M437133 五、新型說明: [0001] 【新型所屬之技術領域】 本創作是有關於一種溫控枕,特別是有關於一種具有自 動調控溫度之電子溫控枕。 [0002] # [0003]M437133 V. New description: [0001] [New technical field] This creation is about a temperature control pillow, especially for an electronic temperature control pillow with automatic temperature regulation. [0002] # [0003]
[0004] 【先前技術】 現今醫療護理應用上,常見的退燒裝置便為傳統的冰枕 袋,此冰枕袋主要是將冰水放入橡膠製的袋體中,藉由 病人將頭部枕睡於冰枕袋上以達到冷卻退燒的功效。 然而.,此傳統冰枕袋需隨時注意其升高之溫度,隨時更 換冰水,且更換冰水初期溫度太低變化至退冰為常溫, 使用上需隨時依溫度變化調整枕巾厚度’以達到最佳的 散熱功效,十分麻煩。且此傳統冰枕袋無法隨時監測病 人體溫,並調整設定冰枕袋溫度,如欲存放於冰庫中以 備不時之需,將浪費能源與冰庫空間。另,傳統的控溫 設備需使用壓縮機及冷媒,若欲高低溫控溫還需加熱器 合成需要的溫度,其設備價格不斐,體積龐大,重量不 輕,移動性低,該壓縮機更有高度的噪音,故综觀前所 述,本創作之創作人思索並設計一種電子溫控枕,以期 針對現有技術之缺失加以改善,進而增進產業上之實施 利用。 【新型内容】 有鏗於上述習知技藝之問題,本創作之目的就是在提供 —種具有可自動調整溫度的枕體’以期克服現有技術之 難點。 10120552严編號 A〇101 第3頁/共14頁 1012018084-0 M437133 [0005] 根據本創作之目的,提出一種電子溫控枕,其包含枕體 、體溫感測模組及處理模組。枕體具有溫度調整模組, 以調整枕體之溫度。體溫感測模組感測人體之溫度,以 產生感測訊號。處理模組連接枕體與體溫感測模組,處 理模組接收感測訊號,根據感測訊號控制溫度調整模組 ,以調整枕體之溫度。 [0006] 較佳地,溫度調整模組可包含板體、溫度感測單元及至 少一致冷片。其中板體之一面貼合枕體之一内壁面;溫 度感測單元設置於板體之另一面,偵測板體之溫度;至 少一致冷片之一面貼合於板體之另一面,並鄰近溫度感 測單元,以提供枕體熱能或從枕體液散熱能。 [0007] 較佳地,電子溫控枕可包含液體循環模組,以驅動液體 循環吸收或提供熱能。 [0008] 較佳地,液體循環模組可包含熱交換單元、幫浦單元及 液溫調節單元。其中熱交換單元設置於至少一致冷片之 另一面,當至少一致冷片之另一面產生熱能時,熱交換 單元吸收熱能,當至少一致冷片之另一面吸收熱能時, 熱交換單元提供熱能;幫浦單元一端連接於熱交換單元 之一端,以驅使液體作循環動作;液溫調節單元連接幫 浦單元之另一端及熱交換單元之另一端,其中液體藉由 循環動作流至熱交換單元吸收熱能或提供熱能後,並經 由循環動作流至液溫調節單元時,液溫調節單元係協助 散逸熱能或協助提供熱能。 [0009] 較佳地,溫度調節模組可包含複數個傳導體,分別設置 於至少一致冷片與板體之間及至少一致冷片與熱交換單 1012018084-0 1012055#單编號Αϋ1()1 第4頁/共Η頁 M437133 [0010] 元之間,至少一致冷片經由傳導體調節枕體之溫度,且 熱交換單·元經由傳導體吸收或提供該熱能。 較佳地,複數個傳導體可為陶瓷材質。 [0011] 較佳地,電子溫控枕可包含顯示模组,連接於處理槿组 ,以顯承枕體之溫度及人體之體溫。 [0012] 較佳地’體溫感測模組可為軟性環狀結構,並具有缺口 ,以套於人體之部位。 [0013] • 較佳地,電子溫控枕可包含警示模組,連接處理模組, 當處理檁組判別感測訊號大於預定訊號時,處理模組經 由警矛模組發出警示訊號。 [0014] 較佳地,電子溫控枕可包含輸入模組,連接處理模組, 以設定頊定溫度值’其中當處理模組接收預定溫度值時 ,處理檁組調整枕體之溫度至預定溫度值。 [⑻ 15] 較佳地’警示訊號可為聲音、燈光或其組合方式。 • [0016] 承上所述,本創作之電子溫控枕,其可具有一或多個下 述優點· (1) 此電子溫控枕可藉由體溫感測模組感測的病人體溫隨 時自行調整溫度,可降低隨時更換冰水之不便性。 (2) 此電子溫控枕可藉由致冷片致冷或加熱’可降低壓縮 機及加熱器之嚼音和體積。 [0017] 【實施方式] 以下將參照相關圖式,說明依本創作之電子溫控枕之實 施例’為使便於理解,下述實施例中之相同元件係以相 10120552^^^ A0101 ^ 5 I / ^ 14 1 M437133 同之符號標示來說明。[0004] [Prior Art] In today's medical care applications, the common antipyretic device is a traditional ice pillow bag, which mainly puts ice water into a rubber bag, and the patient puts the head pillow Sleep on the ice pillow bag to achieve cooling and antipyretic effect. However, this traditional ice pillow bag needs to pay attention to its elevated temperature at any time, change the ice water at any time, and change the temperature of the ice water to be too low to change to the normal temperature at the initial temperature, and adjust the thickness of the pillow at any time according to the temperature change. The best heat dissipation is very troublesome. Moreover, this traditional ice pillow bag can not monitor the temperature of the human body at any time, and adjust the temperature of the ice pillow bag. If it is to be stored in the ice bank for emergency, it will waste energy and ice storage space. In addition, the traditional temperature control equipment needs to use the compressor and the refrigerant. If the temperature is high and low temperature, the temperature required for the heater synthesis is required. The equipment price is not high, the volume is large, the weight is not light, and the mobility is low. There is a high degree of noise, so the creators of this creation think about and design an electronic temperature control pillow to improve the lack of existing technology and enhance the implementation of the industry. [New content] In view of the above-mentioned problems of the prior art, the purpose of the present invention is to provide a pillow having an automatically adjustable temperature