TWM628413U - Air-conditioning system - Google Patents

Abstract

一種空調系統，適用於對一活動空間提供空調氣體，包含可產生空調氣體的空調設備及輔助風管機構。該輔助風管機構包括連通外界與活動空間且與該空調設備之空調管路連通的輔助風管，及安裝在該輔助風管中的風扇，該輔助風管具有用以連通外界的外進氣口、連通該空調管路以導入空調氣體的內進氣口，及將所導接之述外界空氣與空調氣體朝該活動空間排出的排氣口。透過在該空調管路設置該輔助風管機構的結構設計，可在抽吸輸送外界空氣進入活動空間時，利用已預調溫度的空調氣體預先混合調整所抽吸之外界空氣的溫度，而能提供舒適的外界空氣。An air-conditioning system is suitable for providing air-conditioning gas to an activity space, and includes air-conditioning equipment capable of producing air-conditioning gas and an auxiliary air duct mechanism. The auxiliary air duct mechanism includes an auxiliary air duct that communicates with the outside world and the activity space and communicates with the air conditioning pipeline of the air conditioning equipment, and a fan installed in the auxiliary air duct, and the auxiliary air duct has an external air intake for communicating with the outside world. the air inlet, the inner air inlet which is connected with the air-conditioning pipeline to introduce the air-conditioning gas, and the exhaust port which discharges the external air and the air-conditioning gas to the movable space. Through the structural design of setting the auxiliary air duct mechanism in the air-conditioning pipeline, when the outside air is sucked and transported into the activity space, the temperature of the sucked outside air can be adjusted by pre-mixing the temperature-adjusted air-conditioning gas. Provide comfortable outside air.

Description

空調系統Air Conditioning System

本新型是有關於一種空調系統，特別是指一種具有輔助供氧功能的空調系統。The present invention relates to an air-conditioning system, in particular to an air-conditioning system with auxiliary oxygen supply function.

空調系統是目前許多封閉式的活動空間的必備裝置，例如車輛之車廂空間的車用空調系統，以及建築空間用之中央空調系統與冷氣機等，可用以調整所在活動空間的環境溫度。而為了維持該活動空間之環境溫度穩定，在開啟空調系統時，通常都會緊閉門窗，且會使該空調系統維持在內循環模式，但這樣的空調系統使用方式存在安全性問題。當用空調系統維持在該內循環模式一段時間後，該活動空間內的空氣會變差，例如氧氣濃度會逐漸降低，此氧氣濃度降低的情況，容易造成該活動空間內的人精神變差、注意力降低，對於駕駛人而言，則易肇生交通意外，對於辦公室工作人員來說，則會影響工作效率。Air conditioning system is a necessary device for many closed activity spaces, such as vehicle air conditioning system for vehicle compartment space, and central air conditioning system and air conditioner for building space, etc., which can be used to adjust the ambient temperature of the activity space. In order to maintain the stability of the ambient temperature of the activity space, when the air conditioning system is turned on, the doors and windows are usually tightly closed, and the air conditioning system is maintained in an internal circulation mode. However, there is a safety problem in the use of such an air conditioning system. When the air-conditioning system is maintained in the internal circulation mode for a period of time, the air in the activity space will deteriorate, for example, the oxygen concentration will gradually decrease. Reduced attention, for drivers, it is easy to cause traffic accidents, and for office workers, it will affect work efficiency.

因此，本新型的目的，即在提供一種能改善先前技術的至少一個缺點的空調系統。Accordingly, it is an object of the present invention to provide an air conditioning system that ameliorates at least one of the disadvantages of the prior art.

於是，本新型空調系統，適用於對一腔壁所圍繞界定出之一活動空間提供空調氣體，並包含一個可被控制以抽吸該活動空間900之空氣並進行溫度調節以產生空調氣體的空調設備，及至少一個輔助風管機構。該空調設備包括一個用以將所述空調氣體排入該活動空間的空調管路。該至少一輔助風管機構包括一個用以連通外界與該活動空間且與該空調管路連通組接的輔助風管，及一個安裝在該輔助風管中的風扇，該輔助風管具有一個用以連通外界以導入外界空氣的外進氣口、一個連通該空調管路以導入所述空調氣體的內進氣口，及一個用以將所導接之所述外界空氣與所述空調氣體朝該活動空間排出的排氣口，該風扇可被控制啟動而產生往該排氣口流動之氣流。Therefore, the novel air conditioning system of the present invention is suitable for supplying air conditioning gas to an active space defined by a cavity wall, and includes an air conditioner that can be controlled to suck the air in the active space 900 and adjust the temperature to generate air conditioning gas equipment, and at least one auxiliary air duct mechanism. The air-conditioning apparatus includes an air-conditioning line for discharging the air-conditioning gas into the movable space. The at least one auxiliary air duct mechanism includes an auxiliary air duct for communicating with the outside world and the activity space and connecting with the air conditioning pipeline, and a fan installed in the auxiliary air duct, and the auxiliary air duct has a There is an outer air inlet that communicates with the outside world to introduce outside air, an inner air inlet that communicates with the air-conditioning pipeline to introduce the air-conditioning gas, and an inner air inlet that is used to guide the connected outside air and the air-conditioning gas toward the air-conditioning gas. The air outlet of the movable space, the fan can be controlled to be activated to generate air flowing toward the air outlet.

本新型的功效在於：透過在該空調設備之該空調管路連通設置該輔助風管機構的結構設計，可在抽吸輸送外界空氣進入活動空間時，利用已被調整至預設溫度的空調氣體預先混合調整所抽吸之外界空氣的溫度，使該輔助風管排入該活動空間的空氣溫度會與該空調氣體大致相同。The effect of the new type is: through the structural design of the auxiliary air duct mechanism connected to the air-conditioning pipeline of the air-conditioning equipment, the air-conditioning gas that has been adjusted to a preset temperature can be used when the outside air is sucked and transported into the activity space The temperature of the sucked outside air is pre-mixed and adjusted, so that the temperature of the air discharged into the activity space by the auxiliary air duct is approximately the same as that of the air-conditioning gas.

在本新型被詳細描述前，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 designated by the same reference numerals.

參閱圖1、2，本新型空調系統100的一個第一實施例，適用於對一腔壁800所圍繞界定出之一活動空間900提供空調氣體，所述腔壁800與所述活動空間900例如但不限於車輛之車體所圍繞界定出之車廂空間，以及建築物牆壁所圍繞界定出之居住空間等。所述空調氣體例可為各種溫度之空氣。Referring to FIGS. 1 and 2 , a first embodiment of the novel air conditioning system 100 is suitable for supplying air-conditioning gas to an active space 900 surrounded by a cavity wall 800 . The cavity wall 800 and the movable space 900 are, for example, However, it is not limited to the compartment space defined by the body of the vehicle, and the living space defined by the walls of the building. Examples of the air-conditioning gas may be air of various temperatures.

