201137289 六、發明說明: 【發明所屬之技術領域】 [0001] 本案係關於一種空調設備,尤指一種具濕度調節功能之 空調設備。 【先前技術】 [0002] .隨著科技快速地成長,時下出現最熱門的新科技時代名 詞「雲端運算(cloud computing)」。事實上,雲端運 算並非技術而是一種概念’其係基於電腦技術的運用, 發展而成的一種網路交流型態’由遠端提供各項科技性 能服務,本質上即是一種分散式運算(disti*ibuted computing)。所謂分散式焉算,就是同時讓多台電腦, 例如兩台或數十萬台,透過亙相連結講通的方式來進行 運算’以完成使用者給予之指令。通常,雲端運算服務 係提供通用瀏覽器存取的線上商業應用,使其大量的系 統軟體與資料儲存在遠端的大型資料中心(do vu«ta cen- ter),進而降低各個終端電腦硬體設備的負擔。目前, 資料中心更結合綠色機房理念,透過伺服器、儲存以及 網路等設備的集中化管理與虛擬化作業,減少閒置機器 過多導致佔地面積與電力祕,聽由彻内之词服器 、發電與空誠備的正確設計,進—步減少散熱問題及 控制耗電量》 圆-般設置於資料中心中之諸多電子設備皆設有電路板及 電子元件,倘若資料中心之周圍環境過於乾燥,電路板 及電子元件之間容易產生靜電而造成損壞,亦或周圍環 境過於潮濕,電路板及電子元件長期處於該環境下容易 099112996 表單編號A0101 第4頁/共19頁 0992022989-0 201137289 Ο [0004] [0005]Ο [0006] [0007] 099112996 發生鏽蝕之缺失,因此資料中心須要設置高效率的恆溫 恆濕空調設備。由過去的經驗以及一般的知識可知,空 氣處於相對高溫的狀態時,對其進行加濕的功效較為顯 著,但為同時達到可對空氣進行降溫以及必要時須對空 氣加濕的目的,部分恆溫恆濕空調設備均於内部設置一 隔板,用以分隔成主流道以及旁路流道,其中冷卻元件 係設置於主流道,使一部份熱空氣於其入風口進入後通 過冷卻元件進行熱交換以達降溫效果,而另一部份未經 冷卻元件熱交換的高溫氣流則經由旁路流道流經加濕器 ,以適時進行加濕功能。 然而,在空氣中的濕度穩定且不需進行加濕的情況下, 部份熱空氣仍會流過旁路流道,使得該部分的熱空氣混 入主流道出口之冷空氣中,造成已經冷卻的冷空氣溫度 再度上升,因而未能有效利用設備整體的送風效率。 另外,由於傳統恆溫恆濕空調設備於内部增設隔板,所 以在空調設備體積不變及空氣流量固定下,冷卻元件能 夠利用的空間縮小,進而使可進行熱交換的空氣流量也 跟著減少。 因此,如何發展一種可以解決上述習知技術所遭遇之問 題與缺失的具濕度調節功能之空調設備,實為目前所迫 切需要解決之問題。 【發明内容】 本案之主要目的為提供一種具濕度調節功能之空調設備 ,其係藉由設置一閥體於熱交換裝置中之旁支管路,用 以選擇性地控制熱傳介質是否進入旁支管路,且選擇性 表單編號Α0101 第5頁/共19頁 0992022989-0 201137289 地對氣流進行加濕,以達到降低熱交換裝置的功率損耗 以及提高設備整體的送風效率,並增加熱交換裝置的 可利用空間,進而使可進行熱交換的空氣流量增加。 [0008] 為達上述目的,本案之較佳實施態樣為提供一種具濕度 調節功能之空調設備,至少包括:殼體;熱交換裝置, 設置於殼體内,用以對一氣流進行熱交換,其中該熱交 換裝置包含主管路及旁支管路,該旁支管路係相對於該 主管路且包含一閥體,該閥體係選擇性地開啟或關閉, 以控制旁支管路是否對該氣流進行熱交換;加濕裝置, 鄰設於氣流之路徑中,可對該氣流進行加濕;以及氣流 驅動裝置,設置於殼體内,用以驅動氣流。 [0009] 為達上述目的,本案之另一較佳實施態樣為提供一種具 濕度調節功能之空調設備,至少包括:熱交換裝置,包 含主管路以及旁支管路,用以對一氣流進行熱交換,其 中該旁支管路之路徑上設置一閥體,該閥體係選擇性地 開啟或關閉,以使熱傳介質選擇性地流通於旁支管路内 ;加濕裝置,鄰設於氣流之路徑中,且於閥體關閉時開 啟,以對該氣流進行加濕;以及氣流驅動裝置,其係架 構於驅動氣流。 【實施方式】 [0010] 體現本案特徵與優點的一些典型實施例將在後段的說明 中詳細敘述。應理解的是本案能夠在不同的態樣上具有 各種的變化,然其皆不脫離本案的範圍,且其中的說明 及圖式在本質上係當作說明之用,而非用以限制本案。 [0011] 本案具濕度調節功能之空調設備係用於調節空氣中之溫 099112996 表單編號 A0101 第 6 頁/共 19 頁 0992022989-0 201137289 度與濕度,使得系統設備,例如資料中心之資料處理設 備,所處的環境空氣能夠保持在適當的溫度及濕度下, 進而達成冷卻系統設備以及防止系統設備之電路板及電 子元件發生靜電或鏽蝕的目的。請參閱第一圖A及B,其 中第一圖A係為本案較佳實施例之具濕度調節功能之空調 設備之結構示意圖;第一圖B係為第一圖A之内部結構示 意圖。如第一圖A及B所示,本案具濕度調節功能之空調 設備2(後文中簡稱為空調設備)包括殼體20、熱交換裝置 21、加濕裝置22以及氣流驅動裝置23,其中殼體20包括 〇 内部空間200、第一開口201及第二開口 202。於本實施 例中,空調設備2係將外界相對高溫之輸入氣流A+1(亦即 t丄 待冷卻之輸入氣流)經由第一開口201引導進入殼體20之 内部空間200,而空調設備2會對該輸入氣流Au進行熱 交換,以降低輸入氣流Au之溫度,再經由第二開口 202 排出冷卻後之輸出氣流At2至殼體20外界,進而達到降低 空氣溫度的目的。另外,當空氣溫度及濕度未達穩定狀 態時,空調設備2會對輸入氣流Atl同時進行熱交換與加 ◎ 濕的動作,再經由第二開口 202排出冷卻且加濕後之輸出 氣流At2至殼體20外界,進而達到降低空氣溫度及增加空 氣濕度的目的。 [0012] 於本實施例中,殼體20之内部空間200更包含第一區域 203及第二區域204,其中第一區域203鄰近於第一開口 201且第二區域204鄰近於第二開口 202。熱交換裝置21 設置於第一區域203,用以將第一開口201所導入之輸入 氣流Au進行熱交換。加濕裝置22可選擇性地設置於第一 099112996 表單編號A0101 第7頁/共19頁 0992022989-0 201137289 區域203或第二區域204内,用以選擇性地對輸入氣流'1 進行加濕。氣流驅動裝置23設置於第二區域2〇4内用以 驅動氣流。於本實施例中,氣流驅動裝置23係為非軸流 式風屬,例如鼓風機,但不以此為限。於一些實施例中 ,本案之空調設備2更包括一控制器24,用以控制空調設 備2之運作。 [0013] 第一圖係簡略地顯示第一圖B之熱交換裝置之結構示意圖 。如第一圖B以及第二圖所示,熱交換裝置21包含輸入 管路210、主管路211、旁支管路212以及輸出管路 213,其中主管路211與旁支管路212係分別設置於第一 區域203之第一側203a與第占谢2 〇 3 b _輪入管路2丨〇與 主管路211以及旁支管路212_連接,興以_入熱傳介質 且輸出管路213與主管路211以及旁支管路212連接, 用以匯流輸出熱傳介質。換言之,熱傳介質係由輸入 管路210分別流入主管路211及旁支管路212,並於 輸出管路213會合,再經由輸出管路213流出殼體2〇外。 旁支官路21 2的路徑上設置至少一閥體21 2 〇,該閥體 21 2 0係用以控制熱傳介質是否流通於旁支管路212内。 於本實施例中,加濕裝置22係鄰設於氣流之路徑中,且 以鄰設於該旁支管路為較佳。於本實施例中,輸入管路 21〇 、主管路211、旁支管路212以及輸出管路213之材 質可為銅管,但不以此為限,而主管路211與旁支管路 212係分別穿過複數個銅片(未圖示)且相對應設置於第一 區域203之第一侧2〇3a以及第二侧203b,以達到對輸入 氣流Atl進行熱交換之功效。於本實施例中,熱傳介質 099112996 表單編號A0101 第8頁/共19頁 0992022989-0 201137289 可為水或冷媒,但不以此為限。 [0014] 第三圖Α係顯示本案空調設備對輸入氣流進行熱交換時同201137289 VI. Description of the invention: [Technical field to which the invention pertains] [0001] The present invention relates to an air conditioner, and more particularly to an air conditioner having a humidity adjustment function. [Prior Art] [0002] With the rapid growth of technology, the most popular new technology era term "cloud computing" has emerged. In fact, cloud computing is not a technology but a concept that is based on the use of computer technology. It is a type of network communication that is developed by remote technology. It is essentially a decentralized operation. Disti*ibuted computing). The so-called decentralized calculation is to simultaneously allow multiple computers, such as two or hundreds of thousands of units, to perform operations by means of a link-by-connection method to complete the instructions given by the user. Generally, the cloud computing service provides an online business application that is accessed by a common browser, so that a large amount of system software and data are stored in a remote large data center (do vu«ta cen ter), thereby reducing the hardware of each terminal computer. The burden of the equipment. At present, the data center is combined with the concept of a green computer room. Through the centralized management and virtualization of servers, storage and networking equipment, it reduces the footprint and power secrets caused by too many idle machines. The correct design of power generation and air supply, further reduce heat dissipation and control power consumption. Many electronic devices that are set in the data center are equipped with circuit boards and electronic components. If the surrounding environment of the data center is too dry, It is easy to generate static electricity between the board and the electronic components, or the surrounding environment is too humid. The circuit board and electronic components are in the environment for a long time. 099112996 Form No. A0101 Page 4 / 19 pages 0992022989-0 201137289 Ο [0004 [0005]Ο [0006] [0007] 099112996 The lack of rust and corrosion, so the data center needs to set up high-efficiency constant temperature and humidity air conditioning equipment. From the past experience and general knowledge, when the air is in a relatively high temperature state, the effect of humidifying it is remarkable, but at the same time, it can achieve the purpose of cooling the air and humidifying the air if necessary. The constant humidity air-conditioning equipment is internally provided with a partition for separating into a main flow path and a bypass flow path, wherein the cooling element is disposed on the main flow path, so that a part of the hot air enters through the air inlet and is heated by the cooling element. The exchange is to achieve a cooling effect, and another part of the high-temperature air stream that is not heat-exchanged by the cooling element flows through the humidifier through the bypass flow path to perform the humidification function in time. However, when the humidity in the air is stable and no humidification is required, part of the hot air will still flow through the bypass flow path, so that the hot air in this part is mixed into the cold air of the main channel exit, causing the already cooled. The cold air temperature rises again, and thus the overall air supply efficiency of the device is not effectively utilized. In addition, since the conventional constant temperature and humidity air conditioner has a partition inside, the space available for the cooling element is reduced, and the air flow rate for heat exchange is also reduced, while the volume of the air conditioner is constant and the air flow rate is