 If the conventional shower head wants to generate microbubbles, it is usually equipped with a microbubble generating device, so that when the water flows through the microbubble generating device, it can generate fine bubbles, so that the microbubbles can be used to penetrate deep into the human body. The dirt in the pores is taken away.

然而，習知的微氣泡產生裝置通常是被裝設在蓮蓬頭其連接入水管的一端，因此，該微氣泡產生裝置雖然可以產生細微氣泡，但經過該蓮蓬頭再噴灑到使用者時，其細微氣泡會因為路徑過長而破裂，使得清潔效果大打折扣。是以，如何改善前述現有技術之缺失，實為業界亟欲克服之問題。 However, the conventional microbubble generating device is usually installed on the end of the shower head which is connected to the water pipe. Therefore, although the microbubble generating device can generate fine bubbles, when it is sprayed to the user through the shower head, the fine bubbles It will break because the path is too long, making the cleaning effect greatly compromised. Therefore, how to improve the aforementioned shortcomings of the prior art is actually a problem that the industry urgently wants to overcome.

本發明之目的，在於改善習用裝置其氣液混合至噴灑時，因為路徑過長造成氣液混合之含氣量不足及氣泡體積不夠細小之問題。 The purpose of the present invention is to improve the problem of insufficient gas content in the gas-liquid mixing and insufficient small bubble volume due to the excessively long path when the gas-liquid mixing in the conventional device is sprayed.

為達上述目的，本發明提供一種微氣泡產生模組，包含有一第一網體及一第二網體，而該第一網體設有複數第一通孔、至少一進氣通孔、一第一連接面及至少一第一固定部，其中，至少一該第一通孔的周側設有該進氣通孔；第二網體，設置於該第一網體上，該第二網體具有複數第二通孔、一第二連接面及至少一第二固定部，其中，該第二連接面與該第一連接面相對設置；其中，每一該第一固定部自該第一連接面沿一軸向而與對應之一該第二固定部相連接，使該第一連接面與該第二連接面間形成至少一間隙；其中，該等第一通孔與連通之該等第二通孔形成一導流通道，而該進氣通孔藉 由該間隙而連通至少一該等導流通道，且該進氣通孔使液體在通過該導流通道時會在該第一通孔與該第二通孔的連通處產生微小氣泡。 To achieve the above objective, the present invention provides a microbubble generation module, which includes a first mesh body and a second mesh body, and the first mesh body is provided with a plurality of first through holes, at least one air inlet through hole, and a The first connecting surface and at least one first fixing portion, wherein at least one of the first through holes is provided with the air inlet through holes on the peripheral side; the second net body is arranged on the first net body, and the second net The body has a plurality of second through holes, a second connecting surface and at least one second fixing portion, wherein the second connecting surface is disposed opposite to the first connecting surface; wherein, each of the first fixing portions is from the first The connecting surface is connected to a corresponding one of the second fixing portions along an axial direction, so that at least one gap is formed between the first connecting surface and the second connecting surface; wherein, the first through holes are connected to the connected ones The second through hole forms a diversion channel, and the air inlet through hole At least one of the guide channels is communicated by the gap, and the air inlet through hole causes the liquid to pass through the guide channel to generate tiny bubbles at the communication place between the first through hole and the second through hole.

進一步地，該第一連接面與該第二連接面其中之一者並凹設形成至少一連接該進氣通孔與該第一通孔之第一進氣溝槽。 Further, one of the first connecting surface and the second connecting surface is recessed to form at least one first air inlet groove connecting the air inlet through hole and the first through hole.

進一步地，該第一進氣溝槽鄰接該進氣通孔之一端形成一第一容室。 Further, the first air inlet groove is adjacent to one end of the air inlet through hole to form a first chamber.

進一步地，具有一容置該第一網體與該第二網體之本體，且該本體包含有一具液體流入口之進水單元與鎖設於該進水單元上之一出水單元，該第二網體鄰接該液體流入口。 Further, there is a body for accommodating the first net body and the second net body, and the body includes a water inlet unit with a liquid inlet and a water outlet unit locked on the water inlet unit. The two mesh bodies are adjacent to the liquid inlet.

進一步地，該等第一通孔為朝該第一連接面方向漸縮之錐形孔，且該第一通孔並於其中一端進一步形成一第一圓柱孔段，而該等第二通孔朝該第二連接面方向漸縮之錐形孔，且該第二通孔並於其中一端進一步形成一第二圓柱孔段。 Further, the first through holes are tapered holes that taper toward the first connecting surface, and one end of the first through holes further forms a first cylindrical hole section, and the second through holes A tapered hole is tapered toward the second connecting surface, and a second cylindrical hole section is further formed at one end of the second through hole.

進一步地，該第一網體與該第二網體之外周側設有一緩衝保護裝置。 Further, a buffer protection device is provided on the outer periphery of the first net body and the second net body.

進一步地，設有一第三網體於該第一網體與該第二網體之間，其中，該第三網體包含複數第三通孔及複數連接孔，而該等第三通孔與對應之該等第二通孔及該等第一通孔連通，而該等連接孔會與相對的該進氣通孔連通。 Further, a third net body is provided between the first net body and the second net body, wherein the third net body includes a plurality of third through holes and a plurality of connecting holes, and the third through holes are The corresponding second through holes communicate with the first through holes, and the connecting holes communicate with the opposite air inlet through holes.

進一步地，該第三網體相對於該第二連接面之一第三連接面並凹設形成至少一連接該連接孔與該第三通孔之第二進氣溝槽。 Further, the third net body is recessed to form at least one second air inlet groove connecting the connecting hole and the third through hole relative to a third connecting surface of the second connecting surface.

進一步地，該第二進氣溝槽鄰接該連接孔之一端形成有一第二容室。 Further, the second air inlet groove forms a second chamber adjacent to one end of the connecting hole.

進一步地，該第一網體的該第一連接面與該第二網體的該第二連接面間設有至少一間隙單元。 Further, at least one gap unit is provided between the first connection surface of the first net body and the second connection surface of the second net body.

是以，本發明較先前技術具有以下有益功效： Therefore, the present invention has the following beneficial effects compared with the prior art:

1、本發明之微氣泡產生模組可以直接設置在蓮蓬頭內，使蓮蓬頭產生混合微氣泡之液體可以讓使用者直接淋浴使用，而不會讓微氣泡因為路徑長而破裂。 1. The micro-bubble generation module of the present invention can be directly installed in the shower head, so that the shower head can produce a liquid mixed with micro-bubbles, which can be used by the user directly in the shower without breaking the micro-bubbles due to the long path.