該空調系統100包含一個空調設備2、一個安裝在該空調設備2之輔助風管機構3、一個外界環境感測器4、一個控制裝置5，及一個溫度感測器6。The air conditioning system 100 includes an air conditioning apparatus 2 , an auxiliary air duct mechanism 3 installed in the air conditioning apparatus 2 , an external environment sensor 4 , a control device 5 , and a temperature sensor 6 .

在本第一實施例中，該空調設備2是以安裝在車輛之車用空調設備為例進行說明，該空調設備2訊號連接該控制裝置5，可被該控制裝置5控制啟動而產生並輸出空調氣體，並具有一個用以連通該活動空間900的空調管路20，該空調管路20具有一個連通該活動空間900而用以輸出空調氣體的出風口21。由於用以安裝在車輛之該空調設備2類型眾多且非本新型改良重點，因此不再詳述。In the first embodiment, the air conditioner 2 is described by taking an air conditioner installed in a vehicle as an example. The signal of the air conditioner 2 is connected to the control device 5 and can be controlled and activated by the control device 5 to generate and output The air-conditioning gas is provided with an air-conditioning pipeline 20 for communicating with the movable space 900 , and the air-conditioning pipeline 20 has an air outlet 21 for outputting the conditioned gas in communication with the movable space 900 . Since there are many types of the air-conditioning apparatus 2 used to be installed in the vehicle, and it is not the focus of the new improvement, it will not be described in detail.

該輔助風管機構3包括一個穿設在該空調管路20之輔助風管31、安裝在該輔助風管31中的一個過濾器33、一個調溫器32、一個風扇34、一個排氣氣閥35與一個空調氣閥36，及用以設置在該活動空間900內的一個人體感測器37與一個氧氣濃度感測器38。The auxiliary air duct mechanism 3 includes an auxiliary air duct 31 passing through the air conditioning pipeline 20 , a filter 33 installed in the auxiliary air duct 31 , a thermostat 32 , a fan 34 , and an exhaust air The valve 35 and an air-conditioning valve 36, and a human body sensor 37 and an oxygen concentration sensor 38 are arranged in the active space 900.

該輔助風管31具有一個穿設在該空調管路20中並延伸至該出風口21處的內管段311、一個自該內管段311遠離該出風口21一端往外延伸出該空調管路20外的外進氣段313，及一個連通於該內管段311且位於該空調管路20內並往遠離該出風口21方向突伸的內進氣段315。該內管段311界定出一個朝向該出風口21之排氣口312，該外進氣段313界定出一個連通外界的外進氣口314，該內進氣段315界定出一個連通該空調管路20且迎向該空調管路20之空調氣體流動方向的內進氣口316。The auxiliary air duct 31 has an inner pipe section 311 that penetrates the air conditioning pipe 20 and extends to the air outlet 21 , and an end of the inner pipe section 311 that is far away from the air outlet 21 and extends out of the air conditioning pipe 20 The outer air intake section 313 is connected to the inner pipe section 311 and is located in the air-conditioning pipeline 20 and protrudes away from the air outlet 21 . The inner pipe section 311 defines an exhaust port 312 facing the air outlet 21 , the outer air inlet section 313 defines an outer air inlet 314 that communicates with the outside world, and the inner air intake section 315 defines an air conditioning pipeline 20 and face the inner air inlet 316 of the air-conditioning pipeline 20 in the flow direction of the air-conditioning gas.

該過濾器33與該調溫器32是排列設置在該外進氣段313中，該過濾器33可用以過濾往該內管段311流動之氣流中的污染物，所述污染物例如但不限於PM2.5懸浮微粒、煙霧微粒與粉塵等。該調溫器32可被控制啟動而對該過濾器33過濾後之氣流進行溫度調控處理。該過濾器33例如但不限於空氣濾網，該調溫器32例如但不限於熱電致冷晶片，由於該過濾器33與該調溫器32皆為現有技術且類型眾多，因此不再詳述。The filter 33 and the temperature regulator 32 are arranged in the outer air intake section 313, and the filter 33 can be used to filter pollutants in the airflow flowing to the inner pipe section 311, such as but not limited to PM2.5 suspended particles, smoke particles and dust, etc. The temperature regulator 32 can be controlled to be activated to perform temperature regulation on the airflow filtered by the filter 33 . The filter 33 is, for example, but not limited to, an air filter, and the temperature regulator 32 is, for example, but not limited to, a thermoelectric cooling wafer. Since the filter 33 and the temperature regulator 32 are both in the prior art and have many types, they will not be described in detail. .

該風扇34是設置在該內管段311內，可被控制啟動而於該內管段311中產生往該排氣口312方向流動之氣流。The fan 34 is disposed in the inner pipe section 311 , and can be controlled and activated to generate an air flow in the inner pipe section 311 toward the exhaust port 312 .

該排氣氣閥35是設置在該內管段311末端，並可開啟地封閉該排氣口312。該空調氣閥36是設置在該內進氣段315與該內管段311連通處，可被控制開啟地封閉該內進氣段315。由於該排氣氣閥35與該空調氣閥36類型眾多，因此不再詳述，且實施時，不以圖示樣式為限。The exhaust air valve 35 is disposed at the end of the inner pipe section 311 and can be opened to close the exhaust port 312 . The air-conditioning air valve 36 is disposed at the place where the inner air inlet section 315 communicates with the inner pipe section 311 , and can be controlled to open and close the inner air inlet section 315 . Since there are many types of the exhaust air valve 35 and the air conditioning air valve 36, they will not be described in detail, and the implementation is not limited to the style shown in the drawings.

該人體感測器37可用以對該活動空間900進行人體感測，例如對該活動空間900鄰近該出風口21附近的區域進行人體感測，並可對應感測結果輸出一個人體感測訊號。在本實施例中，該人體感測器37為可感測人體體溫的紅外線感測器，但實施時，在本新型之其它實施態樣中，也可以是可感測人體接觸之電學式感測器，或者是其它可用以感測空間內是否出現人體的感測器，由於人體感測器37類型眾多，且為現有技術，因此不再詳述。The human body sensor 37 can be used for human body sensing in the active space 900 , for example, human body sensing is performed on the area of the active space 900 near the air outlet 21 , and a human body sensing signal can be output corresponding to the sensing result. In this embodiment, the human body sensor 37 is an infrared sensor capable of sensing human body temperature, but during implementation, in other embodiments of the present invention, it may also be an electrical sensor capable of sensing human body contact The human body sensor 37 can be used to sense whether there is a human body in the space. Since there are many types of human body sensors 37 and they are in the prior art, they will not be described in detail.

