201035708 六、發明說明 【發明所屬之技術領域】 本發明係關於-種溫控模組及其相關裝置,尤指—種可 度之可攜式溫控模組及其相關裝置。 m 【先前技術】 Ο 〇 由於人類係屬於怪溫動物,故無法像辆等變溫動物利用調f 衫的溫絲適顧遭環境_化,因此,若是—個人處於I 度高於或低於體溫的環境下,就會很容易出現令身體不適的症狀1 如脫水或是失溫。值得慶幸的是,上述的情況已_概的進步而 獲付大幅度地改善,-些輔助裝置已經可以普遍地被湘來幫助人 類適應週遭環境的變化’舉例來說’當天氣炎熱時,人們通常就會 使用電風扇等散熱裝置來進行身體熱能的排除,而當天氣寒冷時, 通常财使㈣暖包较電鱗發錄置麵持身_溫暖。雖然 上述g輔崎置係可"地麟,但是在現今講求便利的潮流 :有不足之處’舉例來說’上述之電風扇或是電毯雖 ^被廣泛地使祕日f生財,城制㈣言,财因其笨重的 ,積而無法隨賴帶,U述之暖暖包_其糊化學能轉成熱 月b之特性而無法重複使用。 4 201035708 【發明内容】 =此’本發明係提供—射卿溫度之 關裝置,藉轉決上述攜帶不便之問題。 綠·且及其相 本發明係揭露-種可調節溫度之可攜式溫控·, 行動通訊裝置,包含有一私鹈.^ ^ 田戈'又體,一電源供應單元,安裝於該殼體内, Ο 用來k供撕動通訊裝置運作所需之電力;以及-連接埠,設於該 殼體上並電連接_電源供應單元,用來輸出該電源供應單元所傳 來之電力’以及-控鮮元’電連接於該電源供應單元,用來控制 該電源供應單元傳至該連鱗之電力;以及—溫度靖裝置,電連 接於該連接埠藉以魏由該連接埠峨出之· 鮮摘提供 之電力’該溫度調節裝置侧來調_行動通訊裝置之環境溫度。 本發明另揭露-種可降低溫度之散熱模組,其包含有一行動通 ❹减置’其包含有-殼體;_電源供應單元,安裝於該殼體内,用 來提供該行動通訊裝置運作所需之電力;以及一連接璋,設於該殼 體上並電連接於魏源供解元,用來輸麟電源供應單梢傳來 ’之電力;以及—控辦元,f連齡該電祕應單元,用來控制該 電源供應單7L傳至該連接埠之電力;以及一溫度調節裝置,其包含 有-風扇’用⑽健行_訊裝置之環境溫度;以及—微處理單 元’電連接於δ亥風扇以及該連接埠,用來接收由該連接埠所輸出之 該電源供應單元所提供之電力並調控輸人該風扇之電力。 5 201035708 本發明另揭露一種可提高溫度之增溫模組,其包含有一行動通 訊裝置,其包含有-一電源供應單元,安胁該殼體内,用 來提供該行動通訊裝置運作所需之電力;一連接埠,設於該殼體上, •用來輸出該電源供應單元所傳來之電力;以及一控制單元,電連接 於該電源供應單兀與該連接蟑,用來控制該電源供應單元傳輸至該 連接埠之電力,以及-電阻發熱片,電連接於該連接埠藉以接收該 〇 連接埠所傳來之該電源供應單元所提供之電力,該電阻發熱片係用 來產生熱量。 【實施方式】 請參閱第1圖’第1圖為本發明一可攜式溫控模組1〇之功能方 ,圖。可氣溫減組ω包含有—行騎訊裝置12以及—溫度調 節«置η。行動通訊裝置12包含有一殼體16、一電源供應單元18、 Ο -連鱗20 H㈣單元22。電源供應單元18係安裝純體 • 16内,獅供應單元18侧來提供行動軌裝置12運作所需之電 j。連接埠20係設置於殼體16上,連接埠2G侧來触電源供應 .單元18所傳來之電力。控鮮元22係電連接於魏供應單元i 控制單元22侧來控魏源供應單元18傳至連接埠2()之電力。溫 度調節裝置Η係電連接於連接埠2G,藉以接收由連接埠2()所輸I 之電源供應單元18所提供之電力,溫度調節裝置14侧來調節溫 度。此外,上述之行動通訊裂置12係為一手機或_個人數位助理 6 201035708 (Personal Digital Assistant,PDA)等可攜式通訊裝置,而上述之連 接埠20係可為一通用序列匯流排(Universal Serial Bus,USB )介面。 " 上述之可攜式溫控模組1 〇係隨著溫度調節裝置14之功能的不 * 同而有著不同的溫度控制效能,也就是說,當溫度調節裝置14係為 一散熱裝置時,可攜式溫控模組10係可用來降低行動通訊裝置12 之環丨兄溫度,而溫度調節裝置14係為一發熱裝置時,可攜式溫控模 3 組10係可用來提高行動通訊裝置丨2之環境溫度,以下係分別就可 攜式溫控模組10之散熱功能以及增溫功能進行詳細之說明。 請參閱第2圖’第2圖為本發明第一實施例一散熱模組5〇之功 能方塊圖。散熱模組50包含有一行動通訊裝置52以及一溫度調節 裝置54。行動通訊裝置52包含有一殼體56、一電源供應單元58、 一連接埠60、一控制單元62,以及一使用者介面64。電源供應單 元58係安裝於殼體56内,電源供應單元58係用來提供行動通訊裝 Ο 置52運作所需之電力。連接埠60係設置於殼體56上,連接埠60 • 係用來輸出電源供應單元58所傳來之電力,在此一實施例中,連接 埠60係為一通用序列匯流排介面。控制單元62係電連接於電源供 應單元58,控制單元62係用來控制電源供應單元58傳至連接埠6〇 之電力。溫度調節裝置54包含有一風扇66以及一微處理單元68。 風扇66係用來降低行動通訊襞置52之環境溫度。微處理單元邰 係電連接於風扇66以及連接埠6〇,微處理單元68係用來接收由連 接埠6〇所輸出之電源供應單元%所提供之電力,在此一實施例中, 7 201035708 微處理單元68係為-糕電流控制單元。上述之使用者介面64係 電連接於連接埠60,使用者可藉由操控使用者介面料以經由連接 槔60傳輸-輸入訊號至微處理單元68。因此,微處理單元仍係可 在接收到由連料60所輸出之電源供應單元58所提供之電力後根 據該輸入訊號調控輸入風扇66之電力。 如此-來,當使用者欲使用散熱模組5〇以執行散熱功能時,僅 〇需親朗祕置54連駿行_訊裝置52技料6(),於此同 時,控制單元62就會關測到溫度調節裝置54與連接璋6〇的連接 而控制電源供應單元58經由連接皡60傳送電力至微處理單元68, 進而驅動風扇66轉動以進行對使用者身體的散熱,此時,若是使用 者要調節風扇66之轉速,可利用使用者介面64經由連接淳6〇傳輸 -輸入城錄處理單元68,藉關輯人轉66之電力,舉例 來說,若是使用者介面64係以按鍵形式呈現,則當使用者欲降低風 扇66之轉速時’使用者只要按下相對應之按鍵,此時,使用者介面 ❹64就會產生-相對應之輸入訊號並經由連糾6〇(意即經過通用序 .列匯流排介面内之數據傳輸端)傳至微處理單元68,接著微處理單 το 68就會根據所接收到之輸入訊號調降進入風扇砧之電流或電 —壓’進而達到降低風扇66之轉速的要求。上述之使用者介面料可 不限於按鍵形式,也就是說,使用者介面64亦可因應實際設計需求 而改用其他常見之控制方式呈現以供使用者進行操作,如軟體介面 或是螢幕觸控介面。此外,使用者介面64亦可改電連接於控制單元 62 ’使用者可藉由操控使用者介面64以經由控制單元㈤控制電源 8 201035708 供應單元58是否提供電力至溫度調節農置M,也就是說,使用者 可藉由使用者介面64以選擇開啟或關閉溫度調節裝置54。 接下來’ 5月參閱第3圖,第3圖為本發明第二實施例一增溫模 •組100之功能方塊圖。增溫模、组雇包含有-行動通訊裝置1〇2以 及-電阻發熱片104。行動通訊裝置1〇2包含有一殼體1〇6、一電源 供應單元108、-連接崞110、一控制單元112,以及一溫度感測單 ^元114。電源供應單元1〇8係安裝於殼體1〇6内電源供應單元⑽ " 係用來提供行動通訊裝置102運作所需之電力。連接埠110係設置 於殼體106上,連接埠no係用來輸出電源供應單元所傳來之 電力。控制單it 112係電連接於電源供應單元1〇8,控制單元112 係用來控制電源供應單元傳至連接# 11〇之電力,在此一實施 例中,控制單元112係為-電壓電流控制料。