2、本發明之微氣泡產生模組可以直接裝設於一曝氣機之出水管進行氣液混合，使混合後之微小氣泡被水流導引至汙水後，使汙水可以達成曝氣的目的，或養殖業者將混合後之微小氣泡由水流導引至養殖池中，使養殖池的水可以達成曝氣的目的。 2. The microbubble generation module of the present invention can be directly installed in the outlet pipe of an aerator for gas-liquid mixing, so that the mixed microbubbles are guided to the sewage by the water flow, so that the sewage can be aerated The purpose, or the breeding industry will guide the mixed tiny bubbles from the water flow to the breeding pond, so that the water in the breeding pond can achieve the purpose of aeration.

3、本發明之徵氣泡產生模組其進氣通孔是形成在設於出水單元的第一網體上，並使第一網體與第二網體結合後會產生可讓外部空氣自進氣通孔被吸入的間隙或第一進氣溝槽，使外部空氣在第一網體其第一通孔與第二網體其第二通孔連通處與液體產生混合，藉此，提高氣液混合比例，且混合微氣泡的液體可直接噴灑在使用者身上，增加其使用上的效果。 3. In the air bubble generating module of the present invention, the air inlet through holes are formed on the first mesh body provided in the water outlet unit, and the combination of the first mesh body and the second mesh body will produce a self-introduction for outside air. The gap through which the air through hole is sucked or the first air inlet groove causes the outside air to mix with the liquid at the connection between the first through hole of the first net body and the second through hole of the second net body, thereby increasing the air flow. The liquid mixing ratio, and the liquid mixed with microbubbles can be sprayed directly on the user to increase its use effect.

100:微氣泡產生模組 100: Micro bubble generation module

10:第一網體 10: The first net body

11:第一連接面 11: The first connection surface

12:第一通孔 12: The first through hole

121:第一圓柱孔段 121: The first cylindrical hole section

13:進氣通孔 13: Intake through hole

131:進氣圓柱孔段 131: Inlet cylindrical hole section

14:第一固定部 14: The first fixed part

15:第一進氣溝槽 15: The first air intake groove

16:第一容室 16: The first chamber

17:第一定位孔 17: The first positioning hole

20:第二網體 20: The second net body

21:第二通孔 21: second through hole

211:第二圓柱孔段 211: The second cylindrical hole section

22:第二連接面 22: The second connecting surface

23:第二固定部 23: The second fixed part

24:第二定位孔 24: The second positioning hole

30:緩衝保護裝置 30: Buffer protection device

40:本體 40: body

41:液體流入口 41: Liquid inlet

42:進水單元 42: Water inlet unit

43:出水單元 43: Water outlet unit

50:第三網體 50: The third net body

51:第三連接面 51: The third connecting surface

52:第四連接面 52: The fourth connecting surface

53:第三通孔 53: third through hole

54:連接孔 54: connecting hole

55:第二進氣溝槽 55: second air inlet groove

56:第二容室 56: The second chamber

60:間隙單元 60: Gap unit

S:間隙 S: gap

T:導流通道 T: diversion channel

L:液體 L: Liquid

第1圖：為本發明第一實施例之立體分解示意圖。 Figure 1: is a three-dimensional exploded schematic view of the first embodiment of the present invention.

第2-1圖：為本發明第一實施例之組合示意圖。 Figure 2-1: is a schematic diagram of the combination of the first embodiment of the present invention.

第2-2圖：為第2-1圖A-A剖線之剖面示意圖。 Figure 2-2: It is a schematic cross-sectional view of the line A-A in Figure 2-1.

第2-3圖：為第2-1圖B-B剖線之剖面與動作示意圖。 Figure 2-3: is a schematic diagram of the cross-section and action of the B-B section line in Figure 2-1.

第3-7圖：為第2-1圖B-B剖線之其他實施態樣之示意圖。 Figure 3-7: It is a schematic diagram of other implementations of the section line B-B in Figure 2-1.

第8圖：為本發明第二實施例之局部剖面與動作示意圖。 Figure 8: is a partial cross-section and schematic diagram of the action of the second embodiment of the present invention.

第9-13圖：為本發明第二實施例之其他實施態樣之示意圖。 Figures 9-13: are schematic diagrams of other implementation aspects of the second embodiment of the present invention.

第14-1圖：為本發明第一實施例之第一網體之局部剖面立體示意圖。 Figure 14-1: is a partial cross-sectional perspective view of the first mesh body of the first embodiment of the present invention.

第14-2圖：為第14-1圖標示C處之局部放大剖面示意圖。 Figure 14-2: It is a partial enlarged cross-sectional schematic diagram of the position C shown in Figure 14-1.

第15-1圖：為本發明第一實施例之第一網體之局部剖面立體示意圖。 Figure 15-1: is a partial cross-sectional perspective view of the first mesh body of the first embodiment of the present invention.

第15-2圖：為第15-1圖標示D處之局部放大剖面示意圖。 Figure 15-2: It is a partial enlarged cross-sectional schematic diagram of the part D shown in the figure 15-1.

第16-1圖：為本發明第一實施例之第一網體之局部剖面立體示意圖。 Figure 16-1: is a partial cross-sectional perspective view of the first mesh body of the first embodiment of the present invention.

第16-2圖：為第16-1圖標示E處之局部放大剖面示意圖。 Figure 16-2: It is a partial enlarged cross-sectional schematic diagram of the position E shown in Figure 16-1.

第17-1圖：為本發明第一實施例之第一網體之局部剖面立體示意圖。 Figure 17-1: is a partial cross-sectional perspective view of the first mesh body of the first embodiment of the present invention.

第17-2圖：為第17-1圖標示F處之局部放大剖面示意圖。 Figure 17-2: It is a partial enlarged cross-sectional schematic diagram of the position F shown in Figure 17-1.

第18-1圖：為本發明第一實施例之第一網體之局部剖面立體示意圖。 Figure 18-1: is a partial cross-sectional perspective view of the first mesh body of the first embodiment of the present invention.

第18-2圖：為第18-1圖標示G處之局部放大剖面示意圖。 Figure 18-2: It is a schematic diagram of a partial enlarged cross-sectional view at G on the 18-1 icon.

第19-1圖：為本發明第一實施例之局部剖面立體示意圖。 Figure 19-1: is a partial cross-sectional perspective view of the first embodiment of the present invention.