該氧氣濃度感測器38可用以感測該活動空間900內之氧氣濃度，而對應產生一個氧氣濃度訊號。由於用以感測氧氣濃度之氧氣濃度感測器38類型眾多且為現有技術，因此不再詳述。The oxygen concentration sensor 38 can be used to sense the oxygen concentration in the active space 900 and generate an oxygen concentration signal correspondingly. Since the oxygen concentration sensor 38 used for sensing the oxygen concentration is of various types and is in the prior art, it will not be described in detail.

該外界環境感測器4是用以設置在該活動空間900外，可用以感測外界環境參數，例如但不限於感測外界環境之PM2.5懸浮微粒濃度、二氧化碳濃度、一氧化碳濃度、煙霧濃度、空氣中其它有毒污染物濃度、空氣濕度等，並對應產生一個外界環境訊號。The external environment sensor 4 is arranged outside the active space 900 and can be used to sense external environment parameters, such as but not limited to sensing the PM2.5 suspended particle concentration, carbon dioxide concentration, carbon monoxide concentration, and smoke concentration in the external environment. , the concentration of other toxic pollutants in the air, air humidity, etc., and correspondingly generate an external environmental signal.

該溫度感測器6可用以感測該活動空間900外之外界溫度，而對應產生一個外界溫度訊號。由於該溫度感測器6類型眾多且非本新型改良重點，因此不再詳述。The temperature sensor 6 can be used to sense the outside temperature outside the active space 900 and generate an outside temperature signal correspondingly. Since the temperature sensor 6 has many types and is not the focus of the new improvement, it will not be described in detail.

該控制裝置5可透過目前已知的有線通訊技術及/或無線通訊技術訊號連接該空調設備2、該調溫器32、該風扇34、該排氣氣閥35、該空調氣閥36、該人體感測器37、該氧氣濃度感測器38、該外界環境感測器4與該溫度感測器6。該控制裝置5可供操作以設定該調溫器32所欲處理產生之氣流的溫度，並可供操作以控制該風扇34之轉速，以調整從該排氣口312排出之氣流大小，該控制裝置5還可供操作以各別控制該排氣氣閥35與該空調氣閥36的開啟與關閉，且可用以調整該空調氣閥36之開啟幅度，進而調整從該內進氣段315引入的空調氣體量。The control device 5 can be connected to the air conditioning equipment 2 , the thermostat 32 , the fan 34 , the exhaust air valve 35 , the air conditioning air valve 36 , the The human body sensor 37 , the oxygen concentration sensor 38 , the external environment sensor 4 and the temperature sensor 6 . The control device 5 is operable to set the temperature of the airflow to be processed by the thermostat 32, and operable to control the rotational speed of the fan 34 to adjust the size of the airflow discharged from the exhaust port 312. The control The device 5 is also operable to control the opening and closing of the exhaust air valve 35 and the air-conditioning air valve 36, respectively, and can be used to adjust the opening range of the air-conditioning air valve 36, thereby adjusting the intake air from the inner air inlet section 315. air conditioning gas volume.

該控制裝置5還可接收分析該人體感測訊號、該外界環境訊號、該氧氣濃度訊號與該外界溫度訊號。該控制裝置5會於判斷該人體感測訊號代表有感測到人體時，控制啟動該風扇34，且控制該排氣氣閥35開啟，藉以將外界空氣抽吸進入該輔助風管31中，並經由該排氣口312排入該活動空間900內，可透過提供外界空氣的方式，改善該活動空間900內的氧氣濃度。該控制裝置5會於判斷該外界環境訊號代表之外界環境參數不符合一個可使用空氣條件時，控制該風扇34停止運作，並控制該排氣氣閥35關閉。The control device 5 can also receive and analyze the human body sensing signal, the external environment signal, the oxygen concentration signal and the external temperature signal. The control device 5 will control to start the fan 34 and control the exhaust air valve 35 to open when it is determined that the human body sensing signal represents that a human body is sensed, so as to suck outside air into the auxiliary air duct 31 , It is discharged into the active space 900 through the exhaust port 312 , and the oxygen concentration in the active space 900 can be improved by supplying outside air. The control device 5 controls the fan 34 to stop operating and controls the exhaust air valve 35 to close when it is determined that the external environment parameter represented by the external environment signal does not meet a usable air condition.

該控制裝置5還可於分析該氧氣濃度訊號而判斷氧氣濃度低於一個低氧閥值時，開始隨著氧氣濃度的逐漸降低，對應控制該風扇34逐漸提高轉速。該控制裝置5還可分析該外界溫度訊號以取得對應之外界溫度，且會隨著外界溫度的逐漸升高，對應控制該空調氣閥36逐漸提高開啟幅度。The control device 5 can also control the fan 34 to gradually increase the rotation speed when the oxygen concentration is lower than a hypoxic threshold by analyzing the oxygen concentration signal. The control device 5 can also analyze the outside temperature signal to obtain the corresponding outside temperature, and will correspondingly control the air-conditioning valve 36 to gradually increase the opening range as the outside temperature gradually increases.

在本實施例中，該外界環境訊號的判斷會優先於該人體感測訊號與該外界溫度訊號，會以該外界環境訊號之判斷結果，作為後續是否根據該人體感測號判斷結果控制啟動該風扇34與控制該排氣氣閥35開啟之依據，且會於控制啟動該風扇34與該排氣氣閥35後，進一步依據外界溫度訊號與氧氣濃度訊號分別調控該空調氣閥36開啟幅度與該風扇34轉速。但實施時，該控制裝置5根據該等訊號的運作方式不以此為限。In this embodiment, the judgment of the external environment signal will take precedence over the human body sensing signal and the external temperature signal, and the judgment result of the external environment signal will be used as the subsequent control to activate the The fan 34 and the basis for controlling the opening of the exhaust valve 35, and after the fan 34 and the exhaust valve 35 are controlled to be activated, the air conditioning valve 36 is further adjusted according to the outside temperature signal and the oxygen concentration signal, respectively. The fan 34 rotates. However, during implementation, the operation mode of the control device 5 according to the signals is not limited to this.

本新型空調系統100使用時，可透過該控制裝置5控制啟動該空調設備2，使該空調設備2經由該空調管路20將空調氣體排入該活動空間900內。該控制裝置5會於判斷該外界環境訊號符合該可使用空氣條件時，且判斷該人體感測訊號代表有感測到人體時，控制啟動該風扇34並控制該排氣氣閥35開啟，藉以將外界富含氧氣的空氣抽吸進入該活動空間900，藉以提高該活動空間900的氧氣量。於此同時，還可透過該控制裝置5控制啟動該調溫器32，並控制該調溫器32調整通過之氣流的溫度。When the novel air conditioning system 100 is in use, the air conditioning equipment 2 can be controlled and activated through the control device 5 , so that the air conditioning equipment 2 discharges the air conditioning gas into the activity space 900 through the air conditioning pipeline 20 . The control device 5 will control to start the fan 34 and control the exhaust air valve 35 to open when judging that the external environment signal meets the usable air condition, and when judging that the human body sensing signal represents that a human body is sensed The oxygen-enriched air from the outside is sucked into the active space 900 , so as to increase the amount of oxygen in the active space 900 . At the same time, the temperature regulator 32 can also be controlled to be activated through the control device 5, and the temperature regulator 32 can be controlled to adjust the temperature of the airflow passing through.

