TWM544988U - Super gravity reactor with parallel air Intake and exhaust - Google Patents

Description

平行式進氣排氣的超重力反應裝置Parallel intake and exhaust super-gravity reaction device

本新型是有關於一種超重力反應裝置，特別是指一種進氣口及排氣口皆位於第一殼體的頂壁的超重力反應裝置。The present invention relates to a supergravity reaction device, and more particularly to a supergravity reaction device in which an air inlet and an exhaust port are located on a top wall of a first casing.

參閱圖1，一種現有的超重力反應裝置，包含一殼體1。該殼體1界定出一用來供一氣體與一液體進行質傳交換的質傳交換腔室11，且包括一連通該質傳交換腔室11且用來供該氣體進入的進氣口12、一連通該質傳交換腔室11且用來排氣的排氣口13、一連通該質傳交換腔室11且用來供該液體進入的進液口14，及一連通該質傳交換腔室11且用來排液的出液口15。Referring to Figure 1, a prior art supergravity reaction apparatus includes a housing 1. The housing 1 defines a mass transfer chamber 11 for mass transfer of a gas and a liquid, and includes an air inlet 12 that communicates with the mass transfer chamber 11 for the gas to enter. An exhaust port 13 for communicating with the mass transfer chamber 11 for exhausting, a liquid inlet port 14 for communicating with the mass transfer chamber 11 for the liquid to enter, and a communication for the mass transfer The chamber 11 is also provided with a liquid outlet 15 for draining.

如圖1所示，現有的超重力反應裝置的進氣口12是形成在該殼體1的圍繞壁，因此後續設置進氣管路(圖未示)時，需將進氣管路呈橫向地設置，進氣管路從該殼體1的圍繞壁直接往橫向延伸，導致超重力反應裝置在橫向空間上有配管所佔空間較大的缺點。As shown in FIG. 1 , the intake port 12 of the existing supergravity reaction device is formed on the surrounding wall of the casing 1 , so when the intake pipe (not shown) is subsequently disposed, the intake pipe needs to be horizontal. The intake duct extends directly from the surrounding wall of the casing 1 to the lateral direction, resulting in a disadvantage that the supergravity reaction device has a large space occupied by the piping in the lateral space.

因此，本新型之目的，即在提供一種能改善進氣管路配置方式的平行式進氣排氣的超重力反應裝置。Accordingly, it is an object of the present invention to provide a supergravity reaction apparatus that improves the parallel intake and exhaust of an intake line arrangement.

於是，本新型平行式進氣排氣的超重力反應裝置，用於使一氣體及一液體進行質傳交換，該超重力反應裝置包含： 一第一單元，包括： 一第一殼體，界定出一質傳交換腔室，並具有一連通該質傳交換腔室且用來供該液體進入該質傳交換腔室的進液口、一連通該質傳交換腔室且用來供該氣體進入該質傳交換腔室的進氣口、一連通該質傳交換腔室且用來排氣的排氣口，以及一連通該質傳交換腔室且用來排液的出液口，其中，該進氣口及該排氣口是相間隔地形成在該第一殼體的頂壁， 一轉軸，從該第一殼體的外部延伸進入該質傳交換腔室，及 一旋轉床，設置在該質傳交換腔室內並與該轉軸連接，當該轉軸被驅動而旋轉時帶動該旋轉床轉動並使該氣體與該液體在該旋轉床進行該質傳交換。Thus, the novel parallel-type intake and exhaust super-gravity reaction device is used for mass transfer of a gas and a liquid, the super-gravity reaction device comprising: a first unit comprising: a first housing defining Exchanging a mass transfer chamber, and having a liquid inlet connected to the mass transfer chamber for supplying the liquid into the mass transfer chamber, communicating with the mass transfer chamber and for supplying the gas An air inlet entering the mass transfer chamber, an exhaust port communicating with the mass transfer chamber and exhausting, and a liquid outlet connected to the mass transfer chamber for draining, wherein The air inlet and the air outlet are spaced apart from each other at a top wall of the first housing, and a rotating shaft extends from the outside of the first housing into the mass transfer chamber, and a rotating bed. Arranging in the mass transfer chamber and connecting with the rotating shaft, when the rotating shaft is driven to rotate, the rotating bed is driven to rotate and the gas and the liquid are exchanged in the rotating bed.