電阻發熱片綱係 電連接於連接埠110,藉以接收連接埠11〇所傳來之電源供應單元 ⑽所提供之電力’電阻發熱片104係用來產生熱量。此外,上述 ◎之溫度感測單元114係電連接於控制單元112,控制單元ιΐ2係根 、據溫度感測單元m所量測之行動通訊裝置1G2之環境溫度控制電 源供應單70108經由連接埠110傳輸至電阻發熱片104之電力。 以下係針對增溫模組1〇〇之運作進行詳細之說明。尤上述可 知,控制單元m係根據溫度感測單元114所量測之行動通訊襄置 102之¥兄溫度控制電源供應單元1〇8、經由連接埠⑽傳輸至電阻 發熱片104之電力,也就是說’當溫度感測單元m偵測到行動通 9 201035708 訊裝置102週遭環境溫度係低於-預設值(可為内定值或由使用者 自訂)時’如環境溫度低於15鱗,難鮮元112就會控制電源 供應單元刚、經由連接埠U0傳送電力至電阻發熱片1〇4,進而驅 動電阻發熱片刚開始發熱,藉以進行對使用者身體的保溫,此外, 由_制單元m在此實施例中係為一電壓電流控制單元,因此, 控制單元m亦可控制電源供應單元1〇8增加或降低進入電阻發熱 片1〇4之電力,以增強或降低電阻發熱片1〇4所產生之熱能,藉以 〇 彈㈣献使用者在不同溫度條件下對發熱量的需求。反之,^溫 度感測單元114偵測到行動通訊裝置週遭環境溫度係高於另一 預設值(可為内定值或由使用者自訂)時,如環境溫度高於^度時, 控制單元m就會控制電源供應單元108停止經由連接蜂ιι〇傳送 電力至電阻發熱104,以使電阻發熱片1()4停止發熱。 々值得-提的是,上述之電阻發熱片1〇4係可因應實際設計需求 而抓用内建或是外接之形式電連接於行動通訊裝置脱,舉例來 說’電阻發熱片104係可内建於行動通訊裝i 102之殼體1〇6的-側面上,如電池背蓋上,以供使用者隨身 蟑110係可為i用序順流排介面,如此—來,當使用者欲使用 電阻發熱片104的發熱功能時,即可利用連接埠110以將電阻發熱 片各1〇4電連接於行動通訊裝置觀,進而驅動電阻發熱片綱開始 除此之外,由第3圖可知’上述之行動通訊裝置102可另包 含一顯示器116 ’顯示器116係電連接於溫度感測單元ιΐ4,顯示器 201035708 116係用來根據溫度感測單元114所量測到之行動通訊裝置1⑽之 溫度顯不一溫度數值,藉以讓使用者即時且明確的知道目前所 處環境的溫度。 此外,本發明第二實施例之溫度感測單元亦可應用於第一實施 例中’意即當溫度感測單元偵測到第一實施例之行動通訊裝置52 週遭環境溫度低於-預設值(可為内定值或由使用者自訂)時,如 〇 ^溫度低於15麟,控鮮元62财控織雜應單元58停止 經由連接埠60傳送電力至風扇66,以使風扇66停止轉動;或是當 溫度感測單元侧到第—實關之行動通訊裝置Μ週遭環境溫度 高於-預設值(可為内定值或由使用者自訂)日寺,如環境溫度高^ 25度時’控制單元62便會自動控制電源供應單元%經由連接埠恥 傳送電力至風扇66,以使風扇66開啟轉動。同理,第一實施例中 所提及之使用者介面亦可應用於第二實施例中,意即使用者可藉由 操控使用者介面以經由控制單元112控制電源供應單元1〇8是否提 供電力至電阻發熱片1〇4,也就是說,使用者可藉由使用者介面以 選擇開啟或關閉電阻發熱片1〇4。 相較於習知技術,本發明係利用行動通訊裝置(如手機、個人 數位助理等)來提供散熱裝置或是增溫裝置所需之電力,由於目前 订動通訊裝置已成為日常生活中廣受使用之電子產品,再加上其輕 便易於攜帶之雖,因此’本發明所提供之可攜式溫控模組係允許 使用者可隨時進行散熱或是增溫的操作,如此—來,不僅可大大地 11 201035708 提升使用上的便繼,同時亦可即時地滿足額者在不同環境下對 溫度的需求。 以上所述僅為本發明之較佳實施例,凡依本發明申請專利範圍 所做之均等變化與修飾,皆應屬本發明之涵蓋範圍。 【圖式簡單說明】 第1圖為本發明可攜式溫控模組之功能方塊圖。 第2圖為本發明第一實施例散熱模組之功能方塊圖。 第3圖為本發明第二實施例增溫模組之功能方塊圖。 【主要元件符號說明】 10 可攜式溫控模組 12、 行動通訊裝置 52'102 14、54 溫度調節裝置 16、 殼體 56、106 18、 電源供應單元 20 ' 連接埠 58、1〇8 60、110 22、 控制單元 50 散熱模組 62> 112 64 使用者介面 66 風扇 12 201035708 68 微處理單元 100 增溫模組 104 電阻發熱片 114 溫度感測單元 116 顯示器201035708 VI. Description of the Invention [Technical Field] The present invention relates to a temperature control module and related devices, and more particularly to a portable temperature control module and related devices. m [Prior Art] Ο 〇Because human beings are strange animals, it is impossible to use the warmth of the t-shirts like a car to be affected by the environment. Therefore, if the individual is at or below the body temperature of I degree In the environment, it is easy to have symptoms such as dehydration or loss of temperature. Fortunately, the above situation has been greatly improved and the aid has been greatly improved. Some auxiliary devices have been widely used to help humans adapt to changes in the surrounding environment. For example, when the weather is hot, people Usually, a heat sink such as an electric fan is used to remove the body heat energy, and when the weather is cold, the general (4) warm packs are placed on the scales to keep warm. Although the above-mentioned g-subsidiary system can be used, it is a trend that is convenient today: there are deficiencies 'for example, 'the above-mentioned electric fan or electric blanket is widely used to make the secrets of the city. System (4) words, because of its cumbersome, financial and can not rely on the belt, U said the warm package _ its paste chemical can be converted into the characteristics of the hot month b and can not be reused. 