第19-2圖：為第19-1圖標示H處之局部放大剖面示意圖。 Figure 19-2: It is a partial enlarged cross-sectional schematic diagram of the position H shown in Figure 19-1.

第20-1圖：為本發明第一實施例之局部剖面立體示意圖。 Figure 20-1: is a partial cross-sectional perspective view of the first embodiment of the present invention.

第20-2圖：為第20-1圖標示I處之局部放大剖面示意圖。 Figure 20-2: It is a partial enlarged cross-sectional schematic diagram of icon I in Figure 20-1.

第21-23圖：為第20-1圖標示I處之其他實施態樣之局部剖面放大示意圖。 Figures 21-23: An enlarged schematic diagram of a partial cross-section of other implementations at the position I in the 20-1 icon.

第24-1圖：為本發明第三實施例平面示意圖。 Figure 24-1: is a schematic plan view of the third embodiment of the present invention.

第24-2圖：為第24-1圖標示I處之局部放大剖面示意圖。 Figure 24-2: It is a schematic diagram of a partial enlarged cross-sectional view of icon I in Figure 24-1.

第24-3圖：為第24-1圖J-J剖線之局部放大示意圖。 Figure 24-3: It is a partial enlarged schematic diagram of the J-J section line in Figure 24-1.

第25圖：為本發明之第四實施例之立體分解示意圖。 Figure 25: is a three-dimensional exploded schematic view of the fourth embodiment of the present invention.

第26圖：為本發明之第四實施例之立體組合示意圖。 Figure 26: is a three-dimensional assembly diagram of the fourth embodiment of the present invention.

第27圖：為本發明之第四實施例之剖面示意圖。 Figure 27: is a schematic cross-sectional view of the fourth embodiment of the present invention.

第28圖：為本發明之第五實施例之立體分解示意圖。 Figure 28: is a three-dimensional exploded schematic view of the fifth embodiment of the present invention.

第29圖：為本發明之第五實施例之剖面示意圖。 Figure 29: is a schematic cross-sectional view of the fifth embodiment of the present invention.

茲就本申請案的技術特徵暨操作方式舉數個較佳實施態樣，並配合圖示說明謹述於后，俾提供審查參閱。再者，本發明中之圖式，為便於說明 其比例未必按實際比例繪製，圖式中之比例並不用以限制本發明所欲請求保護之範圍。 Here are a few preferred implementation aspects of the technical features and operation methods of this application, which will be described in conjunction with the illustration below for review and reference. Furthermore, the drawings in the present invention are for ease of description The proportions are not necessarily drawn according to the actual proportions, and the proportions in the drawings are not used to limit the scope of protection of the present invention.