本新型之功效在於：透過將該進氣口及該排氣口相間隔地形成在該第一殼體的頂壁，能讓後續設置的進氣管路是呈縱向設置，進氣管路是從該第一殼體的頂壁往上延伸，而不會從該第一殼體的圍繞壁往橫向延伸，使得該平行式進氣排氣的超重力反應裝置不需要像傳統超重力反應裝置在橫向空間配置進氣管路，該平行式進氣排氣的超重力反應裝置具有能夠節省橫向空間中的配管體積且又美觀的優點。The utility model has the advantages that: the air inlet and the air outlet are formed at intervals on the top wall of the first casing, so that the subsequently arranged intake pipeline is longitudinally disposed, and the intake pipeline is Extending upward from the top wall of the first housing without extending laterally from the surrounding wall of the first housing, such that the parallel intake air exhaust supergravity reaction device does not need to be like a conventional supergravity reaction device The intake line is disposed in the lateral space, and the parallel-type intake and exhaust super-gravity reaction device has the advantage of being able to save the piping volume in the lateral space and being beautiful.

在本新型被詳細描述之前，應當注意在以下的說明內容中，類似的元件是以相同的編號來表示。Before the present invention is described in detail, it should be noted that in the following description, similar elements are denoted by the same reference numerals.

本新型將就以下實施例來作進一步說明，但應瞭解的是，該實施例僅為例示說明之用，而不應被解釋為本新型實施之限制。The present invention will be further described in the following examples, but it should be understood that this embodiment is intended to be illustrative only and not to be construed as limiting.

本新型平行式進氣排氣的超重力反應裝置適用於使一氣體及一液體進行質傳交換。The novel parallel-type intake and exhaust super-gravity reaction device is suitable for mass-exchange of a gas and a liquid.

參閱圖2，本新型平行式進氣排氣的超重力反應裝置之一第一實施例，包含一第一單元2。該第一單元2包括一第一殼體21、一轉軸22及一旋轉床23。Referring to Figure 2, a first embodiment of the novel super-gravity reaction apparatus for parallel intake and exhaust gas includes a first unit 2. The first unit 2 includes a first housing 21, a rotating shaft 22 and a rotating bed 23.

該第一殼體21界定出一質傳交換腔室211，並具有一連通該質傳交換腔室211且用來供該液體進入該質傳交換腔室211的進液口212、一連通該質傳交換腔室211且用來供該氣體進入該質傳交換腔室211的進氣口213、一連通該質傳交換腔室211且用來排氣的排氣口214，以及一形成在該第一殼體21的底壁並連通該質傳交換腔室211且用來排液的出液口215。其中，該進氣口213及該排氣口214是相間隔地形成在該第一殼體21的頂壁。The first housing 21 defines a mass transfer chamber 211 and has a liquid inlet 212 for communicating with the mass transfer chamber 211 for the liquid to enter the mass transfer chamber 211. a mass transfer chamber 211 and an intake port 213 for the gas to enter the mass transfer chamber 211, an exhaust port 214 for communicating with the mass transfer chamber 211 for exhausting, and a The bottom wall of the first casing 21 communicates with the liquid outlet 215 of the mass transfer chamber 211 for draining. The air inlet 213 and the air outlet 214 are formed on the top wall of the first casing 21 at intervals.

該轉軸22從該第一殼體21的外部延伸進入該質傳交換腔室211。The shaft 22 extends from the outside of the first housing 21 into the mass transfer chamber 211.

該旋轉床23設置在該質傳交換腔室211內並與該轉軸22連接。其中，該旋轉床23呈環形並界定出一位於中央的氣體流通通道231，以及一環繞且連通該氣體流通通道231的氣液流通空間232。The rotating bed 23 is disposed in the mass transfer chamber 211 and connected to the rotating shaft 22. The rotating bed 23 is annular and defines a centrally located gas flow passage 231, and a gas-liquid circulation space 232 surrounding and communicating with the gas flow passage 231.