此外，也可透過操作該控制裝置5的方式，控制該空調氣閥36開啟幅度，當該空調氣閥36開啟時，該輔助風管31之該內進氣段315就可經由該內進氣口316承接該空調管路20中的空調氣體，利用所承接之空調氣體調和吸入的外界空氣的溫度，然後，再將調和後的空氣排入該活動空間900，藉以使該輔助風管31排出的空氣與該空調管路20排出的空調氣體的溫度趨於一致。In addition, the opening range of the air-conditioning air valve 36 can also be controlled by operating the control device 5. When the air-conditioning air valve 36 is opened, the inner air intake section 315 of the auxiliary air duct 31 can pass through the inner air intake. The port 316 receives the air-conditioning gas in the air-conditioning pipeline 20, uses the received air-conditioning gas to adjust the temperature of the inhaled outside air, and then discharges the adjusted air into the movable space 900, so that the auxiliary air duct 31 is discharged The temperature of the air and the air-conditioning gas discharged from the air-conditioning pipeline 20 tend to be consistent.

此外，該控制裝置5還會於判斷該活動空間900之氧氣濃度降低時，對應控制該風扇34提高轉速，藉以提高進氣量，且會於判斷外界溫度升高時，控制該空調氣閥36之增加開啟幅度，引進更多的空調氣體進入該輔助風管31中以進行調溫。In addition, the control device 5 also controls the fan 34 to increase the rotation speed when it is judged that the oxygen concentration in the movable space 900 is lowered, thereby increasing the intake air volume, and controls the air-conditioning valve 36 when it is judged that the outside temperature is increased To increase the opening range, more air-conditioning gas is introduced into the auxiliary air duct 31 for temperature adjustment.

實施時，在本第一實施例中，可透過手動操作該控制裝置5方式，來控制該排氣氣閥35與該空調氣閥36是否開啟，以及控制該風扇34是否啟動，也可透過該控制裝置5分析該外界環境訊號與該人體感測訊號的方式，來自動化控制該排氣氣閥35與該空調氣閥36是否開啟，及控制該風扇34是否開啟。但實施時，在本新型之其它實施態樣中，也可使該控制裝置5具備定時控制機制，可每間隔一段時間就控制開啟該排氣氣閥35，並控制啟動該風扇34運作一段時間，藉以定時對該活動空間900補充氧氣。During implementation, in the first embodiment, the control device 5 can be manually operated to control whether the exhaust air valve 35 and the air-conditioning air valve 36 are opened, and whether the fan 34 is started. The control device 5 analyzes the external environment signal and the human body sensing signal to automatically control whether the exhaust air valve 35 and the air conditioning air valve 36 are opened, and whether the fan 34 is opened. However, during implementation, in other embodiments of the present invention, the control device 5 can also be provided with a timing control mechanism, which can control the opening of the exhaust gas valve 35 at intervals and control the operation of the fan 34 for a period of time. , so as to replenish oxygen to the activity space 900 regularly.

以本新型空調系統100安裝在住家為例，可將該控制裝置5之定時機制設定為：在白天出門上班期間，控制該風扇34停止運作、控制該排氣氣閥35關閉；於晚上下班回家期間，則控制開啟該排氣氣閥35，並控制啟動該風扇34。Taking the novel air-conditioning system 100 installed in a home as an example, the timing mechanism of the control device 5 can be set to: control the fan 34 to stop running and control the exhaust valve 35 to close during the day when going out to work; During home, the exhaust valve 35 is controlled to be opened, and the fan 34 is controlled to be activated.

另外，實施時，在本新型之其它實施態樣中，也可將該控制裝置5設計成會間歇啟動該風扇34，例如每控制該風扇34啟動3秒後，就暫停5秒，使被從外界吸入該輔助風管31的空氣可暫留在該內管段311中，延長該內管段311中停留之空氣受到周圍空調管路20的空調氣體調整溫度的時間，使該內管段311中的空氣溫度更趨近於空調氣體溫度後，才因再次啟動之該風扇34而排出。In addition, during implementation, in other embodiments of the present invention, the control device 5 can also be designed to start the fan 34 intermittently. The air sucked into the auxiliary air duct 31 from the outside can temporarily stay in the inner pipe section 311, prolonging the time for the air in the inner pipe section 311 to be adjusted in temperature by the air conditioning gas of the surrounding air conditioning pipeline 20, so that the air in the inner pipe section 311 can be adjusted. After the temperature is closer to the temperature of the air-conditioning gas, the air is discharged by the fan 34 which is activated again.

參閱圖3，本新型空調系統100的一個第二實施例與該第一實施例差異處在於：該輔助風管機構3的結構設計。為方便說明，以下將僅針對本案各實施例間之差異處進行描述。Referring to FIG. 3 , the difference between a second embodiment of the novel air conditioning system 100 and the first embodiment lies in the structural design of the auxiliary air duct mechanism 3 . For the convenience of description, only the differences between the embodiments of the present application will be described below.

在本第二實施例中，該輔助風管31具有一個用以穿設在該腔壁800而用以連通外界與該活動空間900的主管段317，及一個連通於該主管段317與該空調管路20間之內進氣段315，該主管段317界定出該外進氣口314與該排氣口312，該內進氣段315界定出該內進氣口316。該過濾器33、該調溫器32、該風扇34與該排氣氣閥35是排列安裝在該主管段317中，該排氣氣閥35可被控制開啟地封閉該排氣口312。該空調氣閥36設置在該內進氣段315與該主管段317連通處，可被該控制裝置5控制開啟，而使該主管段317與該內進氣段315連通，該內進氣段315同樣可用以將該空調管路20中之空調氣體導引至該主管段317中。In the second embodiment, the auxiliary air duct 31 has a main section 317 which is inserted through the cavity wall 800 to communicate with the outside world and the movable space 900, and a main section 317 communicated with the air conditioner. The inner air inlet section 315 between the pipelines 20 , the main pipe section 317 defines the outer air inlet port 314 and the exhaust port 312 , and the inner air inlet section 315 defines the inner air inlet port 316 . The filter 33 , the temperature regulator 32 , the fan 34 and the exhaust valve 35 are arranged in the main section 317 , and the exhaust valve 35 can be controlled to open and close the exhaust port 312 . The air-conditioning valve 36 is arranged at the connection between the inner air inlet section 315 and the main section 317, and can be controlled to open by the control device 5, so that the main section 317 is communicated with the inner air inlet section 315, and the inner air inlet section 315 can also be used to guide the air-conditioning gas in the air-conditioning pipeline 20 to the main pipe section 317 .