fixed. Therefore, how to develop an air conditioning device with the humidity adjustment function that can solve the problems and the problems encountered in the above-mentioned prior art is a problem that needs to be solved at present. SUMMARY OF THE INVENTION The main object of the present invention is to provide an air conditioning device with a humidity adjustment function, which is configured to selectively control whether a heat transfer medium enters a bypass pipe by providing a valve body in a bypass pipe in the heat exchange device. Road, and optional form number Α0101 Page 5 / 19 pages 0992022989-0 201137289 The ground is humidified to reduce the power loss of the heat exchange device and improve the overall air supply efficiency of the device, and increase the heat exchange device The use of space, in turn, increases the flow of air that can be exchanged for heat. [0008] In order to achieve the above object, a preferred embodiment of the present invention provides an air conditioning device with a humidity adjustment function, comprising at least: a housing; and a heat exchange device disposed in the housing for performing heat exchange on a gas stream Wherein the heat exchange device comprises a main line and a side branch line, the side branch line is opposite to the main line and includes a valve body, the valve system is selectively opened or closed to control whether the side branch line performs the air flow Heat exchange; a humidifying device, adjacent to the path of the airflow, for humidifying the airflow; and an airflow driving device disposed in the casing for driving the airflow. [0009] In order to achieve the above object, another preferred embodiment of the present invention provides an air conditioning device with a humidity adjustment function, comprising at least: a heat exchange device including a main pipe and a bypass pipe for heating a gas stream Exchanging, wherein a valve body is disposed on the path of the bypass pipe, the valve system is selectively opened or closed to selectively circulate the heat transfer medium in the bypass pipe; the humidifying device is adjacent to the path of the air flow And opening when the valve body is closed to humidify the air flow; and the air flow driving device is configured to drive the air flow. [Embodiment] Some exemplary embodiments embodying the features and advantages of the present invention will be described in detail in the following description. It is to be understood that the present invention is capable of various modifications in various aspects, and is not intended to limit the scope of the invention. [0011] The air conditioning device with humidity adjustment function is used to adjust the temperature in the air 099112996 Form No. A0101 Page 6 of 19 0992022989-0 201137289 Degree and humidity, so that system equipment, such as data processing equipment of the data center, The ambient air can be maintained at an appropriate temperature and humidity to achieve cooling system equipment and to prevent static or rusting of circuit boards and electronic components of the system equipment. Referring to the first drawings A and B, the first figure A is a schematic structural view of an air conditioning apparatus having a humidity adjustment function according to a preferred embodiment of the present invention; and the first drawing B is a schematic view of the internal structure of the first drawing A. As shown in the first diagrams A and B, the air conditioning apparatus 2 (hereinafter simply referred to as an air conditioner) having a humidity