在該第一實施例中，該氣體從該進氣口213以及該液體從該進液口212個別地流至該旋轉床23的該氣液流通空間232，該氣體與該液體在該氣液流通空間232會互成逆向流動地接觸，當該轉軸22被驅動而旋轉時會帶動該旋轉床23轉動並使該氣體與該液體在該氣液流通空間232中接觸進行該質傳交換，質傳交換後的氣體從該氣液流通空間232流至該氣體流通通道231再從該第一殼體21的排氣口214排出，以及質傳交換後的該液體從該氣液流通空間232流至該出液口215排出。In the first embodiment, the gas flows from the air inlet 213 and the liquid from the liquid inlet 212 to the gas-liquid circulation space 232 of the rotating bed 23, and the gas and the liquid are in the gas-liquid The circulation space 232 is in contact with each other in reverse flow. When the rotating shaft 22 is driven to rotate, the rotating bed 23 is rotated to rotate the gas and the liquid in contact with the liquid in the gas-liquid circulation space 232 for mass transfer. The exchanged gas flows from the gas-liquid circulation space 232 to the gas circulation passage 231 and is discharged from the exhaust port 214 of the first casing 21, and the mass-exchanged liquid flows from the gas-liquid circulation space 232. The liquid outlet 215 is discharged.

參閱圖3，本新型平行式進氣排氣的超重力反應裝置之一第二實施例。該第二實施例與該第一實施例不同之處在於，在該第二實施例中，該第一殼體的進氣口213與該排氣口214的位置互換，也就是該氣體從該進氣口213經由該旋轉床23的該氣體流通通道231流至該氣液流通空間232，以及該液體從該進液口212流至該氣液流通空間232，該氣體與該液體在該氣液流通空間232會互成順向流動地接觸，當該轉軸22被驅動而旋轉時會帶動該旋轉床23轉動並使該氣體與該液體在該氣液流通空間232中接觸進行該質傳交換，質傳交換後的氣體從該氣液流通空間232流出再從該第一殼體21的排氣口214排出，以及質傳交換後的該液體從該氣液流通空間232流至該出液口215排出。Referring to Figure 3, a second embodiment of the novel super-gravity reaction apparatus for parallel intake and exhaust. The second embodiment is different from the first embodiment in that, in the second embodiment, the position of the air inlet 213 of the first casing and the exhaust port 214 are interchanged, that is, the gas is from the The air inlet 213 flows through the gas flow passage 231 of the rotating bed 23 to the gas-liquid circulation space 232, and the liquid flows from the liquid inlet 212 to the gas-liquid circulation space 232, and the gas and the liquid are in the gas The liquid circulation spaces 232 are in fluid flow contact with each other. When the rotating shaft 22 is driven to rotate, the rotating bed 23 is rotated to rotate the gas and the liquid in the gas-liquid circulation space 232 for mass transfer. The mass-exchanged gas flows out of the gas-liquid circulation space 232 and is discharged from the exhaust port 214 of the first casing 21, and the liquid after mass transfer is flowed from the gas-liquid circulation space 232 to the liquid discharge. The mouth 215 is discharged.

參閱圖4，本新型平行式進氣排氣的超重力反應裝置之一第三實施例。該第三實施例與該第一實施例不同之處在於，在該第三實施例中，該旋轉床23是一折流式旋轉床(rotating zigzag bed)。Referring to Figure 4, a third embodiment of the novel super-gravity reaction apparatus for parallel intake and exhaust. This third embodiment differs from the first embodiment in that, in the third embodiment, the rotating bed 23 is a rotating zigzag bed.

參閱圖5及圖6，本新型平行式進氣排氣的超重力反應裝置之一第四實施例，包含一第一單元2、一第二單元3、一進液單元4、一驅動單元5及一馬達單元6。Referring to FIG. 5 and FIG. 6, a fourth embodiment of the novel super-gravity reaction device for parallel intake and exhaust gas includes a first unit 2, a second unit 3, a liquid inlet unit 4, and a driving unit 5. And a motor unit 6.

該第一單元2包括一第一殼體21、一轉軸22及一旋轉床23。The first unit 2 includes a first housing 21, a rotating shaft 22 and a rotating bed 23.