4 201035708 [Summary of the Invention] = This invention provides a device for detecting the temperature of the camera, which is a problem of inconvenience in carrying. The invention relates to a portable temperature control with adjustable temperature, and the mobile communication device comprises a private device. ^ ^ Tian Ge's body, a power supply unit, is installed in the housing , 用来 used to drive the power required to operate the communication device; and - the connection port is provided on the housing and electrically connected to the power supply unit for outputting the power from the power supply unit 'and- The control unit is electrically connected to the power supply unit for controlling the power transmitted from the power supply unit to the continuous scale; and a temperature device is electrically connected to the connection, and the connection is made by the connection. Extract the power provided by the temperature adjustment device side to adjust the ambient temperature of the mobile communication device. The present invention further discloses a temperature-reducing heat dissipation module including an action overnight reduction device comprising a housing and a power supply unit mounted in the housing for providing operation of the mobile communication device The required power; and a connection port, which is arranged on the casing and electrically connected to the Wei source for the solution element, and is used for the power supply of the single power supply to the power supply; and - the control unit, the age of the power a secret unit for controlling the power transmitted from the power supply unit 7L to the port; and a temperature regulating device including a fan for (10) an ambient temperature of the device and a micro-processing unit The δHai fan and the port are configured to receive power provided by the power supply unit output by the port and regulate power input to the fan. 5 201035708 The invention further discloses a temperature-increasing temperature increasing module, comprising a mobile communication device, comprising: a power supply unit, in the housing, for providing the operation of the mobile communication device a power supply; a connection port disposed on the casing, • for outputting power transmitted by the power supply unit; and a control unit electrically connected to the power supply unit and the connection port for controlling the power supply The power supplied from the supply unit to the connection port, and the resistance heating piece is electrically connected to the connection port to receive the power provided by the power supply unit from the connection port, and the resistance heating piece is used to generate heat . [Embodiment] Please refer to FIG. 1A. FIG. 1 is a functional diagram of a portable temperature control module according to the present invention. The temperature reduction group ω includes a line riding device 12 and a temperature adjustment «set η. The mobile communication device 12 includes a housing 16, a power supply unit 18, and a 连-continuous 20 H (four) unit 22. The power supply unit 18 is mounted in the pure body 16 and the lion supply unit 18 side provides the