adjustment function includes a housing 20, a heat exchange device 21, a humidification device 22, and an air flow driving device 23, wherein the housing 20 includes a crucible inner space 200, a first opening 201, and a second opening 202. In the present embodiment, the air conditioner 2 directs the input airflow A+1 (that is, the input airflow to be cooled) of the outside relatively high temperature into the internal space 200 of the casing 20 via the first opening 201, and the air conditioner 2 The input airflow Au is heat exchanged to reduce the temperature of the input airflow Au, and then the cooled output airflow At2 is discharged to the outside of the casing 20 via the second opening 202, thereby achieving the purpose of reducing the air temperature. In addition, when the air temperature and the humidity are not at a steady state, the air conditioner 2 simultaneously performs heat exchange and humidification on the input airflow At1, and then discharges the cooled and humidified output airflow At2 to the shell via the second opening 202. The outside of the body 20, thereby achieving the purpose of reducing the air temperature and increasing the humidity of the air. In the present embodiment, the internal space 200 of the housing 20 further includes a first area 203 and a second area 204, wherein the first area 203 is adjacent to the first opening 201 and the second area 204 is adjacent to the second opening 202. . The heat exchange device 21 is disposed in the first region 203 for performing heat exchange between the input airflow Au introduced by the first opening 201. The humidifying device 22 can be selectively disposed in the first 099112996 Form No. A0101, page 7 / 19 pages 0992022989-0 201137289, region 203 or second region 204 for selectively humidifying the input airflow '1. The air flow driving device 23 is disposed in the second area 2〇4 for driving the air flow. In the present embodiment, the air flow driving device 23 is a non-axial flow type, such as a blower, but is not limited thereto. In some embodiments, the air conditioning device 2 of the present invention further includes a controller 24 for controlling the operation of the air conditioning device 2. [0013] The first figure shows a schematic diagram of the structure of the heat exchange device of FIG. As shown in the first FIG. B and the second figure, the heat exchange device 21 includes an input line 210, a main line 211, a bypass line 212, and an output line 213, wherein the main line 211 and the side line 212 are respectively disposed at the first The first side 203a of the area 203 and the first 谢2 〇3 b _ wheel line 2 连接 are connected to the main line 211 and the side branch line 212_, and the heat transfer medium and the output line 213 and the main line are connected. The 211 and the bypass line 212 are connected for collecting and outputting the heat transfer medium. In other words, the heat transfer medium flows into the main line 211 and the side branch line 212 from the input line 210, and merges with the output line 213, and then flows out of the casing 2 via the output line 213. At least one valve body 21 2 〇 is disposed on the path of the side branch road 21 2 , and the valve body 21 2 0 is used to control whether the heat transfer medium flows in the bypass line 212 . In the present embodiment, the humidifying device 22 is disposed adjacent to the path of the airflow, and is preferably disposed adjacent to the bypass pipe. In this embodiment, the material of the input line 21〇, the main line 211, the side branch line 212, and the