透過該輔助風管機構3之結構設計，同樣可用以將外界新鮮空氣導引注入該活動空間900中，而提高該活動空間900之氧氣含量。Through the structural design of the auxiliary air duct mechanism 3 , the outside fresh air can also be introduced into the movable space 900 to increase the oxygen content of the movable space 900 .

參閱圖4，本新型空調系統100之一第三實施例與該第一實施例差異處在於：該空調設備2之結構設計，以及該輔助風管機構3與該空調設備2之連結設計。Referring to FIG. 4 , the difference between the third embodiment of the novel air conditioning system 100 and the first embodiment lies in the structural design of the air conditioning equipment 2 and the connection design of the auxiliary air duct mechanism 3 and the air conditioning equipment 2 .

在本第三實施例中，該空調設備2為一般分離式冷氣設備之室內機，該空調設備2具有一個界定出該空調管路20的機殼26，該空調管路20具有一個進氣口27與一個出風口21，且空調設備2還具有一個設置在該空調管路20中，並可被驅動旋轉以產生空調氣流的葉輪28。由於分離式冷氣設備之室內機的類型眾多，因此針對該空調設備2不再詳述，且實施時，該空調設備2不以圖示態樣為限。In the third embodiment, the air conditioner 2 is an indoor unit of a general separate air conditioner, and the air conditioner 2 has a casing 26 defining the air conditioner duct 20 , and the air conditioner duct 20 has an air inlet 27 and an air outlet 21, and the air conditioner 2 also has an impeller 28 which is arranged in the air conditioning pipeline 20 and can be driven to rotate to generate air conditioning airflow. Since there are many types of indoor units of the separate air-conditioning apparatus, the air-conditioning apparatus 2 will not be described in detail, and the air-conditioning apparatus 2 is not limited to the illustrated state during implementation.

該輔助風管31之該內管段311是沿該空調管路20內緣往該出風口21延伸設置。該外進氣段313是往外穿出該空調設備2的機殼26，並往外穿經該腔壁800，而與外界連通。該內進氣段315之該內進氣口316則迎向該葉輪28產生之空調氣體流動方向。The inner pipe section 311 of the auxiliary air pipe 31 is extended along the inner edge of the air conditioning pipe 20 toward the air outlet 21 . The outer air intake section 313 passes through the casing 26 of the air conditioner 2 and passes through the cavity wall 800 to communicate with the outside world. The inner air inlet 316 of the inner air inlet section 315 faces the flow direction of the air-conditioning gas generated by the impeller 28 .

參閱圖5，本新型空調系統100之一個第四實施例與該第三實施例差異處在於：該輔助風管機構3是採用該第二實施例之結構設計。Referring to FIG. 5 , the difference between a fourth embodiment of the novel air conditioning system 100 and the third embodiment is that the auxiliary air duct mechanism 3 adopts the structural design of the second embodiment.

在本第四實施例中，該輔助風管31是以該主管段317貫穿該腔壁800而與外界連通。並以該內進氣段315延伸穿設在該空調設備2的機殼26，而以該內進氣口316連通該空調管路20。藉此結構設計，同樣可用以對該活動空間900輔助供氧。In the fourth embodiment, the auxiliary air duct 31 is communicated with the outside by the main pipe section 317 passing through the cavity wall 800 . The inner air inlet section 315 extends through the casing 26 of the air conditioner 2 , and the inner air inlet 316 communicates with the air conditioning pipeline 20 . This structural design can also be used to assist oxygen supply to the active space 900 .

參閱圖6、7，本新型空調系統100之一個第五實施例與該第一實施例差異處在於：該空調設備2結構設計，且包含多個輔助風管機構3。Referring to FIGS. 6 and 7 , a fifth embodiment of the novel air conditioning system 100 differs from the first embodiment in that the air conditioning apparatus 2 is structurally designed and includes a plurality of auxiliary air duct mechanisms 3 .

在本第五實施例中，該空調設備2是用以連通設置在多個腔壁800所界定出的多個活動空間900，該空調設備2包括一個空調主機25，及一個連通該空調主機25且用以連通安裝在該等活動空間900的空調管路20。該空調主機25訊號連接該控制裝置5，可被控制啟動以產生空調氣體。由於可產生空調氣體之該空調主機25類型眾多，且非本新型改良重點，因此不再詳述。In the fifth embodiment, the air-conditioning apparatus 2 is used to communicate with a plurality of movable spaces 900 defined by a plurality of cavity walls 800 , and the air-conditioning apparatus 2 includes an air-conditioning host 25 and a communication with the air-conditioning host 25 And it is used to communicate with the air-conditioning pipelines 20 installed in the movable spaces 900 . The air conditioner host 25 is connected to the control device 5 by a signal, and can be controlled and activated to generate air-conditioning gas. Since there are many types of the air-conditioning host 25 that can generate air-conditioning gas, and are not the focus of the improvement of the present invention, they will not be described in detail.

該空調管路20包括多個分別連通該等活動空間900的抽氣段22、多個分別連通該等活動空間900之出風段23，及一個連通在該等抽氣段22與該等出風段23間且與該空調主機25連通組接的連通段24，每一出風段23具有一個用將空調氣體吹入對應之活動空間900的出風口21。The air conditioning pipeline 20 includes a plurality of air extraction sections 22 connected to the movable spaces 900 respectively, a plurality of air outlet sections 23 connected to the movable spaces 900 respectively, and a plurality of air extraction sections 22 connected to the outlet air sections 22 Each air outlet section 23 has an air outlet 21 for blowing air-conditioning gas into the corresponding active space 900 .

該等輔助風管機構3是分別穿設在該等出風段23。每一輔助風管機構3之該輔助風管31的該內管段311穿設在對應之該出風段23，該內進氣段315是位於該出風段23中。每一輔助風管機構3之該人體感測器37與該氧氣濃度感測器38是設置在對應之該活動空間900內，可用以分別感測該活動空間900是否有人存在與感測氧氣濃度。The auxiliary air duct mechanisms 3 are respectively penetrated through the air outlet sections 23 . The inner pipe section 311 of the auxiliary air duct 31 of each auxiliary air duct mechanism 3 passes through the corresponding air outlet section 23 , and the inner air intake section 315 is located in the air outlet section 23 . The human body sensor 37 and the oxygen concentration sensor 38 of each auxiliary air duct mechanism 3 are disposed in the corresponding active space 900, which can be used to sense whether there is a person in the active space 900 and to sense the oxygen concentration, respectively. .