power required to operate the mobile rail unit 12. The connection port 20 is disposed on the casing 16 and is connected to the side of the 埠 2G to supply power from the power supply unit 18. The control unit 22 is electrically connected to the Wei supply unit i control unit 22 side to control the power transmitted from the Wei source supply unit 18 to the connection port 2 (). The temperature adjusting device is electrically connected to the port 2G to receive the power supplied from the power supply unit 18 that is connected to the port 2, and the temperature adjusting device 14 side adjusts the temperature. In addition, the above-mentioned mobile communication split 12 is a portable communication device such as a mobile phone or a personal digital assistant 6 201035708 (Personal Digital Assistant, PDA), and the above connection 20 can be a universal serial bus (Universal). Serial Bus, USB) interface. " The portable temperature control module 1 described above has different temperature control performances depending on the function of the temperature adjustment device 14, that is, when the temperature adjustment device 14 is a heat sink, The portable temperature control module 10 can be used to reduce the temperature of the ring of the mobile communication device 12. When the temperature adjustment device 14 is a heating device, the portable temperature control module 3 can be used to improve the mobile communication device. The ambient temperature of 丨2, the following is a detailed description of the heat dissipation function and the warming function of the portable temperature control module 10. Referring to FIG. 2, FIG. 2 is a functional block diagram of a heat dissipation module 5〇 according to a first embodiment of the present invention. The heat dissipation module 50 includes a mobile communication device 52 and a temperature adjustment device 54. The mobile communication device 52 includes a housing 56, a power supply unit 58, a port 60, a control unit 62, and a user interface 64. Power supply unit 58 is mounted within housing 56, and power supply unit 58 is used to provide the power required to operate mobile communication device 52. The port 60 is disposed on the housing 56. The port 60 is used to output power from the power supply unit 58. In this embodiment, the port 60 is a universal serial bus interface. The control unit 62 is electrically connected to the power supply unit 58, which is used to control the power supplied from the power supply unit 58 to the port 6埠. The temperature adjustment device 54 includes a fan 66 and a microprocessor unit 68. Fan 66 is used to reduce the ambient temperature of mobile communication device 52. The microprocessor unit is electrically connected to the fan 66 and the port 〇6〇, and the microprocessor unit 68 is configured to receive the power provided by the power supply unit % outputted by the port ,6〇, in this embodiment, 7 201035708 The microprocessor unit 68 is a cake current control unit. The user interface 64 is electrically connected to the connector 60, and the user can transmit and input signals to the microprocessor unit 68 via the connection port 60 by manipulating the user interface fabric. Therefore, the microprocessor unit can still regulate the power of the