有關本發明之一種微氣泡產生模組100其係可運用於汙水處理、各式水產養殖等工業上所使用的曝氣設備，也可以運用於蓮篷頭、出水龍頭等家用設備，請先參閱第1圖至第2-3圖所示，本發明第一實施例之該微氣泡產生模組100包含一第一網體10、一第二網體20及一緩衝保護裝置30，其中：該第一網體10，設有一第一連接面11、複數第一通孔12、複數進氣通孔13及複數第一固定部14，其中，該等第一通孔12的周側設有一該進氣通孔13，且該第一連接面11受該等第一通孔12與該等進氣通孔13貫穿，本發明第一實施中該等第一通孔12與該等進氣通孔13為錐形孔，且該等第一通孔12與該等進氣通孔13彼此係交錯設置，並可如第1圖所示該等第一通孔12與該等進氣通孔13大致排列形成為圓形，但不以此為限，而該第一網體10並於周側設有複數第一定位孔17；該第二網體20，設置於該第一網體10上，該第二網體20具有複數第二通孔21、一第二連接面22及複數第二固定部23，其中，該第二連接面22與該第一連接面11相對設置，其中，該第二連接面22受該等第二通孔21貫穿，於本實施例中該等第二通孔21為錐形孔，並與該等第一通孔12一樣大致排列形成為圓形，但不以此為限，而該第二網體20對應該第一網體10的該等第一定位孔17亦設有複數第二定位孔24；該緩衝保護裝置30，設於該第一網體10與該第二網體20之外周側；其中，請再參閱第2-2圖所示，每一該第一固定部14自該第一連接面11沿一軸向而與對應之一該第二固定部23相連接，利用該等第一固定部14不會與該等第二固定部23完全密合的結構設計，使該第一連接面11與該第二連接面22間形成一間隙S，而本第一實施例中該第一網體10係沿軸向凸設形 成該第一固定部14並使其係沿軸向抵靠限位連接於該第二網體20沿軸向相對該第一固定部14凹設形成之該第二固定部23上，其中，該等第一固定部14與該等第二固定部23也可以利用雷射點焊、鉚釘或各形成一螺孔來穿設可彼此對鎖的螺絲與螺帽(圖未繪)等方式來將該等第一固定部14與對應之該等第二固定部23相互固定，或者是由塑料射出成型該第一網體10與該第二網體20時並分別形成該第一固定部14及該第二固定部23，例如本發明第一實施例之該等第一固定部14是形成一凸點與該等第二固定部23所形成的凹點相連接限位而卡扣固定，但不以此為限，藉此，該緩衝保護裝置30採套設方式而壓合該第一網體10與該第二網體20的外周側，進而使該第一固定部14與該第二固定部23於該第一連接面11與該第二連接面22間可緊密結合並會具有該間隙S，其中，本發明第一實施例進一步地更設有複數間隙單元60於該第一連接面11與該第二連接面22間，且該等間隙單元60鄰接於該等第一通孔11與該等進氣通孔13所形成圓形排列的週側，該等間隙單元60使該第一網體10的該第一連接面11與該第二網體20的該第二連接面22間形成的該間隙S可維持一固定距離；其中，請再參閱第2-3圖所示，該等第一通孔12與對應之該等第二通孔21會相互連通形成一導流通道T，且本發明第一實施中該等第一通孔12會朝該第一連接面11之方向漸縮，該等第二通孔21會朝該第二連接面22之方向漸縮；且該等第一定位孔17會對齊該等第二定位孔24，藉此，方便該第一網體10與該第二網體20相組設時，使每一該第一通孔12可以對齊所對應之每一該第二通孔21來形成該等導流通道T，減少該等第一通孔12沒有對應到該等第二通孔21之數量，而每一該進氣通孔13藉由該間隙S連通至少一該等導流通道T，且該進氣通孔13使液體L在通過該等導流通道T時會在該第一通孔12與該第二通孔21的連通處產生混合於液體L中的微小氣泡； 請參閱第3圖至第7圖所示，其主要結構與第一實施例相同部份不再贅述，其主要差異是揭露該第一網體10之該等第一通孔12與該第二網體20之該等第二通孔21可具有不同的形狀，其中，該等進氣通孔13、該等第一通孔12與該第二通孔21於其剖視圖來看大致上可以是如第3圖、第6圖及第7圖所示的錐形孔，或者是如第4圖及5圖所示的圓柱形孔，更甚至可是如第7圖所示該等第二通孔21會朝該第二連接面22漸擴，而該等第一通孔12會朝該第一連接面11漸擴，該等進氣通孔13會朝該第一連接面11漸縮，進一步地該第二通孔21於相對該第二連接面22之另一平面的徑寬會大於該第一通孔12於該第一連接面11處的徑寬；又，請再參閱第6圖所示，該間隙S進一步可以是該第一連接面11或該第二連接面22凹設形成一連接該進氣通孔13與該第一通孔12之第一進氣溝槽15，該等第一進氣溝槽15並於鄰接該進氣通孔13之一端形成有一第一容室16，而其主要功能與產生負壓的方式與本發明第一實施例均相同，故不在贅述，惟，其可增加氣液混合比例，增加乳化效果。另，請再參閱第4圖與第5圖所示，該第一通孔12的徑寬與該第二通孔21的徑寬通常會不同，也就是該第一通孔12的徑寬一般會大於該第二通孔21的徑寬，其差異約0.01微米(μm)至0.02微米(μm)之間，藉此亦可使該第二通孔21來的液體L於該第一連接面11與該第二連接面22的接合位置與來自該進氣通孔13的空氣的進行混合時可增加混合效果與乳化的效果。 Regarding the microbubble generation module 100 of the present invention, it can be applied to aeration equipment used in sewage treatment, various aquaculture and other industries, and can also be applied to household equipment such as lotus heads and faucets. Referring to FIGS. 1 to 2-3, the microbubble generating module 100 of the first embodiment of the present invention includes a first net body 10, a second net body 20 and a buffer protection device 30, wherein: The first net body 10 is provided with a first connecting surface 11, a plurality of first through holes 12, a plurality of air inlet through holes 13, and a plurality of first fixing portions 14, wherein the peripheral side of the first through holes 12 is provided with a The air inlet through hole 13 and the first connecting surface 11 are penetrated by the first through holes 12 and the air inlet through holes 13. In the first embodiment of the present invention, the first through holes 12 and the air inlet The through holes 13 are tapered holes, and the first through holes 12 and the air inlet through holes 13 are alternately arranged with each other, and the first through holes 12 and the air inlet holes may be arranged in a staggered manner as shown in FIG. The holes 13 are roughly arranged to form a circle, but not limited to this. The first net body 10 is provided with a plurality of first positioning holes 17 on the peripheral side; the second net body 20 is arranged on the first net body 10, the second net body 20 has a plurality of second through holes 21, a second connection surface 22 and a plurality of second fixing portions 23, wherein the second connection surface 22 is disposed opposite to the first connection surface 11, wherein The second connecting surface 22 is penetrated by the second through holes 21. In this embodiment, the second through holes 21 are tapered holes, and are arranged in a circular shape like the first through holes 12 , But not limited to this, and the second net body 20 corresponding to the first positioning holes 17 of the first net body 10 also has a plurality of second positioning holes 24; A net body 10 and the outer peripheral side of the second net body 20; among them, please refer to Figure 2-2 again, each of the first fixing portions 14 from the first connecting surface 11 along an axial direction and corresponds to One is that the second fixing portion 23 is connected, and the first fixing portion 14 is not completely tightly attached to the second fixing portion 23, so that the first connecting surface 11 and the second connecting surface 22 A gap S is formed between, and in the first embodiment, the first mesh body 10 is convexly formed along the axial direction. The first fixing portion 14 is formed and connected to the second fixing portion 23 formed by abutting and limiting the second net body 20 axially relative to the first fixing portion 14, wherein, The first fixing portions 14 and the second fixing portions 23 can also be formed by laser spot welding, rivets, or forming a screw hole to pass through screws and nuts (not shown in the figure) that can be locked to each other. When the first fixing parts 14 and the corresponding second fixing parts 23 are fixed to each other, or the first net body 10 and the second net body 20 are molded by plastic injection, the first fixing parts 14 are formed respectively And the second fixing portion 23, for example, the first fixing portions 14 of the first embodiment of the present invention are formed with a convex point which is connected with the concave point formed by the second fixing portion 23 to be buckled and fixed. However, it is not limited to this. With this, the buffer protection device 30 adopts a sleeve method to press the outer peripheral sides of the first net body 10 and the second net body 20, so that the first fixing portion 14 and the second net body 20 are pressed together. The two fixing portions 23 can be tightly combined between the first connecting surface 11 and the second connecting surface 22 and will have the gap S. The first embodiment of the present invention is further provided with a plurality of gap units 60 on the first Between the connecting surface 11 and the second connecting surface 22, and the gap units 60 are adjacent to the circumferential side of the circular arrangement formed by the first through holes 11 and the air inlet through holes 13, the gap units 60 make The gap S formed between the first connecting surface 11 of the first net body 10 and the second connecting surface 22 of the second net body 20 can maintain a fixed distance; wherein, please refer to Figs. 2-3 again As shown, the first through holes 12 and the corresponding second through holes 21 will communicate with each other to form a diversion channel T, and in the first embodiment of the present invention, the first through holes 12 will face the first connecting surface. 11 is tapered, the second through holes 21 will taper toward the second connecting surface 22; and the first positioning holes 17 will be aligned with the second positioning holes 24, thereby facilitating the When a net body 10 is assembled with the second net body 20, each of the first through holes 12 can be aligned with each of the second through holes 21 to form the diversion channels T, reducing the The first through holes 12 do not correspond to the number of the second through holes 21, and each of the air inlet through holes 13 communicates with at least one of the guide channels T through the gap S, and the air inlet through holes 13 make When the liquid L passes through the guide channels T, tiny bubbles mixed in the liquid L will be generated at the connection between the first through hole 12 and the second through hole 21; Please refer to Figures 3 to 7. The main structure is the same as that of the first embodiment and will not be repeated here. The main difference is that the first through holes 12 and the second through holes 12 of the first mesh body 10 are exposed. The second through holes 21 of the mesh body 20 can have different shapes, wherein the air intake through holes 13, the first through holes 12, and the second through holes 21 can be substantially The tapered holes as shown in Figures 3, 6, and 7, or the cylindrical holes as shown in Figures 4 and 5, or even the second through holes as shown in Figure 7 21 will gradually expand toward the second connecting surface 22, the first through holes 12 will gradually expand toward the first connecting surface 11, and the air intake through holes 13 will gradually shrink toward the first connecting surface 11, further The diameter width of the second through hole 21 on another plane opposite to the second connection surface 22 will be greater than the diameter width of the first through hole 12 at the first connection surface 11; also, please refer to FIG. 6 again As shown, the gap S may further be that the first connecting surface 11 or the second connecting surface 22 is recessed to form a first air inlet groove 15 connecting the air inlet through hole 13 and the first through hole 12, the A first chamber 16 is formed at one end of the first air inlet groove 15 adjacent to the air inlet through hole 13, and its main function and the way of generating negative pressure are the same as the first embodiment of the present invention, so it will not be repeated here. However, it can increase the gas-liquid mixing ratio and increase the emulsification effect. In addition, please refer to FIGS. 4 and 5 again. The diameter width of the first through hole 12 and the diameter width of the second through hole 21 are usually different, that is, the diameter width of the first through hole 12 is generally different. Is greater than the diameter of the second through hole 21, and the difference is about 0.01 micrometers (μm) to 0.02 micrometers (μm), so that the liquid L from the second through hole 21 can be on the first connection surface. When the joint position of 11 and the second connecting surface 22 is mixed with the air from the air inlet through hole 13, the mixing effect and emulsification effect can be increased.