to overcome the difficulties of the prior art. 10120552 Strictly numbered A〇101 Page 3 of 14 1012018084-0 M437133 [0005] According to the purpose of the present invention, an electronic temperature control pillow is proposed, which comprises a pillow body, a body temperature sensing module and a processing module. The pillow has a temperature adjustment module to adjust the temperature of the pillow. The body temperature sensing module senses the temperature of the human body to generate a sensing signal. The processing module connects the pillow body and the body temperature sensing module, and the processing module receives the sensing signal, and controls the temperature adjusting module according to the sensing signal to adjust the temperature of the pillow body. [0006] Preferably, the temperature adjustment module may include a plate body, a temperature sensing unit, and at least a uniform cold plate. One side of the plate body is attached to one inner wall surface of the pillow body; the temperature sensing unit is disposed on the other side of the plate body to detect the temperature of the plate body; at least one side of the uniform cold piece is attached to the other side of the plate body, and adjacent thereto A temperature sensing unit to provide thermal energy to the pillow or to dissipate heat from the body fluid. Preferably, the electronic temperature control pillow may comprise a liquid circulation module for driving the liquid circulation to absorb or provide thermal energy. Preferably, the liquid circulation module may include a heat exchange unit, a pump unit, and a liquid temperature adjustment unit. Wherein the heat exchange unit is disposed on at least the other side of the uniform cold sheet, and the heat exchange unit absorbs heat energy when at least the other side of the uniform cold sheet generates heat energy, and the heat exchange unit provides heat energy when at least the other side of the uniform cold sheet absorbs heat energy; One end of the pump unit is connected to one end of the heat exchange unit to drive the liquid to circulate; the liquid temperature adjusting unit is connected to the other end of the pump unit and the other end of the heat exchange unit, wherein the liquid flows to the heat exchange unit through the circulation action The liquid temperature adjustment unit assists in dissipating thermal energy or assisting in providing thermal energy after thermal energy or heat is supplied and flows to the liquid temperature adjustment unit via a cyclic action. [0009] Preferably, the temperature adjustment module may include a plurality of conductors respectively disposed between at least the uniform cold sheet and the board body and at least the uniform cold sheet and the heat exchange unit 1012018084-0 1012055# single number Αϋ 1 () 1 Page 4 / Total Page M437133 [0010] Between the elements, at least the cold sheet adjusts the temperature of the pillow via the conductor, and the heat exchange unit absorbs or supplies the heat via the conductor. Preferably, the plurality of conductors may be of ceramic material. [0011] Preferably, the electronic temperature control pillow may include a display module connected to the processing group to display the temperature of the pillow body and the body temperature of the human body. [0012] Preferably, the body temperature sensing module can be a soft annular structure and has a notch to cover the body. [0013] Preferably, the electronic temperature control pillow may include a warning module connected to the processing module. When the processing group determines that the sensing signal is greater than the predetermined signal, the