input fan 66 based on the input signal after receiving the power supplied from the power supply unit 58 outputted by the contig. In this way, when the user wants to use the heat-dissipating module 5〇 to perform the heat-dissipating function, it is only necessary to pro-clearly set the terminal to the terminal device 5 (), at the same time, the control unit 62 Turning off the connection of the temperature adjusting device 54 and the connection port 6而, the control power supply unit 58 transmits power to the micro processing unit 68 via the port 60, thereby driving the fan 66 to rotate to dissipate heat to the user's body. The user needs to adjust the rotation speed of the fan 66, and the user interface 64 can be used to transmit and input the power of the city record processing unit 68 via the connection port 6. For example, if the user interface 64 is a button In the form of presentation, when the user wants to reduce the speed of the fan 66, the user only needs to press the corresponding button. At this time, the user interface 64 generates a corresponding input signal and is connected via the connection (ie, After passing through the data transmission end in the general-purpose serial bus interface to the micro-processing unit 68, the micro-processing single το 68 is then adjusted to the current or voltage-pressure of the fan anvil according to the received input signal. reduce The requirement of the speed of the fan 66. The user interface fabric is not limited to the button form. That is to say, the user interface 64 can also be displayed by other common control methods for the user to operate according to the actual design requirements, such as a software interface or a screen touch interface. . In addition, the user interface 64 can also be electrically connected to the control unit 62. The user can control the power supply 8 201035708 via the control unit (5) to control whether the power supply unit 58 provides power to the temperature control farm M, that is, The user can select to turn the temperature adjustment device 54 on or off by the user interface 64. Next, referring to Fig. 3, the third figure is a functional block diagram of a warming mode group 100 according to a second embodiment of the present invention. The warming mold and the group employ a mobile communication device 1 and 2 and a resistance heating film 104. The mobile communication device 1〇2 includes a housing 1〇6, a power supply unit 108, a port 110, a control unit 112, and a temperature sensing unit 114. The power supply unit 1〇8 is installed in the housing 1〇6 and the power supply unit (10) is used to provide the power required for the operation of the mobile communication device 102. The port 110 is disposed on the housing 106, and the port is used to output power from the power supply unit. The control unit 112 is electrically connected to the power supply unit 1〇8, and the control unit 112 is used to control the power supplied from the power supply unit to the connection. In this embodiment, the control unit 112 is controlled by voltage and current. material. The resistance heating element is electrically connected to the connection port 110 to receive the power supplied from the power supply unit (10) from the connection port 11'. The