output line 213 may be a copper tube, but not limited thereto, and the main line 211 and the side branch line 212 are respectively A plurality of copper sheets (not shown) are disposed and correspondingly disposed on the first side 2〇3a and the second side 203b of the first region 203 to achieve heat exchange effect on the input airflow At1. In the present embodiment, the heat transfer medium 099112996 Form No. A0101 Page 8 of 19 0992022989-0 201137289 may be water or refrigerant, but not limited thereto. [0014] The third figure shows that the air conditioning device in the present case exchanges heat with the input airflow.
時開啟閥體以及關閉加濕裝置之結構示意圖。如第一圖B 及第三圖A所示,當安裝於空調設備2内或外之感測器(未 圖示)量測判斷外界空氣處於不須加濕的狀態時,感測 器會發送一感測訊號至空調設備2之控制器24,而連接 於加濕裝置2 2與閥體21 2 0之控制器2 4將因應該感測訊 號產生一控制訊號,以控制開啟閥體2120及關閉加濕 ❹ 裝置22。此時,熱傳介質將經由輸入管路210分別流入 主管路211及旁支管路212,而輸入氣流Au流經第一側 203a之主管路211及第二側203b之旁支管路212,其 中,流經主管路211的輸入氣流Au藉由主管路211内的熱 傳介質進行熱交換,進而使該部分之輸入氣流Au的溫度 下降,而形成低於輸入氣流A + 1溫度的主氣流Μ ,另外, 11 a 流經旁支管路212的輸入氣流Atl藉由旁支管路212内的熱 傳介質進行熱交換,使該部分之輸入氣流Au的溫度下降 Ο ,而形成經熱交換後的旁支氣流S,,接著主氣流Μ與旁 支氣流S ,將流入第二區域204,並且混合而成輸出氣流 a 1The schematic diagram of opening the valve body and closing the humidifying device. As shown in FIG. 1B and FIG. 3A, when a sensor (not shown) installed in or outside the air conditioner 2 measures to determine that the outside air is in a state where it is not required to be humidified, the sensor transmits a sensor. The sensing signal is sent to the controller 24 of the air conditioner 2, and the controller 24 connected to the humidifying device 2 2 and the valve body 21 2 will generate a control signal according to the sensing signal to control the opening of the valve body 2120 and closing. The humidifying device 22 is humidified. At this time, the heat transfer medium will flow into the main line 211 and the bypass line 212 via the input line 210, and the input air stream Au flows through the main line 211 of the first side 203a and the side line 212 of the second side 203b. The input airflow Au flowing through the main pipe 211 is heat-exchanged by the heat transfer medium in the main pipe 211, so that the temperature of the input airflow Au in the portion is lowered to form a main airflow 低于 lower than the temperature of the input airflow A+1. In addition, the input air flow At1 flowing through the bypass line 212 is heat exchanged by the heat transfer medium in the bypass line 212, so that the temperature of the input air stream Au in the portion is lowered, and the heat exchanged side branch airflow is formed. S, then the primary airflow and the bypass airflow S will flow into the second region 204 and be mixed to form an output airflow a1
At2,最後再透過氣流驅動裝置23使輸出氣流At2經由 第二開口 202排出殼體20外。 [0015] 第三圖B係顯示本案空調設備對輸入氣流進行熱交換時同 時關閉閥體以及開啟加濕裝置之結構示意圖。如第一圖 B及第三圖B所示,當安裝於空調設備2内或外之感測器 量測判斷外界空氣處於相對高溫且低濕度的狀態時,感 測器便會發送一感測訊號至控制器24,控制器24因應該 099112996 表單編號A0101 第9頁/共19頁 0992022989-0 201137289 感測訊號產生一控制訊號,以控制閥體2120及加濕裝 置22 ,使得閥體2120完全或不完全關閉進而阻止熱 傳介質完全或不完全進入旁支管路212 ,且同時啟動加 濕裝置22。此時,流經第一側203a之主管路211之輸入 氣流ΑΗ便可藉由主管路211内的熱傳介質進行熱交換, 使該部分之輸入氣流Au的溫度下降,而形成低於輸入氣 流Α。溫度的主氣流Μ 。而流經第二側203b之旁支管路 212之輸入氣流Atl,由於閥體2120關閉,旁支管路212 内沒有熱傳介質,輸入氣流Atl就無法與熱傳介質進行完 整的熱交換,而形成未經熱交換的旁支氣流S ^。此時, 鄰近於閥體2120或旁支管路212之加濕裝置22便可對未 經熱交換的旁支氣流89進行加濕的動作,以提高旁支 a2 氣流S 9的濕度。接著,較低溫的主氣流Μ與經過加濕後 a2 a 的旁支氣流S 將混合成輸出氣流A ,再透過氣流驅動 3 L· X L· 裝置23使輸出氣流At2經由第二開口 202排出殼體20外, 如此一來,可達到同時降低空氣溫度及增加空氣濕度的 目的 。 [0016] 於一些實施例中,氣流驅動裝置23可設置於第一區域204 ,且熱交換裝置21可設置於第二區域204,且不以此為限 〇 [0017] 综上所述,本案提供一種具濕度調節功能之空調設備, 其係於熱交換裝置内之旁支管路設置一閥體,且將加濕 裝置鄰設於氣流之路徑中,利用該閥體控制熱傳介質是 否進入旁支管路,以當空氣處於不需加濕的狀態時,將 閥體設為開啟狀態且加濕裝置關閉,讓流經旁支管路的 099112996 表單編號A0101 第10頁/共19頁 0992022989-0 201137289 輸入氣流與旁支管路内的熱傳介質進行熱交換,以達到 使氣流降溫之效果。