processing module sends a warning signal through the police module. [0014] Preferably, the electronic temperature control pillow may include an input module connected to the processing module to set a predetermined temperature value, wherein when the processing module receives the predetermined temperature value, the processing group adjusts the temperature of the pillow to a predetermined time. Temperature value. [(8) 15] Preferably, the alert signal can be sound, light or a combination thereof. [0016] As described above, the electronic temperature control pillow of the present invention can have one or more of the following advantages: (1) The electronic temperature control pillow can be sensed by the body temperature sensing module at any time. Adjusting the temperature by yourself can reduce the inconvenience of changing ice water at any time. (2) The electronic temperature control pillow can be cooled or heated by the cooling plate to reduce the chewing sound and volume of the compressor and heater. [Embodiment] Hereinafter, an embodiment of an electronic temperature control pillow according to the present invention will be described with reference to the related drawings. For ease of understanding, the same components in the following embodiments are phased 10120552^^^ A0101 ^ 5 I / ^ 14 1 M437133 The same symbol is used to indicate.
[0018] 請參閱第1圖,其係為本創作之電子溫控枕之實施例之方 塊圖。如圖所示,電子溫控枕1包含一枕體10、一處理模 組102、一體溫感測模組103、一液體循環模組104、一 輸入模組105、一顯示模組106及一警示模組107。枕體 10具有溫度調整模組101,溫度調整模組101可調整該枕 體10溫度。體溫感測模組103感測病人的溫度,以產生感 測訊號1031。處理模組102連接枕體10 '液體循環模組 104、體溫感測模組103、輸入模組105、顯示模組106及 警示模組107,處理模組102接收感測訊號1031,並根據 感測訊號1031控制溫度調整模組101,以調整枕體10之 溫度。當處理模組102判別感測訊號1031大於預定訊號時 ,處理模組102經由該警示模組107發出警示訊號1071。 其中,警示訊號1071可為聲音、燈光或其組合方式。 [0019] 上述中,電子溫控枕1更包含液體循環模組104,以驅動 液體循環吸收或提供熱能。其中液體循環模組104包含熱 交換單元1041、幫浦單元1042及液溫調節單元1 043。熱 交換單元1041設置於致冷片1013另一面,當致冷片1013 另一面產生熱能時,熱交換單元1041吸收熱能,當致冷 片1013另一面吸收熱能時,熱交換單元1041提供熱能。 幫浦單元1 042 —端連接於熱交換單元1041—端,以驅使 液體作循環動作。液溫調節單元1 043連接於幫浦單元 1042另一端及熱交換單元1041另一端,液體藉由循環動 作流至熱交換單元1041吸收熱能或提供熱能後,經由循 環動作流至液溫調節單元1 043時,液溫調節單元1 043協 10120552严编號删1 第6頁/共14頁 1012018084-0 M437133 助散逸熱能或協助提供熱能。顯示模組1〇6顯示枕體ι〇之 溫度及病人體溫。輸入模組1〇5設定預定溫度值,當處理 杈組102接收預定溫度值時,處理模組1〇2調整枕體1〇溫 度至預定溫度值。 [0020] 請參閱第2圖’其係本創作之電子溫控枕之溫度調整模组 之示意圖’並請一併參閱第1圖《溫度調整模組丨〇1包含 板體1011、溫度感測單元1〇14、致冷片1〇13及傳導體 1012。板體1011 —面貼合於枕體1〇一内壁面。溫度感測[0018] Please refer to FIG. 1 , which is a block diagram of an embodiment of the electronic temperature control pillow of the present invention. As shown in the figure, the electronic temperature control pillow 1 comprises a pillow body 10, a processing module 102, an integrated temperature sensing module 103, a liquid circulation module 104, an input module 105, a display module 106 and a The warning module 107. The pillow 10 has a temperature adjustment module 101, and the temperature adjustment module 101 can adjust the temperature of the pillow 10. The body temperature sensing module 103 senses the temperature of the patient to generate a sensing signal 1031. The processing module 102 is connected to the pillow 10 ' liquid circulation module 104 , the body temperature sensing module 103 , the input module 105 , the display module 106 and the warning module 107 . The processing module 102 receives the sensing signal 1031 and senses the sense The test signal 1031 controls the temperature adjustment module 101 to adjust the temperature of the pillow 10. When the processing module 102 determines that the sensing signal 1031 is greater than the predetermined signal, the processing module 102 sends the warning signal 1071 via the warning module 107. The warning signal 1071 can be a sound, a light, or a combination thereof. [0019] In