請再參閱第8圖所示為本發明之第二實施例，其主要是在該第一網體10與該第二網體20間增加一第三網體50，該第三網體50包含有一相對該第二連接面22之第三連接面51、一相對該第一連接面11之第四連接面52、複數第三通孔53及複數連接孔54，而該等第三通孔53會與對應之該等第二通孔21及該等第一通孔12連通，進而使該等第三通孔53、該等第二通孔21及該等第一通孔12會構成該等導流通道T；而該等連接孔54會與相對的該進氣通孔13 連通，該第一連接面11與該第四連接面52間並具有該間隙S，且該第一網體10的每一該進氣通孔13與對應連通之該等第一通孔12間，會在該第一連接面11凹設形成複數連接該進氣通孔13與該等第一通孔12之該第一進氣溝槽15，而該第二連接面22與該第三連接面51間也具有該間隙S，且該第三網體50的每一該連接孔54與對應連通之該等第三通孔53間，會在該第三連接面51凹設形成複數連接該連接孔54與該等第三通孔53之第二進氣溝槽55；請參閱第9圖至第13圖所示，其主要結構與第一實施例相同部份不再贅述，主要差異是揭露該第一網體10之該等第一通孔12、該進氣通孔13、該第二網體20之該等第二通孔21、該第三網體50之該等第三通孔53及該等連接孔54具有不同的形狀，且該第一連接面11與該第四連接面52間會形成該間隙S，而該第二連接面22與該第三連接面51間會形成該間隙S，同時，該第一連接面11並凹設形成該第一進氣溝槽15於該第一通孔12與該進氣通孔13間，而該第三連接面51凹設形成一第二進氣溝槽55於該第三通孔53與該連接孔54間，請參閱第11圖所示，該等間隙S進一步分別是該第一進氣溝槽15與該第二進氣溝槽55，而該第一進氣溝槽15鄰接該進氣通孔13之一端形成有該第一容室16，而該第二進氣溝槽55鄰接該連接孔54之一端形成有一第二容室56，藉此，增加氣液混合之比例與乳化效果；且該等進氣通孔13、該等第一通孔12、該等第二通孔21與該等第三通孔53於剖視圖來看大致上可以是如第9圖、10圖與11圖所示的錐形孔，或者是如第12圖及13圖所示的圓柱形孔，更甚至可是如第10圖所示該等第二通孔21會朝該第二連接面22漸擴，而該等第一通孔12會朝該第一連接面11漸擴，該等第三通孔53會自該第四連接面52朝該第三連接面51漸擴，該等連接孔54會朝第三連接面51漸縮，該等進氣通孔13會朝該第一連接面11漸縮，進一步地該第二通孔21相對該第二連接面22 之另一平面的徑寬會大於該第一通孔12於該第一連接面11處的徑寬，而其主要功能與產生負壓的方式與本發明第一實施例均相同，故不在贅述。 Please refer to Fig. 8 again for the second embodiment of the present invention, which is mainly to add a third net body 50 between the first net body 10 and the second net body 20, and the third net body 50 includes There is a third connection surface 51 opposite to the second connection surface 22, a fourth connection surface 52 opposite to the first connection surface 11, a plurality of third through holes 53, and a plurality of connection holes 54, and the third through holes 53 Will communicate with the corresponding second through holes 21 and the first through holes 12, so that the third through holes 53, the second through holes 21 and the first through holes 12 will form the Diversion channel T; and the connecting holes 54 will be opposite to the intake through holes 13 Connected, the first connecting surface 11 and the fourth connecting surface 52 have the gap S, and each of the air inlet through holes 13 of the first mesh body 10 is connected to the corresponding first through holes 12 , The first connecting surface 11 is recessed to form a plurality of the first intake grooves 15 connecting the intake through holes 13 and the first through holes 12, and the second connecting surface 22 is connected to the third There is also the gap S between the surfaces 51, and each of the connecting holes 54 of the third net body 50 and the corresponding third through holes 53 will be recessed on the third connecting surface 51 to form a plurality of connecting the The connecting holes 54 and the second air inlet grooves 55 of the third through holes 53; please refer to Fig. 9 to Fig. 13. The main structure is the same as the first embodiment and will not be repeated here. The main difference is The first through holes 12 of the first net body 10, the air inlet through holes 13, the second through holes 21 of the second net body 20, and the third holes of the third net body 50 are disclosed The hole 53 and the connecting holes 54 have different shapes, and the gap S is formed between the first connecting surface 11 and the fourth connecting surface 52, and the second connecting surface 22 and the third connecting surface 51 are formed The gap S is formed, and at the same time, the first connecting surface 11 is recessed to form the first air inlet groove 15 between the first through hole 12 and the air inlet through hole 13, and the third connecting surface 51 is recessed A second air inlet groove 55 is formed between the third through hole 53 and the connecting hole 54. Please refer to FIG. 11. The gaps S are further respectively the first air inlet groove 15 and the second air inlet groove. An air inlet groove 55, and an end of the first air inlet groove 15 adjacent to the air inlet through hole 13 is formed with the first chamber 16, and the second air inlet groove 55 is formed adjacent to an end of the connecting hole 54 There is a second chamber 56 to increase the gas-liquid mixing ratio and emulsification effect; and the air inlet through holes 13, the first through holes 12, the second through holes 21 and the third through holes The hole 53 can generally be a tapered hole as shown in Figures 9, 10, and 11 in a cross-sectional view, or a cylindrical hole as shown in Figures 12 and 13, or even as shown in Figure 10. As shown, the second through holes 21 will gradually expand toward the second connecting surface 22, and the first through holes 12 will gradually expand toward the first connecting surface 11, and the third through holes 53 will gradually expand from the first connecting surface. The four connecting surfaces 52 gradually expand toward the third connecting surface 51, the connecting holes 54 will gradually shrink toward the third connecting surface 51, and the air inlet through holes 13 will gradually shrink toward the first connecting surface 11. The second through hole 21 is opposite to the second connecting surface 22 The diameter of the other plane will be greater than the diameter of the first through hole 12 at the first connecting surface 11, and its main function and the way of generating negative pressure are the same as those of the first embodiment of the present invention, so it will not be repeated here. .