另一方面,當空氣處於須加濕的狀 態時,將閥體設為完全或不完全關閉狀態,且啟動加濕 裝置,藉由閥體阻止熱傳介質完全或不完全進入旁支管 路,使一部分的氣流無法進行完整熱交換,且流經加濕 裝置後,受加濕裝置進行加濕的動作,進而達到使氣流 降溫且增加氣流濕度的效果。本案之空調設備一方面可 在空氣濕度穩定且不需進行加濕的情況下,使所有的輸 入氣流皆可與熱傳介質進行熱交換,進而降低熱交換裝 置的功率損耗及提高設備整體的送風效率。另一方面 ,由於本案之空調設備内部無需增設隔板,故在空調設 備體積不變及空氣流量固定下,熱交換裝置的可利用空 間將會增大,進而使可進行熱交換的空氣流量也跟著增 加。 [0018] 縱使本發明已由上述之實施例詳細敘述而可由熟悉本技 藝之人士任施匠思而為諸般修飾,然皆不脫如附申請專 利範圍所欲保護者。 【圖式簡單說明】 [0019] 第一圖A :係為本案較佳實施例之具濕度調節功能之空調 設備之結構示意圖。 [0020] 第一圖B :係為第一圖A之内部結構示意圖。 [0021] 第二圖:係簡略地顯示第一圖B之熱交換裝置之結構示意 圖。 [0022] 第三圖A :係顯示本案空調設備對輸入氣流進行熱交換時 099112996 表單編號A0101 第11頁/共19頁 0992022989-0 201137289 同時開啟閥體以及關閉加濕裝置之結構示意圖。 [0023] 第三圖B :係顯示本案空調設備對輸入氣流進行熱交換時 同時關閉閥體以及開啟加濕裝置之結構示意圖。 【主要元件符號說明】 [0024] 2 :空調設備 20 :殼體 2 0 0 :内部空間 201 :第一開口 202 :第二開口 203 :第一區域 203a :第一側 203b :第二側 204 :第二區域 21 :熱交換裝置 210 :輸入管路 211 : 主管路 212 :旁支管路 2120 :閥體 213 :輸出管路 22 :加濕裝置 23 :氣流驅動裝置 24 :控制器 Atl :輸入氣流 At2 :輸出氣流 Μ .主氣流 a S ,:經熱交換後之旁支氣流 al s ^ :未經熱交換之旁支氣流 a2 099112996 表單編號A0101 第12頁/共19頁 0992022989-0At 2, finally, the output airflow At2 is discharged out of the casing 20 through the second opening 202 through the airflow driving device 23. [0015] FIG. B is a schematic view showing the structure of the air conditioning apparatus in the present case for simultaneously switching off the valve body and opening the humidifying device when heat exchange is performed on the input airflow. As shown in FIG. 1B and FIG. 3B, when the sensor installed in or outside the air conditioner 2 measures that the outside air is in a relatively high temperature and low humidity state, the sensor sends a sensing. The signal is sent to the controller 24, and the controller 24 generates a control signal according to the sensing signal of 099112996 Form No. A0101, page 9/19 pages 0992022989-0 201137289, to control the valve body 2120 and the humidifying device 22, so that the valve body 2120 is completely Or not completely closing to prevent the heat transfer medium from entering the bypass line 212 completely or incompletely, and simultaneously starting the humidifying device 22. At this time, the input airflow 流 flowing through the main pipe 211 of the first side 203a can be exchanged by the heat transfer medium in the main pipe 211, so that the temperature of the input airflow Au of the portion is lowered to form lower than the input airflow. Hey. The main flow of temperature Μ . The input air flow At1 flowing through the bypass pipe 212 of the second side 203b is closed by the valve body 2120, and there is no heat transfer medium in the bypass pipe 212, and the input air flow Atl cannot be completely exchanged with the heat transfer medium to form a heat exchange. The side branch airflow S ^ without heat exchange. At this time, the humidifying device 22 adjacent to the valve body 2120 or the bypass pipe 212 can humidify the non-heat-exchanged bypass gas stream 89 to increase the humidity of the side branch a2 gas stream S9. Then, the lower temperature main air flow Μ and the side air flow S after the humidification a2 a are mixed into the output air flow A, and then the air flow is driven by the L L XL device 23 to discharge the output air flow At2 through the second opening 202 to the casing 20 . In addition, the purpose of simultaneously reducing the air temperature and increasing the humidity of the air can be achieved. [0016] In some embodiments, the airflow driving device 23 can be disposed in the first region 204, and the heat exchange device 21 can be disposed in the second region 204, and is not limited thereto. [0017] In summary, the present case