the above, the electronic temperature control pillow 1 further includes a liquid circulation module 104 for driving the liquid circulation to absorb or provide thermal energy. The liquid circulation module 104 includes a heat exchange unit 1041, a pump unit 1042, and a liquid temperature adjustment unit 1 043. The heat exchange unit 1041 is disposed on the other side of the refrigerating sheet 1013. When the other side of the refrigerating sheet 1013 generates thermal energy, the heat exchange unit 1041 absorbs thermal energy, and when the other side of the refrigerating sheet 1013 absorbs thermal energy, the heat exchange unit 1041 supplies thermal energy. The pump unit 1 042 is connected to the end of the heat exchange unit 1041 to drive the liquid to circulate. The liquid temperature adjusting unit 1 043 is connected to the other end of the pump unit 1042 and the other end of the heat exchange unit 1041. After the liquid flows to the heat exchange unit 1041 to absorb heat energy or provide heat energy, the liquid flows to the liquid temperature adjusting unit 1 through the circulating action. At 043, the liquid temperature adjustment unit 1 043 10120552 is strictly numbered 1 page 6 / 14 pages 1012018084-0 M437133 to help dissipate heat or assist in providing heat. The display module 1〇6 displays the temperature of the pillow body and the patient's body temperature. The input module 1〇5 sets a predetermined temperature value, and when the processing group 102 receives the predetermined temperature value, the processing module 1〇2 adjusts the temperature of the pillow 1〇 to a predetermined temperature value. [0020] Please refer to FIG. 2, which is a schematic diagram of the temperature adjustment module of the electronic temperature control pillow of the present invention, and please refer to FIG. 1 together. The temperature adjustment module 丨〇1 includes a plate body 1011 and temperature sensing. The unit 1〇14, the fins 1〇13 and the conductor 1012. The plate body 1011 is surface-fitted to the inner wall surface of the pillow body. Temperature sensing
單元1014設置於板體1〇11另—面,以偵測板體1〇11溫度 。致冷片1013—面貼合於板體ιοί 1另一面,並鄰近溫度 感測單元1014,以提供枕體1〇熱能或從枕體1〇逸散熱能 。傳導體1012分別設置於致冷片1〇13與板體1011之間及 致冷片1013與熱交換單元1〇41之間,致冷片1〇13經由傳 導體1012調節枕體1〇溫度,且熱交換單元1〇41經由傳導 體1012吸收或提供熱能。其中傳導體1〇12可為陶瓷材質 〇 φ [0021] 請參閱第3圖,其係本創作之電子溫控枕之實施例之示意 圖,並請一併參閱第1圖。如圖所示,發燒病人2可枕睡 於枕體10上,體溫感測模組1〇3為一軟性環狀結構,並具 有缺口可套於病人2手臂上,隨時監測病人2腋下體溫, 處理模組1 02可依據體溫感測模組3偵測到的病人2體溫 自動調整枕體10的溫度,當體溫感測模組1〇3偵測到的病 人2體溫過高時,驅動警示模組產生警示訊號1〇71 ( 如聲音、燈光等)以通知照護人員注意,且處理模組1〇2 調整電流使與板體1011相貼致冷片1013之一面降低溫度 10120552#單編號 Α0101 第7頁/共14頁 1012018084-0 M437133 逸散熱量,該致冷片1013另一面產生熱量與熱交換單元 1041相貼,該熱交換單元1041藉由液體之循環動作將該 熱量帶至液溫調節單元1043排出,將熱量排出後之液體 再流入幫浦單元1 042後流回熱交換單元1041繼續將致冷 片101 3之熱量帶出,該液溫調節單元1 043可為風扇及通 風口。該電子溫控枕1除了可自動調整溫度,亦可由輸入 模組105輸入欲調整的溫度達到病人2舒適的枕體10溫度 。另外,顯示模組106亦可顯示輸入模組105所輸入的數 值。 [0022] 上述實施例中,致冷片1013較佳可設置二片以上,以增 加致冷致熱功效。 [0023] 以上所述僅為舉例性,而非為限制性者。任何未脫離本 創作之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 [0024] 第1圖係為本創作之電子溫控枕之實施例之方塊圖。 第2圖係為本創作之電子溫控枕之溫度調整模組之示意 圖。 第3圖係為本創作之電子溫控枕之實施例之示意圖。 【主要元件符號說明】 [0025] 1 :電子溫控枕 10 :枕體 101 :溫度調整模組 1011 :板體 1012 :傳導體 1012018084-0 HH20552产單编號删1 第8頁/共14頁 M437133 :致冷片 :溫度感測單元 處理模組 體溫感測模組 :感測訊號 液體循環模組 :熱交換單元 :幫浦單元 :液溫調節單元 輸入模組 顯示模組 警示模組 :警示訊號 人 10120552#單编號 A〇101 第9頁/共14頁 1012018084-0The unit 1014 is disposed on the other side of the board body 11 to detect the temperature of the board body 1〇11. The cooling sheet 1013 is surface-attached to the other side of the plate body ιοί 1 and adjacent to the temperature sensing unit 1014 to provide heat energy from the pillow body 1 or to escape heat from the pillow body 1. The conductors 1012 are respectively disposed between the