該第一殼體21界定出一質傳交換腔室211，並具有一形成在該第一殼體21的底壁並連通該質傳交換腔室211且用來供該液體進入該質傳交換腔室211的進液口212、一連通該質傳交換腔室211且用來供該氣體進入該質傳交換腔室211的進氣口213、一連通該質傳交換腔室211且用來排氣的排氣口214，以及一形成在該第一殼體21的底壁並連通該質傳交換腔室211且用來排液的出液口215。其中，該進氣口213及該排氣口214是相間隔地形成在該第一殼體21的頂壁。該第一殼體21還界定出一在該質傳交換腔室211的下方的液體儲存腔室216。The first housing 21 defines a mass transfer chamber 211 and has a bottom wall formed on the first housing 21 and communicates with the mass transfer chamber 211 for the liquid to enter the mass transfer. a liquid inlet 212 of the chamber 211, an air inlet 213 communicating with the mass transfer chamber 211 for the gas to enter the mass transfer chamber 211, a communication with the mass transfer chamber 211, and An exhaust port 214 for exhausting, and a liquid outlet 215 formed on the bottom wall of the first casing 21 and communicating with the mass transfer chamber 211 for draining. The air inlet 213 and the air outlet 214 are formed on the top wall of the first casing 21 at intervals. The first housing 21 also defines a liquid storage chamber 216 below the mass transfer chamber 211.

該轉軸22從該第一殼體21的外部延伸進入該質傳交換腔室211。The shaft 22 extends from the outside of the first housing 21 into the mass transfer chamber 211.

該旋轉床23設置在該質傳交換腔室211內並與該轉軸22連接。其中，該旋轉床23呈環形並界定出一位於中央的氣體流通通道231，以及一環繞且連通該氣體流通通道231的氣液流通空間232。The rotating bed 23 is disposed in the mass transfer chamber 211 and connected to the rotating shaft 22. The rotating bed 23 is annular and defines a centrally located gas flow passage 231, and a gas-liquid circulation space 232 surrounding and communicating with the gas flow passage 231.

該第二單元3包括一第二殼體31及一除液元件32。該第二殼體31設置在該第一殼體21的頂壁，並具有一與外界連通並透過該第一殼體21的進氣口213與該質傳交換腔室211連通的進氣腔室311、一與外界連通並透過該第一殼體21的排氣口214與該質傳交換腔室211連通且供該除液元件32設置的排氣腔室312，且該進氣腔室311與該排氣腔室312不連通。其中，該除液元件32是用來將從該排氣口214排出的氣體中夾帶的液體過濾掉。且第二殼體31可與該第一殼體21進行組合或拆分獨立來使用。The second unit 3 includes a second housing 31 and a liquid removing member 32. The second housing 31 is disposed on the top wall of the first housing 21 and has an air inlet communicating with the outside and communicating with the mass transfer chamber 211 through the air inlet 213 of the first housing 21 a chamber 311, an exhaust chamber 312 that communicates with the outside and communicates with the mass transfer chamber 211 through the exhaust port 214 of the first housing 21 and is provided for the liquid removing member 32, and the air chamber 311 is not in communication with the exhaust chamber 312. The liquid removing member 32 is for filtering the liquid entrained in the gas discharged from the exhaust port 214. And the second housing 31 can be used in combination with the first housing 21 or separately.

該進液單元4透過該進液口212與該質傳交換腔室211連通並用來供應該液體進入該質傳交換腔室211。該進液單元4具有一穿伸該進液口212並與該質傳交換腔室211連通且用來運輸該液體的進液管41，及一設置於該第一殼體21的下方且與該進液管41遠離該第一殼體21的一端連接並用來儲存該液體的液體儲存槽42。The liquid inlet unit 4 communicates with the mass transfer chamber 211 through the liquid inlet 212 and is used to supply the liquid into the mass transfer chamber 211. The liquid inlet unit 4 has a liquid inlet tube 41 extending through the liquid inlet 212 and communicating with the mass transfer chamber 211 for transporting the liquid, and is disposed below the first housing 21 and The liquid inlet tube 41 is remote from the one end of the first housing 21 and is used to store the liquid storage tank 42 of the liquid.

該驅動單元5是用來驅動該轉軸22旋轉，並設置於該第一殼體21的下方且與該轉軸22遠離該旋轉床23的一端連接。The driving unit 5 is configured to drive the rotating shaft 22 to rotate, and is disposed below the first casing 21 and connected to an end of the rotating shaft 22 away from the rotating bed 23 .