Providing an air conditioning device with a humidity adjusting function, which is provided with a valve body in a bypass pipe in the heat exchange device, and the humidifying device is adjacent to the path of the air flow, and the valve body is used to control whether the heat transfer medium enters the side branch Pipeline, when the air is in a state where it does not need to be humidified, the valve body is set to the on state and the humidification device is closed, so that the flow through the side branch pipe is 099112996 Form No. A0101 Page 10 / 19 pages 0992022989-0 201137289 The input airflow exchanges heat with the heat transfer medium in the bypass line to achieve the effect of cooling the airflow. On the other hand, when the air is in a state to be humidified, the valve body is set to be completely or incompletely closed, and the humidifying device is activated, and the valve body prevents the heat transfer medium from completely or incompletely entering the bypass pipe, so that a part is made. The airflow cannot be completely heat exchanged, and after flowing through the humidifying device, the humidifying device performs humidification to achieve the effect of cooling the airflow and increasing the humidity of the airflow. The air conditioning device of the present invention can make all input airflows exchange heat with the heat transfer medium while the air humidity is stable and does not need to be humidified, thereby reducing the power loss of the heat exchange device and improving the overall air supply of the device. effectiveness. On the other hand, since there is no need to add a partition inside the air-conditioning equipment of this case, the space available for the heat exchange device will increase when the volume of the air-conditioning device is constant and the air flow rate is fixed, and the air flow rate for heat exchange can also be increased. Followed by the increase. [0018] The present invention has been described in detail by the above-described embodiments, and may be modified by those skilled in the art, without departing from the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS [0019] FIG. 1 is a schematic structural view of an air conditioning apparatus having a humidity adjustment function according to a preferred embodiment of the present invention. [0020] The first figure B is a schematic diagram of the internal structure of the first figure A. [0021] FIG. 2 is a schematic view showing the structure of the heat exchange device of FIG. [0022] The third figure A: shows the air conditioning equipment in the case of heat exchange of the input airflow 099112996 Form No. A0101 Page 11 of 19 0992022989-0 201137289 The structure of the valve body and the humidification device are simultaneously turned off. [0023] FIG. B is a structural diagram showing the simultaneous closing of the valve body and the opening of the humidifying device when the air conditioning device exchanges heat with the input airflow. [Main Element Symbol Description] [0024] 2: Air Conditioning Apparatus 20: Housing 2 0 0: Internal Space 201: First Opening 202: Second Opening 203: First Area 203a: First Side 203b: Second Side 204: Second region 21: heat exchange device 210: input line 211: main line 212: side branch line 2120: valve body 213: output line 22: humidifying device 23: air flow driving device 24: controller Atl: input air flow At2 : output airflow Μ. main airflow a S ,: bypass airflow after heat exchange a s ^ : bypass airflow without heat exchange a2 099112996 Form No. A0101 Page 12 of 19 0992022989-0