該控制裝置5訊號連接該等輔助風管機構3、該外界環境感測器4與該溫度感測器6，可供操作以各別控制每一輔助風管機構3之該調溫器32、該風扇34、該排氣氣閥35與該空調氣閥36之運作。該控制裝置5會於判斷該外界環境訊號之外界環境參數符合該可使用空氣條件，且判斷其中一個人體感測訊號代表有人時，控制對應之該輔助風管機構3的該風扇34啟動，且控制該排氣氣閥35開啟，藉以提高對應之活動空間900的氧氣濃度。The control device 5 is signal-connected to the auxiliary air duct mechanisms 3 , the external environment sensor 4 and the temperature sensor 6 , and can be operated to control the thermostat 32 , The operation of the fan 34 , the exhaust air valve 35 and the air-conditioning air valve 36 . The control device 5 will control the fan 34 of the corresponding auxiliary air duct mechanism 3 to start when judging that the external environmental parameters of the external environmental signal meet the usable air conditions, and when judging that one of the human body sensing signals represents a person, and The exhaust gas valve 35 is controlled to open, thereby increasing the oxygen concentration in the corresponding movable space 900 .

參閱圖8，本新型空調系統100之第六實施例與該第五實施例差異處在於：將該等輔助風管機構3改為第二實施例之實施態樣。Referring to FIG. 8 , the difference between the sixth embodiment of the novel air conditioning system 100 and the fifth embodiment is that the auxiliary air duct mechanisms 3 are changed to the implementation of the second embodiment.

每一輔助風管機構3之該輔助風管31是以該主管段317連通於對應之該活動空間900，而以該內進氣段315連通組接於對應之該出風段23。The auxiliary air duct 31 of each auxiliary air duct mechanism 3 is connected to the corresponding movable space 900 through the main section 317 , and is connected to the corresponding air outlet section 23 through the inner air inlet section 315 .

綜上所述，透過在該空調設備2之該空調管路20連通設置該輔助風管機構3或該等輔助風管機構3的結構設計，可透過每一輔助風管機構3將外界富含氧氣的新鮮空氣抽吸輸送至對應之活動空間900內，且可在抽吸輸送外界空氣時，同時導入該空調設備2產生之空調氣體，利用已被調整至預設溫度的空調氣體預先混合調整所抽吸之外界空氣的溫度，使該輔助風管31排入該活動空間900的空氣溫度會與該空調氣體大致相同，而不至於讓該活動空間900內的人因為外界空氣與空調氣體存在過大溫差而不適。To sum up, through the arrangement of the auxiliary air duct mechanism 3 or the structural design of the auxiliary air duct mechanisms 3 in the air-conditioning pipeline 20 of the air-conditioning apparatus 2 , the outside world can be enriched through each auxiliary air duct mechanism 3 . The fresh air of oxygen is sucked and transported into the corresponding activity space 900, and when the outside air is sucked and transported, the conditioned gas generated by the air conditioning equipment 2 can be introduced at the same time, and the conditioned gas that has been adjusted to the preset temperature can be used to pre-mix and adjust The temperature of the sucked outside air makes the air temperature of the auxiliary air duct 31 discharged into the movable space 900 approximately the same as that of the air-conditioning gas, so that the people in the movable space 900 will not be caused by the existence of the outside air and the air-conditioning gas. Excessive temperature difference is uncomfortable.

並可進一步透過該控制裝置5可分析判斷該外界環境感測器4之感測結果是否符合該可使用空氣條件的設計，以及每一輔助風管機構3之該人體感測器37可感測活動空間900是否有人的設計，使得該控制裝置5可於判斷外界空氣符合該可使用空氣條件時，可自動控制有人之活動空間900所對應之該輔助風管機構3的該排氣氣閥35開啟，並控制該風扇34運轉，且可供操作以調整該空調氣閥36之開啟幅度，而能用以對有人存在的活動空間900補充氧氣。The control device 5 can further analyze and determine whether the sensing result of the external environment sensor 4 conforms to the design of the usable air condition, and the human body sensor 37 of each auxiliary air duct mechanism 3 can sense the Whether the activity space 900 is occupied or not is designed so that the control device 5 can automatically control the exhaust valve 35 of the auxiliary air duct mechanism 3 corresponding to the occupied activity space 900 when judging that the outside air meets the usable air conditions It is turned on and controls the operation of the fan 34, and can be operated to adjust the opening range of the air-conditioning valve 36, and can be used to supplement oxygen to the active space 900 where people exist.

此外，藉由該控制裝置5還可隨著該活動空間900內之氧氣濃度的降低，而對應提高該風扇34轉速，藉以提高外界空氣的進氣量的設計，也有助於提高該活動空間900之氧氣含量。而該控制裝置5會隨著外界溫度的逐漸升高，對應控制該空調氣閥36之提高開啟幅度的設計，則能更有效率地將吸入之外界空氣的溫度調整至趨近所述空調氣體的溫度，提高空調系統100吹出之氣體的舒適度。In addition, the control device 5 can also increase the rotation speed of the fan 34 correspondingly with the decrease of the oxygen concentration in the movable space 900, so as to increase the air intake of the outside air, and also help to improve the movable space 900. of oxygen content. The control device 5 will increase the temperature of the outside air gradually, corresponding to the design of increasing the opening width of the air-conditioning valve 36, so as to more efficiently adjust the temperature of the inhaled outside air to be close to the air-conditioning gas The temperature of the air-conditioning system 100 increases the comfort level of the air blown out of the air-conditioning system 100 .

因此，本新型空調系統100確實是一種相當方便實用的創作，確實能達成本新型的目的。Therefore, the novel air conditioning system 100 is indeed a very convenient and practical creation, and can indeed achieve the purpose of the novel.

惟以上所述者，僅為本新型的實施例而已，當不能以此限定本新型實施的範圍，凡是依本新型申請專利範圍及專利說明書內容所作的簡單的等效變化與修飾，皆仍屬本新型專利涵蓋的範圍內。However, the above are only examples of the present invention, which should not limit the scope of implementation of the present invention. Any simple equivalent changes and modifications made according to the scope of the patent application for this new model and the contents of the patent specification are still within the scope of the present invention. within the scope of this patent.