該進液單元4及該出液口215分別與該馬達單元6連接。The liquid inlet unit 4 and the liquid outlet 215 are connected to the motor unit 6, respectively.

該液體透過該進液管41被運輸進入該旋轉床23的該氣液流通空間232，以及該氣體從該第二殼體31的該進氣腔室311進入該旋轉床23的該氣液流通空間232後，該氣體與該液體在該氣液流通空間232會互成逆向流動地接觸，該轉軸22被該驅動單元5驅動而旋轉進而帶動該旋轉床23於該質傳交換腔室211內轉動，並使該氣體與該液體在該氣液流通空間232中接觸進行該質傳交換，質傳交換後的氣體自該氣液流通空間232流至該氣體流通通道231再到該第二殼體31的該排氣腔室312排至外界，且從該氣體流通通道231排出的氣體會先經過該除液元件32以過濾掉被夾帶出來的液體再排至外界。以及質傳交換後的該液體從該氣液流通空間232流至該出液口215排出。The liquid is transported into the gas-liquid circulation space 232 of the rotating bed 23 through the liquid inlet pipe 41, and the gas is circulated into the rotating bed 23 from the inlet chamber 311 of the second casing 31. After the space 232, the gas and the liquid are in reverse flow contact with each other in the gas-liquid circulation space 232. The rotating shaft 22 is driven by the driving unit 5 to rotate to drive the rotating bed 23 in the mass transfer chamber 211. Rotating and contacting the gas with the liquid in the gas-liquid circulation space 232 to perform the mass transfer, and the mass-exchanged gas flows from the gas-liquid circulation space 232 to the gas circulation passage 231 to the second shell The exhaust chamber 312 of the body 31 is discharged to the outside, and the gas discharged from the gas flow passage 231 passes through the liquid removing member 32 to filter out the entrained liquid and discharge it to the outside. The liquid after the mass transfer is discharged from the gas-liquid circulation space 232 to the liquid outlet 215.

綜上所述，本新型平行式進氣排氣的超重力反應裝置透過將該進氣口213及該排氣口214相間隔地形成在該第一殼體21的頂壁，能讓後續設置的進氣管路(圖未示)的配置方式是呈縱向設置，進氣管路是從該第一殼體的頂壁往上延伸，而不會從該第一殼體的圍繞壁往橫向延伸，使得該平行式進氣排氣的超重力反應裝置不需要像傳統超重力反應裝置在橫向空間配置進氣管路，該平行式進氣排氣的超重力反應裝置具有能夠節省橫向空間中的配管體積且又美觀的優點，特別適合用於家庭及小型攤商。故確實能達成本新型之目的。In summary, the super-gravity reaction device of the novel parallel intake and exhaust gas is formed on the top wall of the first casing 21 by spacing the air inlet 213 and the exhaust port 214, which enables subsequent setting. The intake duct (not shown) is disposed in a longitudinal direction, and the intake duct extends upward from the top wall of the first casing without laterally from the surrounding wall of the first casing. Extending so that the parallel-type intake and exhaust super-gravity reaction device does not need to arrange the intake pipe in a lateral space like a conventional supergravity reaction device, and the parallel-type intake and exhaust super-gravity reaction device can save lateral space The piping is bulky and aesthetically pleasing, making it ideal for homes and small vendors. Therefore, the purpose of this new type can be achieved.

惟以上所述者，僅為本新型之實施例而已，當不能以此限定本新型實施之範圍，凡是依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾，皆仍屬本新型專利涵蓋之範圍內。However, the above is only the embodiment of the present invention, and when it is not possible to limit the scope of the present invention, all the simple equivalent changes and modifications according to the scope of the patent application and the contents of the patent specification are still This new patent covers the scope.