cooling fins 1〇13 and the plate body 1011 and between the cooling fins 1013 and the heat exchange unit 1〇41, and the cooling fins 1〇13 adjust the temperature of the pillow body 1经由 via the conductor 1012, And the heat exchange unit 1〇41 absorbs or supplies thermal energy via the conductor 1012. The conductor 1〇12 can be made of ceramic material 〇 φ [0021] Please refer to Fig. 3, which is a schematic diagram of an embodiment of the electronic temperature control pillow of the present invention, and please refer to Fig. 1 together. As shown in the figure, the fever patient 2 can sleep on the pillow 10, and the body temperature sensing module 1〇3 is a soft annular structure, and has a notch that can be placed on the patient's 2 arm, and the patient's 2 lower body temperature can be monitored at any time. The processing module 102 can automatically adjust the temperature of the pillow 10 according to the body temperature of the patient 2 detected by the body temperature sensing module 3, and when the body temperature of the patient 2 detected by the body temperature sensing module 1〇3 is too high, the driving The warning module generates a warning signal 1〇71 (such as sound, light, etc.) to notify the caregiver of the attention, and the processing module 1〇2 adjusts the current so as to be in contact with the plate body 1011 to reduce the temperature of the surface of the cooling plate 1013 by 10120552# single number Α0101 Page 7 of 14 1012018084-0 M437133 The other side of the refrigerating piece 1013 generates heat to the heat exchange unit 1041, and the heat exchange unit 1041 brings the heat to the liquid by the circulation action of the liquid. The temperature regulating unit 1043 is discharged, and the liquid after the heat is discharged flows into the pump unit 1042 and then flows back to the heat exchange unit 1041 to continue to carry out the heat of the cooling plate 101 3 . The liquid temperature adjusting unit 1 043 can be a fan and a ventilation. mouth. In addition to automatically adjusting the temperature, the electronic temperature control pillow 1 can also input the temperature to be adjusted by the input module 105 to reach the temperature of the patient's 2 comfortable pillow 10. In addition, the display module 106 can also display the value input by the input module 105. [0022] In the above embodiment, the cooling sheet 1013 is preferably provided with two or more sheets to increase the cooling and heating effect. [0023] The foregoing is illustrative only and not limiting. Any equivalent modifications or changes made to the spirit and scope of this creation shall be included in the scope of the appended patent application. BRIEF DESCRIPTION OF THE DRAWINGS [0024] Fig. 1 is a block diagram of an embodiment of the electronic temperature control pillow of the present invention. Figure 2 is a schematic diagram of the temperature adjustment module of the electronic temperature control pillow of the present invention. Figure 3 is a schematic diagram of an embodiment of the electronic temperature control pillow of the present invention. [Description of main component symbols] [0025] 1 : Electronic temperature control pillow 10 : Pillow body 101 : Temperature adjustment module 1011 : Plate body 1012 : Conductor 1012018084-0 HH20552 Production order number 1 Delete 8 Page / Total 14 pages M437133: Cooling film: Temperature sensing unit processing module body temperature sensing module: sensing signal liquid circulation module: heat exchange unit: pump unit: liquid temperature adjustment unit input module display module warning module: warning Signal Man 10120552#单号A〇101 Page 9/Total 14 Page 1012018084-0