resistance heating piece 104 is used to generate heat. In addition, the temperature sensing unit 114 of the above-mentioned ◎ is electrically connected to the control unit 112, and the control unit ιΐ2 is connected to the ambient temperature control power supply unit 70108 of the mobile communication device 1G2 measured by the temperature sensing unit m via the connection port 110. The power transmitted to the resistance heating pad 104. The following is a detailed description of the operation of the warming module 1〇〇. In particular, the control unit m is based on the power control unit 1〇8 of the mobile communication device 102 measured by the temperature sensing unit 114, and transmitted to the resistance heating element 104 via the connection port (10), that is, Say 'When the temperature sensing unit m detects the action pass 9 201035708, the ambient temperature of the device 102 is lower than the preset value (can be the default value or customized by the user) 'if the ambient temperature is lower than 15 scales, The difficult-to-use element 112 controls the power supply unit to transmit power to the resistance heating sheet 1〇4 via the connection 埠U0, thereby driving the resistance heating sheet to start heating immediately, thereby performing heat preservation on the user's body, and further, the unit is made of In this embodiment, m is a voltage and current control unit. Therefore, the control unit m can also control the power supply unit 1〇8 to increase or decrease the power entering the resistance heating sheet 1〇4 to enhance or reduce the resistance heating sheet 1〇. 4 The heat energy generated by the bomb (4) provides the user with the demand for heat generation under different temperature conditions. Conversely, when the temperature sensing unit 114 detects that the ambient temperature of the mobile communication device is higher than another preset value (can be a default value or customized by the user), if the ambient temperature is higher than ^ degrees, the control unit m controls the power supply unit 108 to stop transmitting power to the resistance heat generation 104 via the connection buzzer so that the resistance heating sheet 1 () 4 stops heating. It is worthwhile to mention that the above-mentioned resistance heating sheet 1〇4 can be electrically connected to the mobile communication device in the form of built-in or external connection according to the actual design requirements. For example, the resistance heating film 104 can be internally It is built on the side of the case 1〇6 of the mobile communication device i 102, such as the back cover of the battery, so that the user can carry the 110 series for the user to order the interface, so that when the user wants to use When the heat generating function of the resistance heating sheet 104 is used, the connection 埠110 can be used to electrically connect each of the resistance heating sheets to the mobile communication device, and then the resistance heating element can be driven, and the third figure can be seen. The mobile communication device 102 can further include a display 116. The display 116 is electrically connected to the temperature sensing unit ι 4, and the display 201035708 116 is used to detect the temperature of the mobile communication