請參閱第14-1圖與第14-2圖所示，本發明第一實施例之該第一網體10在該第一連接面11凸設形成大致為圓柱狀的該等間隙單元60；請參閱第15-1與第15-2圖所示，該第一網體10在該第一連接面11沿其軸向凸設大致呈圓環之該等間隙單元60；請參閱第16-1圖與第16-2圖所示，該第一網體10在該第一連接面11沿徑向凸設形成大致呈條狀之該等間隙單元60；請參閱第17-1圖與第17-2圖所示，該第一網體10在該第一連接面11所凸設之該等第一固定部14處套設該等間隙單元60；請參閱第18-1圖與第18-2圖所示，該第一網體10在該第一連接面11係凹設形成大致呈圓狀的該第一進氣溝槽15，該第一進氣溝槽15並連接該等第一通孔12與該等進氣通孔13；請參閱第19-1圖與第19-2圖所示，該第一連接面11與該第二連接面22之該間隙S為該第一進氣溝槽15，因此，該第一連接面11與該第二連接面22間可設該間隙S，或設該間隙S與該等第一進氣溝隙15、或由該等第一進氣溝隙15來構成該間隙S。請參閱第20-1圖至第23圖所示，該第一通孔12、該進氣通孔13與該第二通孔21大致呈錐形孔的形狀，而該第一通孔12、該進氣通孔13與該第二通孔21分別在對應之其中一端形成有一第一圓柱孔段121、一進氣圓柱孔段131及一第二圓柱孔段211，藉此，該第一圓柱孔段121、該進氣圓柱孔段131及該第二圓柱孔段211在使用塑料進行射出成型的製造過程中，可以便於脫模成型，請再參閱第20-2圖所示，本實施之第一圓柱孔段121與該第二圓柱孔段211係分別鄰近所對應之該第一連接面11與該第二連接面22端，如此，該第一圓柱孔段121與該第二圓柱孔段211可以使液體L流經該第一通孔12並混合空氣後進入該第二通孔21的出水型態較佳，但不以此為限。 Please refer to FIGS. 14-1 and 14-2, the first mesh body 10 of the first embodiment of the present invention is protrudingly formed on the first connecting surface 11 to form the substantially cylindrical gap units 60; Please refer to Figures 15-1 and 15-2, the first mesh body 10 is protruding from the first connecting surface 11 along its axial direction with the gap units 60 that are generally annular; please refer to Section 16- As shown in Fig. 1 and Fig. 16-2, the first net body 10 is protrudingly formed on the first connecting surface 11 along the radial direction to form substantially striped gap units 60; please refer to Fig. 17-1 and Fig. As shown in Figure 17-2, the first net body 10 is sleeved with the gap units 60 at the first fixing portions 14 protruding from the first connecting surface 11; please refer to Figures 18-1 and 18. As shown in Figure -2, the first mesh body 10 is recessed on the first connecting surface 11 to form the first air inlet groove 15 that is substantially circular, and the first air inlet groove 15 connects the first air inlet grooves 15 A through hole 12 and the air inlet through holes 13; please refer to Figures 19-1 and 19-2, the gap S between the first connecting surface 11 and the second connecting surface 22 is the first Therefore, the gap S can be provided between the first connection surface 11 and the second connection surface 22, or the gap S and the first air intake gaps 15, or the gap S can be provided between the first connection surface 11 and the second connection surface 22. The air intake gap 15 constitutes the gap S. Please refer to Figures 20-1 to 23, the first through hole 12, the air inlet through hole 13, and the second through hole 21 are approximately tapered holes, and the first through hole 12, The air inlet through hole 13 and the second through hole 21 respectively form a first cylindrical hole section 121, an air inlet cylindrical hole section 131, and a second cylindrical hole section 211 at one of the corresponding ends, whereby the first The cylindrical hole section 121, the air inlet cylindrical hole section 131, and the second cylindrical hole section 211 can be easily demolded during the manufacturing process of plastic injection molding. Please refer to Figure 20-2 again. This embodiment The first cylindrical hole section 121 and the second cylindrical hole section 211 are respectively adjacent to the corresponding ends of the first connecting surface 11 and the second connecting surface 22, so that the first cylindrical hole section 121 and the second cylindrical hole section 121 The hole section 211 can allow the liquid L to flow through the first through hole 12 and mix with air to enter the second through hole 21 and the water outlet type is better, but not limited to this.

請參閱第24-1圖至第24-3圖所示，為本發明第三實施例，其主要特徵大致與第一實施例相同，而與第一實施例主要差異係在該等第一通孔12與該等進氣通孔13係位於該第一網體10的環繞不同半徑的位置所形成，而外部空氣會自該進氣通孔13而被吸引到該第一通孔12與該第二通孔21之間來與液體混合而具微氣泡。 Please refer to Figures 24-1 to Figure 24-3, which is the third embodiment of the present invention. Its main features are roughly the same as those of the first embodiment, but the main difference from the first embodiment lies in these first embodiments. The holes 12 and the air inlet through holes 13 are formed at positions around different radii of the first net body 10, and external air will be attracted from the air inlet through holes 13 to the first through holes 12 and the The second through holes 21 are mixed with the liquid and have microbubbles.