100:空調系統 2:空調設備 20:空調管路 21:出風口 22:抽氣段 23:出風段 24:連通段 25:空調主機 26:機殼 27:進氣口 28:葉輪 3:輔助風管機構 31:輔助風管 311:內管段 312:排氣口 313:外進氣段 314:外進氣口 315:內進氣段 316:內進氣口 317:主管段 32:調溫器 33:過濾器 34:風扇 35:排氣氣閥 36:空調氣閥 37:人體感測器 38:氧氣濃度感測器 4:外界環境感測器 5:控制裝置 6:溫度感測器 800:腔壁 900:活動空間100: Air Conditioning System 2: Air conditioning equipment 20: Air conditioning pipeline 21: Air outlet 22: Pumping section 23: Outlet section 24: Connected segment 25: Air conditioner host 26: Chassis 27: Air intake 28: Impeller 3: Auxiliary duct mechanism 31: Auxiliary duct 311: Inner pipe section 312: exhaust port 313: Outer intake section 314: External air intake 315: Inner intake section 316: Inner air intake 317: Supervisor Section 32: Thermostat 33: Filter 34: Fan 35: Exhaust valve 36: Air conditioning valve 37: Human body sensor 38: Oxygen concentration sensor 4: External environment sensor 5: Control device 6: Temperature sensor 800: cavity wall 900: Event Space

本新型的其他的特徵及功效，將於參照圖式的實施方式中清楚地呈現，其中： 圖1是本新型空調系統的一個第一實施例的不完整的俯剖視示意圖； 圖2是該第一實施例的功能方塊圖； 圖3是本新型空調系統的一個第二實施例的不完整的俯剖視示意圖； 圖4是本新型空調系統的一個第三實施例的不完整的側剖視示意圖； 圖5是本新型空調系統的一個第四實施例的不完整的側剖視示意圖； 圖6是本新型空調系統的一個第五實施例的不完整的俯剖視示意圖； 圖7是該第五實施例之功能方塊圖；及 圖8是本新型空調系統的一個第六實施例的不完整的俯剖視示意圖。 Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, wherein: FIG. 1 is an incomplete top sectional schematic diagram of a first embodiment of the novel air conditioning system; 2 is a functional block diagram of the first embodiment; FIG. 3 is an incomplete top sectional schematic diagram of a second embodiment of the novel air conditioning system; Fig. 4 is a partial schematic side sectional view of a third embodiment of the novel air conditioning system; Fig. 5 is a partial schematic side sectional view of a fourth embodiment of the novel air conditioning system; FIG. 6 is an incomplete top sectional schematic diagram of a fifth embodiment of the novel air conditioning system; FIG. 7 is a functional block diagram of the fifth embodiment; and FIG. 8 is an incomplete top sectional schematic view of a sixth embodiment of the novel air conditioning system.

100:空調系統 100: Air Conditioning System

2:空調設備 2: Air conditioning equipment

20:空調管路 20: Air conditioning pipeline

21:出風口 21: Air outlet

3:輔助風管機構 3: Auxiliary duct mechanism

31:輔助風管 31: Auxiliary duct

311:內管段 311: Inner pipe section

312:排氣口 312: exhaust port

313:外進氣段 313: Outer intake section

314:外進氣口 314: External air intake

315:內進氣段 315: Inner intake section

316:內進氣口 316: Inner air intake

32:調溫器 32: Thermostat

33:過濾器 33: Filter

34:風扇 34: Fan

35:排氣氣閥 35: Exhaust valve

36:空調氣閥 36: Air conditioning valve

37:人體感測器 37: Human body sensor

38:氧氣濃度感測器 38: Oxygen concentration sensor

6:溫度感測器 6: Temperature sensor

800:腔壁 800: cavity wall

900:活動空間 900: Event Space

Claims (16)