2‧‧‧第一單元
21‧‧‧第一殼體
211‧‧‧質傳交換腔室
212‧‧‧進液口
213‧‧‧進氣口
214‧‧‧排氣口
215‧‧‧出液口
216‧‧‧液體儲存腔室
22‧‧‧轉軸
23‧‧‧旋轉床
231‧‧‧氣體流通通道
232‧‧‧氣液流通空間
3‧‧‧第二單元
31‧‧‧第二殼體
311‧‧‧進氣腔室
312‧‧‧排氣腔室
32‧‧‧除液元件
4‧‧‧進液單元
41‧‧‧進液管
42‧‧‧液體儲存槽
5‧‧‧驅動單元
6‧‧‧馬達單元2‧‧‧ first unit
21‧‧‧ first housing
211‧‧‧Quality exchange chamber
212‧‧‧ inlet port
213‧‧‧air inlet
214‧‧‧Exhaust port
215‧‧‧liquid outlet
216‧‧‧Liquid storage chamber
22‧‧‧ shaft
23‧‧‧Rotating bed
231‧‧‧ gas circulation channel
232‧‧‧ gas-liquid circulation space
3‧‧‧Second unit
31‧‧‧ second housing
311‧‧‧Air intake chamber
312‧‧‧Exhaust chamber
32‧‧‧Liquid removal components
4‧‧‧Inlet unit
41‧‧‧Inlet pipe
42‧‧‧Liquid storage tank
5‧‧‧ drive unit
6‧‧‧Motor unit

本新型之其他的特徵及功效，將於參照圖式的實施方式中清楚地呈現，其中： ［圖1］是現有超重力反應裝置的一示意圖； ［圖2］是本新型平行式進氣排氣的超重力反應裝置的一第一實施例的一示意圖； ［圖3］是本新型平行式進氣排氣的超重力反應裝置的一第二實施例的一示意圖； ［圖4］是本新型平行式進氣排氣的超重力反應裝置的一第三實施例的一示意圖； ［圖5］是本新型平行式進氣排氣的超重力反應裝置的一第四實施例的一立體圖；及 ［圖6］是該第四實施例的一剖面示意圖。Other features and effects of the present invention will be clearly shown in the embodiments with reference to the drawings, wherein: [Fig. 1] is a schematic view of a conventional supergravity reaction device; [Fig. 2] is a novel parallel intake air row. A schematic view of a first embodiment of a gas-based supergravity reaction apparatus; [Fig. 3] is a schematic view of a second embodiment of the super-gravity reaction apparatus of the novel parallel intake air exhaust; [Fig. 4] is A schematic view of a third embodiment of a novel parallel intake and exhaust gas supergravity reaction device; [Fig. 5] is a perspective view of a fourth embodiment of the novel parallel intake and exhaust gas supergravity reaction device; And [Fig. 6] is a schematic cross-sectional view of the fourth embodiment.

2‧‧‧第一單元 2‧‧‧ first unit

21‧‧‧第一殼體 21‧‧‧ first housing

211‧‧‧質傳交換腔室 211‧‧‧Quality exchange chamber

212‧‧‧進液口 212‧‧‧ inlet port

213‧‧‧進氣口 213‧‧‧air inlet

214‧‧‧排氣口 214‧‧‧Exhaust port

215‧‧‧出液口 215‧‧‧liquid outlet

22‧‧‧轉軸 22‧‧‧ shaft

23‧‧‧旋轉床 23‧‧‧Rotating bed

231‧‧‧氣體流通通道 231‧‧‧ gas circulation channel

232‧‧‧氣液流通空間 232‧‧‧ gas-liquid circulation space

Claims (9)