請參閱第25圖至第27圖所示為本發明第四實施例，其主要結構與第一實施例大致相同，該微氣泡產生模組100進一步包含有一本體40，該本體40具有一液體流入口41，並可容置該第一網體10、該第二網體20與該緩衝保護裝置30，其中，該本體40進一步係包含有一設置有該液體流入口41之進水單元42及鎖設於該進水單元42之一出水單元43，其中，本發明第四實施例之該本體40為一蓮篷頭，但不以此為限。 Please refer to FIG. 25 to FIG. 27 for a fourth embodiment of the present invention. Its main structure is substantially the same as that of the first embodiment. The microbubble generation module 100 further includes a body 40 having a liquid flow. The inlet 41 can accommodate the first net body 10, the second net body 20 and the buffer protection device 30, wherein the body 40 further includes a water inlet unit 42 provided with the liquid inlet 41 and a lock A water outlet unit 43 is provided in the water inlet unit 42, wherein the main body 40 of the fourth embodiment of the present invention is a shower head, but it is not limited to this.

請再參閱第2-3圖、第8圖與第24-3圖所示，當液體L自該液體流入口41流入並通過由該第二通孔21與該第一通孔12所構成的該導流通道T時，每一該第二通孔21與對應之每一該第一通孔12會使該導流通道T在連通處具有文氏管效應，也就是該第一通孔12與對應之該第二通孔21在連通處會因為水流通過該導流通道T的連通處時產生水壓的不平衡，而在此連通處形成負壓，且該第一網體10的該第一連接面11與該第二網體20的該第二連接面22會因為該第一固定部14沿軸向凸設而與該第二固定部23間而產生該間隙S，或是設有該等間隙單元60而產生該間隙S，所以外部空氣因為連通處水壓的不平衡產生負壓時，外部的空氣就會自該進氣通孔13沿第一連接面11與該第二連接面22間的該間隙S或該等第一進氣溝槽15被吸入至連通路徑較短的該等導流通道T的連通處中，空氣進入的路徑如圖示虛線所示，被吸入的空氣在連通處再與該導流通道T中的液體L相互混合而產生含有氣泡的液體L，再由該第一網體10之該等第一通孔12於該出水單元43一端噴灑出來。 Please refer to Figures 2-3, 8 and 24-3 again, when the liquid L flows in from the liquid inlet 41 and passes through the second through hole 21 and the first through hole 12 When the diversion channel T is used, each second through hole 21 and each corresponding first through hole 12 will cause the diversion channel T to have a venturi effect at the communication point, that is, the first through hole 12 The second through hole 21 is connected to the corresponding second through hole 21 due to the imbalance of water pressure when the water flow passes through the connection of the diversion channel T, and negative pressure is formed at this connection, and the first mesh body 10 The first connecting surface 11 and the second connecting surface 22 of the second net body 20 will generate the gap S between the first fixing portion 14 and the second fixing portion 23 because the first fixing portion 14 protrudes in the axial direction, or is provided There are these gap units 60 to generate the gap S, so when the external air generates negative pressure due to the imbalance of the water pressure at the communication point, the external air will flow from the air inlet through hole 13 along the first connecting surface 11 and the second The gap S between the connecting surfaces 22 or the first air intake grooves 15 are sucked into the communication places of the guide passages T with a short communication path. The air at the communication point mixes with the liquid L in the guide channel T to produce a liquid L containing bubbles, which is then sprayed from the first through holes 12 of the first mesh body 10 at one end of the water outlet unit 43 .

又，請參閱第28圖與第29圖所示為本發明第五實施例，主要是將該本體30形成一可裝設於水龍頭之灑水龍頭形狀，同時在該第一網體10之該第一連接面11與該第二網體20之該第二連接面22間增設該等間隙單元60，藉此，該等間隙單元60可維持該第一網體10與該第二網體20間的該間隙S的距離，而其他結構與本發明第一實施例相同，故不再贅述。 Also, please refer to Figs. 28 and 29 for the fifth embodiment of the present invention. The main body 30 is formed into a sprinkler faucet shape that can be installed on a faucet. The gap units 60 are added between a connection surface 11 and the second connection surface 22 of the second net body 20, whereby the gap units 60 can maintain the gap between the first net body 10 and the second net body 20 The distance of the gap S is the same as the other structure of the first embodiment of the present invention, so it will not be repeated.

綜上所述，本發明係在蓮蓬頭或灑水龍頭的該本體40內裝設該第一網體10與該第二網體20，並使該第一網體10的該第一連接面11與該第二網體20的該第二連接面22相對設置，此時該等第一通孔12與該等第二通孔21會形成讓液體L通過的該導流通道T，待液體L自該本體40的該進水單元42的該液體流入口41流入，該液體L通過該導流通道T會在該第一連接面11與該第二連接面22的連通處產生負壓，使該外部空氣自該第一網體10的該等進氣通孔13被吸入，並與液體L在此連通處進行氣液混合後，使用者可直接噴灑身上，其中，該進氣通孔13與連通的該等第一通孔12間會形成一該第一進氣溝槽15，藉此，該第一網體10與該第二網體20組設後不用再調整該第一網體10與該第二網體20間之距離，確保該微氣泡產生模組100生產的品質。 In summary, the present invention is to install the first net body 10 and the second net body 20 in the body 40 of the shower head or sprinkler faucet, and make the first connecting surface 11 of the first net body 10 and The second connecting surface 22 of the second net body 20 is disposed oppositely. At this time, the first through holes 12 and the second through holes 21 will form the diversion channel T for the liquid L to pass through. The liquid inlet 41 of the water inlet unit 42 of the body 40 flows in, and the liquid L passes through the diversion channel T to generate a negative pressure at the connection between the first connection surface 11 and the second connection surface 22, so that the The outside air is sucked in from the air intake through holes 13 of the first mesh body 10 and mixed with the liquid L at this connection point, and then the user can spray directly on the body, wherein the air intake through holes 13 and The first air inlet groove 15 is formed between the communicating first through holes 12, whereby the first net body 10 and the second net body 20 do not need to be adjusted after being assembled. The distance from the second net body 20 ensures the quality of the production of the microbubble generating module 100.