一種空調系統，適用於對一腔壁所圍繞界定出之一活動空間提供空調氣體，並包含： 一個空調設備，可被控制以抽吸該活動空間之空氣並進行溫度調節以產生空調氣體，包括一個用以將所述空調氣體排入該活動空間內的空調管路；及 至少一個輔助風管機構，包括一個用以連通外界與該活動空間且與該空調管路連通組接的輔助風管，及一個安裝在該輔助風管中的風扇，該輔助風管具有一個用以連通外界以導入外界空氣的外進氣口、一個連通該空調管路以導入所述空調氣體的內進氣口，及一個用以將所導接之所述外界空氣與所述空調氣體朝該活動空間排出的排氣口，該風扇可被控制啟動而產生往該排氣口流動之氣流。 An air-conditioning system suitable for supplying air-conditioning gas to an activity space defined by a cavity wall, comprising: an air-conditioning apparatus that can be controlled to draw air in the movable space and adjust the temperature to generate air-conditioned gas, including an air-conditioning line for discharging the air-conditioned air into the movable space; and At least one auxiliary air duct mechanism, including an auxiliary air duct for communicating with the outside world and the activity space and connecting with the air-conditioning pipeline, and a fan installed in the auxiliary air duct, the auxiliary air duct has a There is an outer air inlet that communicates with the outside world to introduce outside air, an inner air inlet that communicates with the air-conditioning pipeline to introduce the air-conditioning gas, and an inner air inlet that is used to guide the connected outside air and the air-conditioning gas toward the air-conditioning gas. The air outlet of the movable space, the fan can be controlled to be activated to generate air flowing toward the air outlet. 如請求項1所述的空調系統，其中，該輔助風管具有一個設置在該空調管路中並界定出該排氣口的內管段、一個連通組接於該內管段並延伸穿出該空調管路外而界定出該外進氣口的外進氣段，及一個連通組接於該內管段且位於該空調管路中並界定出內進氣口的內進氣段。The air-conditioning system of claim 1, wherein the auxiliary air duct has an inner pipe section disposed in the air-conditioning pipeline and defining the exhaust port, and an inner pipe section connected to the inner pipe section and extending out of the air conditioner An outer air inlet section that defines the outer air inlet outside the pipeline, and an inner air inlet section that is connected to the inner pipe section and located in the air conditioning pipeline and defines the inner air inlet. 如請求項2所述的空調系統，其中，該空調管路具有一個用以將所述空調氣體排入該活動空間的出風口，該內管段之該排氣口是相對鄰近該出風口內側。The air-conditioning system of claim 2, wherein the air-conditioning pipeline has an air outlet for discharging the air-conditioning gas into the movable space, and the air outlet of the inner pipe section is relatively adjacent to the inner side of the air outlet. 如請求項2或3所述的空調系統，其中，該內進氣口是迎向該空調管路中之所述空調氣體的流動方向。The air-conditioning system according to claim 2 or 3, wherein the inner air inlet faces the flow direction of the air-conditioning gas in the air-conditioning pipeline. 如請求項2所述的空調系統，其中，該至少一輔助風管機構還包括一個安裝在該內管段，且可被控制開啟地封閉該排氣口之排氣氣閥。The air-conditioning system of claim 2, wherein the at least one auxiliary air duct mechanism further comprises an exhaust air valve mounted on the inner pipe section and capable of being controlled to open and close the exhaust port. 如請求項1所述的空調系統，其中，該輔助風管具有一個用以穿設在該腔壁而用以連通外界與該活動空間的主管段，及一個連通於該主管段與該空調管路間之內進氣段，該主管段界定出該外進氣口與該排氣口，該內進氣段界定出該內進氣口。The air-conditioning system according to claim 1, wherein the auxiliary air duct has a main section for passing through the cavity wall to communicate with the outside world and the activity space, and a main section for communicating with the air-conditioning pipe The inner intake section between the roads, the main section defines the outer intake port and the exhaust port, and the inner intake section defines the inner intake port. 如請求項6所述的空調系統，其中，該至少一輔助風管機構還包括一個安裝在該主管段，且可被控制開啟地封閉該排氣口之排氣氣閥。The air conditioning system of claim 6, wherein the at least one auxiliary air duct mechanism further comprises an exhaust air valve installed on the main pipe section and capable of being controlled to open and close the exhaust port. 如請求項5或7所述的空調系統，還包含一個訊號連接該風扇與該排氣氣閥，且可供操作以控制該排氣氣閥與該風扇的控制裝置。The air-conditioning system as claimed in claim 5 or 7, further comprising a control device for signally connecting the fan and the exhaust air valve and operable to control the exhaust air valve and the fan. 如請求項8所述的空調系統，其中，該至少一輔助風管機構還包括一個用以設置在該活動空間，且訊號連接該控制裝置的人體感測器，該人體感測器可用以感測該活動空間內之人體並產生一個人體感測訊號，該控制裝置會於判斷該人體感測訊號代表有感測到人體時，控制啟動該風扇，並控制該排氣氣閥開啟。The air-conditioning system according to claim 8, wherein the at least one auxiliary air duct mechanism further comprises a human body sensor arranged in the movable space and connected to the control device by a signal, and the human body sensor can be used for sensing Detecting the human body in the activity space and generating a human body sensing signal, the control device will control to start the fan and control the exhaust air valve to open when it is determined that the human body sensing signal represents a human body is sensed. 如請求項8所述的空調系統，適用於對多個活動空間提供空調氣體，其中，該空調管路包括多個用以分別連通該等活動空間，且用以將所述空調氣體分別排入該等活動空間的出風段，該空調系統包含多個分別安裝在該等出風段，且與該控制裝置訊號連接之該輔助風管機構。The air-conditioning system according to claim 8 is suitable for supplying air-conditioning gas to a plurality of activity spaces, wherein the air-conditioning pipeline includes a plurality of air-conditioning pipes for connecting the activity spaces respectively and for discharging the air-conditioning gas into the In the air outlet sections of the activity spaces, the air conditioning system includes a plurality of the auxiliary air duct mechanisms respectively installed in the air outlet sections and signally connected to the control device. 如請求項10所述的空調系統，其中，每一輔助風管機構還包括一個用以設置在對應之該出風段所連通之該活動空間，且訊號連接該控制裝置的人體感測器，該人體感測器可用以感測該活動空間內之人體並產生一個人體感測訊號，該控制裝置會於判斷該人體感測訊號代表有感測到人體時，控制啟動對應之該輔助風管機構之該風扇，並控制對應之該輔助風管機構的該排氣氣閥開啟。The air-conditioning system according to claim 10, wherein each auxiliary air duct mechanism further comprises a human body sensor for being disposed in the movable space communicated with the corresponding air outlet section, and the signal is connected to the control device, The human body sensor can be used to sense the human body in the active space and generate a human body sensing signal, and the control device will control to activate the corresponding auxiliary air duct when it is determined that the human body sensing signal represents that a human body has been sensed The fan of the mechanism is controlled, and the exhaust air valve corresponding to the auxiliary air duct mechanism is controlled to open. 如請求項8所述的空調系統，其中，該至少一輔助風管機構還包括一個安裝在該內進氣段，且可被該控制裝置控制開啟地封閉該內進氣段之空調氣閥。The air-conditioning system of claim 8, wherein the at least one auxiliary air duct mechanism further comprises an air-conditioning air valve installed in the inner air intake section and controlled by the control device to open and close the inner air intake section. 如請求項8所述的空調系統，還包含一個用以安裝在該活動空間外，且可用以感測外界環境參數以對應產生一個外界環境訊號的外界環境感測器，該控制裝置訊號連接該外界環境感測器，且會於分析判斷該外界環境訊號對應之外界環境參數不符合一個可使用空氣條件時，控制該風扇停止運作。The air conditioning system according to claim 8, further comprising an external environment sensor installed outside the activity space and used for sensing external environmental parameters to generate an external environmental signal correspondingly, the control device signal is connected to the external environment sensor The external environment sensor controls the fan to stop running when the external environment parameter corresponding to the external environment signal is analyzed and judged not to meet a usable air condition. 如請求項1所述的空調系統，適用於對多個活動空間提供空調氣體，其中，該空調管路包括多個用以分別連通該等活動空間，且用以將所述空調氣體分別排入該等活動空間的出風段，該空調系統包含多個分別安裝在該等出風段之該輔助風管機構。The air-conditioning system according to claim 1 is suitable for supplying air-conditioning gas to a plurality of activity spaces, wherein the air-conditioning pipeline comprises a plurality of air-conditioning pipes for respectively connecting the activity spaces and for discharging the air-conditioning gas into the In the air outlet sections of the activity spaces, the air conditioning system includes a plurality of the auxiliary air duct mechanisms respectively installed in the air outlet sections. 如請求項1所述的空調系統，還包含一個用以安裝在該活動空間內且用以感測氧氣濃度的氧氣濃度感測器，及一個訊號連接該風扇與該氧氣濃度感測器之控制裝置，該控制裝置會隨著該氧氣濃度感測器測得之氧氣濃度值的逐漸降低，對應控制該風扇逐漸提高轉速。The air-conditioning system of claim 1, further comprising an oxygen concentration sensor installed in the movable space and used for sensing oxygen concentration, and a control signal connecting the fan and the oxygen concentration sensor The control device will correspondingly control the fan to gradually increase the rotational speed as the oxygen concentration value measured by the oxygen concentration sensor gradually decreases. 如請求項2或6所述的空調系統，其中，該至少一輔助風管機構還包括一個安裝在輔助風管，且可被控制開啟而使所述空調氣體通過該內進氣口而進入該輔助風管的空調氣閥，該空調系統還包含一個用以感測外界溫度的溫度感測器，及一個訊號連接該空調氣閥與該溫度感測器之控制裝置，該控制裝置會隨著該溫度感測器測得之外界溫度的逐漸升高，對應控制該空調氣閥逐漸提高開啟幅度。The air-conditioning system according to claim 2 or 6, wherein the at least one auxiliary air duct mechanism further comprises an auxiliary air duct which can be controlled to be opened so that the air-conditioning gas enters the air-conditioning gas through the inner air inlet. The air-conditioning air valve of the auxiliary air duct, the air-conditioning system also includes a temperature sensor for sensing the outside temperature, and a control device for connecting the air-conditioning air valve and the temperature sensor with a signal, the control device will follow the The gradual increase of the outside temperature measured by the temperature sensor corresponds to the control of the air-conditioning air valve to gradually increase the opening range.

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