device 1 (10) according to the temperature sensing unit 114. A temperature value that allows the user to know the temperature of the current environment in an instant and clear manner. In addition, the temperature sensing unit of the second embodiment of the present invention can also be applied to the first embodiment, that is, when the temperature sensing unit detects that the ambient temperature of the mobile communication device 52 of the first embodiment is lower than - preset When the value (which may be a default value or customized by the user), if the temperature is lower than 15 lin, the control unit 58 stops transmitting power to the fan 66 via the port 60 to make the fan 66. Stop the rotation; or when the temperature sensing unit side to the first - the actual mobile communication device, the surrounding ambient temperature is higher than - the preset value (can be the default value or customized by the user), such as the ambient temperature is high ^ At 25 degrees, the control unit 62 automatically controls the power supply unit to transmit power to the fan 66 via the connection shame to turn the fan 66 on. Similarly, the user interface mentioned in the first embodiment can also be applied to the second embodiment, that is, the user can control whether the power supply unit 1 〇 8 is provided via the control unit 112 by manipulating the user interface. The power is supplied to the resistance heating sheet 1〇4, that is, the user can select to turn on or off the resistance heating sheet 1〇4 through the user interface. Compared with the prior art, the present invention utilizes a mobile communication device (such as a mobile phone, a personal digital assistant, etc.) to provide power for a heat sink or a warming device, since the current communication device has become widely accepted in daily life. The electronic product used, coupled with its light and easy to carry, therefore, the portable temperature control module provided by the present invention allows the user to perform heat dissipation or warming operation at any time, so that not only Greatly 11 201035708 to improve the use of the convenience, but also to meet the demand for temperature in different environments. The above are only the preferred embodiments of the present invention, and all changes and modifications made to the scope of the present invention should fall within the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a functional block diagram of a portable temperature control module of the present invention. FIG. 2 is a functional block diagram of a heat dissipation module according to a first embodiment of the present invention. FIG. 3 is a functional block diagram of a warming module according to a second embodiment of the present invention. [Main component symbol description] 10 Portable temperature control module 12, mobile communication device 52'102 14, 54 temperature adjustment device 16, housing 56, 106 18, power supply unit 20' connection 埠58, 1〇8 60 110 22, control unit 50 heat dissipation module 62 > 112 64 user interface 66 fan 12 201035708 68 micro processing unit 100 temperature increasing module 104 resistance heating sheet 114 temperature sensing unit 116 display
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