以上已詳細說明本發明之內容，惟以上所述者，僅為本發明之實施例而已，當不能以此限定本發明實施之範圍，即凡依本發明申請專利範圍所作之均等變化與修飾，皆應仍屬本發明之專利涵蓋範圍內。 The content of the present invention has been described in detail above, but the above are only examples of the present invention, and should not be used to limit the scope of implementation of the present invention, that is, all equivalent changes and modifications made in accordance with the scope of the patent application of the present invention, All should still fall within the scope of the patent of the present invention.

100:微氣泡產生模組 10:第一網體 20:第二網體 30:緩衝保護裝置 40:本體 41:液體流入口 42:進水單元 43:出水單元 100: Micro bubble generation module 10: The first net body 20: The second net body 30: Buffer protection device 40: body 41: Liquid inlet 42: Water inlet unit 43: Water outlet unit

Claims (10)

一種微氣泡產生模組，包含有：一第一網體，設有一第一連接面、複數第一通孔、至少一進氣通孔、及至少一第一固定部，其中，至少一該第一通孔的周側設有該進氣通孔，且該第一連接面受該等第一通孔與該等進氣通孔依該第一網體的軸向貫穿，而每一該等第一通孔並鄰接該等進氣通孔至少其中之一者；一第二網體，設置於該第一網體上，該第二網體具有複數第二通孔、一第二連接面及至少一第二固定部，其中，該第二連接面與該第一連接面相對設置；其中，每一該第一固定部自該第一連接面沿一軸向而與對應之一該第二固定部相連接，使該第一連接面與該第二連接面間形成至少一間隙；其中，該等第一通孔與連通之該等第二通孔形成一導流通道，而該進氣通孔藉由該間隙而連通至少一該等導流通道，且該進氣通孔使液體在通過該導流通道時會在該第一通孔與該第二通孔的連通處產生微小氣泡。 A microbubble generation module includes: a first mesh body provided with a first connecting surface, a plurality of first through holes, at least one air inlet through hole, and at least one first fixing portion, wherein at least one of the The peripheral side of a through hole is provided with the air inlet through hole, and the first connecting surface is penetrated by the first through holes and the air inlet through holes in the axial direction of the first net body, and each of the The first through hole is adjacent to at least one of the air inlet through holes; a second net body is arranged on the first net body, and the second net body has a plurality of second through holes and a second connecting surface And at least one second fixing portion, wherein the second connecting surface is disposed opposite to the first connecting surface; wherein, each of the first fixing portions from the first connecting surface along an axial direction corresponds to a corresponding one of the first The two fixing parts are connected to form at least one gap between the first connecting surface and the second connecting surface; wherein the first through holes and the communicating second through holes form a diversion channel, and the inlet The air through hole communicates with at least one of the diversion channels through the gap, and the air inlet through hole causes the liquid to pass through the diversion channel to generate tiny particles at the connection between the first through hole and the second through hole. bubble. 如請求項1所述之微氣泡產生模組，其中，該第一連接面與該第二連接面其中之一者並凹設形成至少一連接該進氣通孔與該第一通孔之第一進氣溝槽。 The microbubble generation module according to claim 1, wherein one of the first connecting surface and the second connecting surface is recessed to form at least one first connecting hole connecting the air inlet through hole and the first through hole An air inlet groove. 如請求項2所述之微氣泡產生模組，其中，該第一進氣溝槽鄰接該進氣通孔之一端形成有一第一容室。 The microbubble generating module according to claim 2, wherein the first air inlet groove is adjacent to one end of the air inlet through hole to form a first chamber. 如請求項1所述之微氣泡產生模組，進一步地具有一容置該第一網體與該第二網體之本體，且該本體包含有一具液體流入口之進水單元與鎖設於該進水單元上之一出水單元，該第二網體鄰接該液體流入口。 The microbubble generating module according to claim 1, further having a body for accommodating the first net body and the second net body, and the body includes a water inlet unit with a liquid inlet and a lock on A water outlet unit on the water inlet unit, and the second net body is adjacent to the liquid inlet. 如請求項2所述之微氣泡產生模組，其中，該等第一通孔為朝該第一連接面方向漸縮之錐形孔，且該第一通孔並於其中一端進一步形成一第 一圓柱孔段，而該等第二通孔朝該第二連接面方向漸縮之錐形孔，且該第二通孔並於其中一端進一步形成一第二圓柱孔段。 The microbubble generation module according to claim 2, wherein the first through holes are tapered holes that taper toward the first connecting surface, and the first through holes further form a first through hole at one end thereof A cylindrical hole section, and the second through holes are tapered holes that taper toward the second connecting surface, and one end of the second through hole further forms a second cylindrical hole section. 如請求項1所述之微氣泡產生模組，其中，該第一網體與該第二網體之外周側設有一緩衝保護裝置。 The microbubble generation module according to claim 1, wherein a buffer protection device is provided on the outer periphery of the first net body and the second net body. 如請求項1所述之微氣泡產生模組，進一步地設有一第三網體於該第一網體與該第二網體之間，其中，該第三網體包含有複數第三通孔及複數連接孔，而該等第三通孔會與對應之該等第二通孔及該等第一通孔連通，而該等連接孔會與相對的該進氣通孔連通。 The microbubble generating module according to claim 1, further provided with a third net body between the first net body and the second net body, wherein the third net body includes a plurality of third through holes And a plurality of connecting holes, and the third through holes communicate with the corresponding second through holes and the first through holes, and the connecting holes communicate with the opposite air inlet through holes. 如請求項7所述之微氣泡產生模組，其中，該第三網體相對於該第二連接面之一第三連接面並凹設形成至少一連接該連接孔與該第三通孔之第二進氣溝槽。 The microbubble generation module according to claim 7, wherein the third net body is recessed to form at least one connecting hole and the third through hole opposite to a third connecting surface of the second connecting surface. The second air inlet groove. 如請求項8所述之微氣泡產生模組，其中，該第二進氣溝槽鄰接該連接孔之一端形成有一第二容室。 The microbubble generation module according to claim 8, wherein the second air inlet groove is adjacent to one end of the connecting hole to form a second chamber. 如請求項1所述之微氣泡產生模組，進一步地該第一網體的該第一連接面與該第二網體的該第二連接面間設有至少一間隙單元。 According to the microbubble generation module of claim 1, furthermore, at least one gap unit is provided between the first connection surface of the first net body and the second connection surface of the second net body.

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