一種平行式進氣排氣的超重力反應裝置，適用於使一氣體及一液體進行質傳交換，該超重力反應裝置包含： 一第一單元，包括： 一第一殼體，界定出一質傳交換腔室，並具有一連通該質傳交換腔室且用來供該液體進入該質傳交換腔室的進液口、一連通該質傳交換腔室且用來供該氣體進入該質傳交換腔室的進氣口、一連通該質傳交換腔室且用來排氣的排氣口，以及一連通該質傳交換腔室且用來排液的出液口，其中，該進氣口及該排氣口是相間隔地形成在該第一殼體的頂壁， 一轉軸，從該第一殼體的外部延伸進入該質傳交換腔室，及 一旋轉床，設置在該質傳交換腔室內並與該轉軸連接，當該轉軸被驅動而旋轉時帶動該旋轉床轉動並使該氣體與該液體在該旋轉床進行該質傳交換。A super-gravity reaction device for parallel intake and exhaust, suitable for mass transfer of a gas and a liquid, the supergravity reaction device comprising: a first unit comprising: a first housing defining a mass Passing the exchange chamber and having a liquid inlet connected to the mass transfer chamber for the liquid to enter the mass transfer chamber, communicating with the mass transfer chamber and for allowing the gas to enter the mass An air inlet of the exchange chamber, an exhaust port for communicating with the mass transfer chamber and for exhausting, and a liquid outlet for connecting the mass transfer chamber for draining, wherein the inlet a port and the exhaust port are formed at a top wall of the first housing at intervals, a rotating shaft extending from the outside of the first housing into the mass transfer chamber, and a rotating bed disposed at the The mass transfer chamber is connected to the rotating shaft, and when the rotating shaft is driven to rotate, the rotating bed is rotated and the gas is exchanged with the liquid in the rotating bed. 如請求項1所述的平行式進氣排氣的超重力反應裝置，還包含一設置在該第一單元上的第二單元，該第二單元包括一設置在該第一殼體的頂壁的第二殼體，以及一設置在該第二殼體內並用來將從該排氣口排出的氣體中夾帶的液體過濾掉的除液元件。The parallel gravity intake reaction super-gravity reaction device of claim 1, further comprising a second unit disposed on the first unit, the second unit including a top wall disposed on the first housing And a second housing, and a liquid removing member disposed in the second housing and configured to filter out liquid entrained in the gas discharged from the exhaust port. 如請求項2所述的平行式進氣排氣的超重力反應裝置，其中，該第二殼體具有一與外界連通並透過該第一殼體的進氣口與該質傳交換腔室連通的進氣腔室、一與外界連通並透過該第一殼體的排氣口與該質傳交換腔室連通且供該除液元件設置的排氣腔室，且該進氣腔室與該排氣腔室不連通。The parallel-type intake and exhaust gas super-gravity reaction device of claim 2, wherein the second housing has an air inlet communicating with the outside and passing through the first housing to communicate with the mass transfer chamber An air inlet chamber, an exhaust chamber communicating with the outside and communicating with the mass transfer chamber through the exhaust port of the first housing and provided for the liquid removing member, and the air chamber and the air chamber The exhaust chamber is not connected. 如請求項1所述的平行式進氣排氣的超重力反應裝置，其中，該進液口是形成在該第一殼體的底壁。A parallel-type intake and exhaust gas super-gravity reaction apparatus according to claim 1, wherein the liquid inlet is formed in a bottom wall of the first casing. 如請求項4所述的平行式進氣排氣的超重力反應裝置，還包含一透過該進液口與該質傳交換腔室連通並用來供應該液體進入該質傳交換腔室的進液單元。The parallel gravity inlet and exhaust gas super-gravity reaction apparatus according to claim 4, further comprising a liquid inlet communicating with the mass transfer chamber through the liquid inlet port for supplying the liquid into the mass transfer chamber unit. 如請求項5所述的平行式進氣排氣的超重力反應裝置，其中，該進液單元包括一穿伸該進液口並將該液體輸送至該質傳交換腔室的進液管，及一設置於該第一殼體的下方且與該進液管連接並用來儲存該液體的液體儲存槽。The parallel-type intake and exhaust gas super-gravity reaction apparatus of claim 5, wherein the liquid inlet unit comprises a liquid inlet pipe that extends the liquid inlet and delivers the liquid to the mass transfer chamber. And a liquid storage tank disposed under the first housing and connected to the liquid inlet tube for storing the liquid. 如請求項1所述的平行式進氣排氣的超重力反應裝置，其中，該第一殼體的出液口是形成在該第一殼體的底壁。The parallel-type intake and exhaust gas super-gravity reaction apparatus of claim 1, wherein the liquid outlet of the first casing is formed at a bottom wall of the first casing. 如請求項1所述的平行式進氣排氣的超重力反應裝置，還包含一設置於該第一殼體的下方且與該轉軸遠離該旋轉床的一端連接並用來驅動該轉軸旋轉的驅動單元。The parallel gravity intake reaction super-gravity reaction device of claim 1, further comprising a drive disposed below the first housing and connected to an end of the rotating shaft away from the rotating bed for driving the rotating shaft unit. 如請求項1所述的平行式進氣排氣的超重力反應裝置，其中，該第一殼體還界定出一在該質傳交換腔室的下方的液體儲存腔室。A parallel-type intake venting supergravity reaction apparatus according to claim 1, wherein the first housing further defines a liquid storage chamber below the mass transfer chamber.