'1300345 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種感測裝置’尤其是指一種可以同 時取得兩種以上之生理訊號之一種複合生理感測裝置。 【先前技術】 隨著生活水準與醫療科技的進步,全球人口的平均壽 命逐漸的延長,根據世界衛生組織(WHO)的定義,當一個國 家65歲以上的老年人口佔全體人口超過7%的話,則稱為 高齡化社會(ageing society);若比例超過14%的話,則 可稱為高齡社會(aged society)。 而台灣地區自1994年即進入高齡化社會,預計到2020 年,台灣的老年人口將達到14%,面對高齡化社會,各種 社會福利、醫療技術以及社會安全制度的問題也逐漸顯示 越來越多的高齡者將無法獲得妥善充分的照顧。為了因應 此一趨勢,近年來生理監控以及感測元件的研究逐漸受到 重視,相關產業也因此開始蓬勃發展。根據日本產經省對 於高齡社會產業市場的調查統計顯示,2001年全球高齡社 會產業市場約為10. 92兆美元,推估2025年時將可達1,089 億美元;從上述之數據顯示出醫療市場龐大以及具有成長 之潛力。 在生理監控的項目中,心電圖是很重要的生理參數之 一。藉由心電圖的檢查,可以診斷心律不整以及各種心臟 '1300345 .綜合上述,因此亟需一種複合生理感測裝置來解決習 用技術所產生之問題。 【發明内容】 本發明的主要目的是提供一種複合生理感測裝置,其 係利用一感測元件可以同時擷取複數個生理訊號,達到免 除多種感測器安裝於身體上時所造成操作以及身體產生之 不適感與不便性之目的。 本發明的次要目的是提供一種複合生理感測裝置,其 係利用感測元件可以同時擷取複數個生理訊號,並與訊號 處理模組整合成為一,達到簡化感測裝置構裝進而降低成 本之目的。 為了達到上述之s的,本發明提供一種複合生理感測 裝置,包括:一號處理模組;以及至少一複合感測單元, 其係與該訊號處理模組相連接,該複合感測單元可以量測 生理電訊號以及溫度感測訊號給該訊號處理模組進行運算 處理。 較佳的是,該複合感測單元更具有:一感測電極,其 係與該訊號處理模組作電訊連接;以及一溫度感測元件, 其係設置於該感測電極上,而與該訊號處理模組作電訊連 接。其中該溫度感測元件可選擇為一熱敏電阻、熱電偶、 感溫電路以及電阻式溫度感測器其中之一者。而該感測電 極係為可選擇感測心電圖(ECG)用之電極結構以及感測腦 波(EEG)之電極結構其中之一者。至於該感測電極係為一 1300345 金屬材料,例如:可選擇為白金、鎳、銅、銘以及鐵其中 之一者。該感測電極上,更開設有一通孔,該通孔内更設 置有該溫度感測元件,並在該溫度感測元件與該通孔之間 填入有一導熱材料。其中該導熱材料可選擇為導熱膏、導 熱膠以及前述之組成其中之一。該感測電極之表面更具有 一導電材料層。該導電材料層可選擇為導電膏、導電膠以 及前述之組成其中之一。 較佳的是,該複合感測單元係為一電阻式溫度感測器。 較佳的是,該訊號處理模組更包括有:一可撓性基板; 以及至少一運算電路,其係形成於該可撓性基板上,以對 該感測訊號進行運算處理。 較佳的是,該複合生理感測裝置,其傣更包括有一電 源供應模組,以提供電力給該訊號處理模組。 較佳的是,該複合生理感測裝置,其係更包括有至少 一導電層,其係形成於該複合感測單元與該訊號處理模組 之間,該導電層與該訊號處理模組以及該複合感測單元作 電性連接,以將訊號傳遞至談訊號處理模組。其中該導電 層可選擇為一金銲墊、一銅箔、一導電碳皮以及前述之組 成其中之一。 【實施方式】 為使貴審查委員能對本發明之特徵、目的及功能有 更進一步的認知與瞭解,下文特將本發明之裝置的相關細 部結構以及設計的理念原由進行說明,以使得審查委員可 '1300345 / 以了解本發明之特點,詳細說明陳述如下: 請參閱圖一所示,該圖係為本發明之複合生理感測裝 置之第一較佳實施例示意圖。該複合生理感測裝置1包括 有一訊號處理模組11以及至少一複合感測單元13。在圖 中係具有三個複合感測單元13,但並不以此為限。該複合 感測單元13與該訊號處理模組11相連接,該複合感測單 元13可以量測生理電訊號以及溫度感測訊號給該訊號處 理模組11進行運算處理。 ® 該複合感測單元13更具有一感測電極130以及一溫度 感測元件131。該感測電極130與該訊號處理模組11作電 訊連接。該溫度感測元件131,其係設置於該感測電極130 上,而與該訊號處理模組11作電訊連接。該感測電極130 係為可選擇感測心電圖(ECG)用之電極結構以及感測腦波 (EEG)之電極結構其中之一者,或者是其他可感測生理狀態 訊號之電極。該感測電極130之本體係為金屬材料,例如 可選擇為白金、鎳、銅、銘以及鐵其中之一者。 在本實施例中,該感測電極130之中心區域更開設有 一導通孔133,該溫度感測元件131設置在該導通孔133 内。該溫度感測元件131可選擇為一熱敏電阻、熱電偶、 , 感溫電路以及電阻式溫度感測器其中之一者。該溫度感測 元件131與該通孔之間更填入有一導熱材料132,如此可 使埋入該導通孔133内之溫度感測元件131透過熱傳導的 方式來有效地縮短熱平衡時間,以加快量測溫度時間。該 導熱材料132可選擇為導熱膏、導熱膠以及前述之組成其 中之一。該感測電極130之表面更可以塗布一導電材料層 10 (s .1300345 與皮膚層接觸時表面的導電效果,進而增加生理電 t里測之強度與品f。該導電材料層可選擇為導電膏、 v电膠等類之傳導凝膠或者是前述之組成。<1300345 IX. Description of the Invention: [Technical Field] The present invention relates to a sensing device', particularly to a composite physiological sensing device that can simultaneously obtain two or more physiological signals. [Prior Art] With the improvement of living standards and medical technology, the average life expectancy of the global population is gradually prolonged. According to the definition of the World Health Organization (WHO), when a country's elderly population over 65 years old accounts for more than 7% of the population, It is called the ageing society; if the ratio exceeds 14%, it can be called the aged society. The Taiwan region has entered an aging society since 1994. It is estimated that by 2020, the elderly population in Taiwan will reach 14%. In the face of an aging society, the problems of various social welfare, medical technology and social security systems are gradually becoming more and more obvious. Many elderly people will not be properly and fully cared for. In response to this trend, research on physiological monitoring and sensing components has been paid more and more attention in recent years, and related industries have begun to flourish. According to the statistics of the Japanese Ministry of Economics and Trade on the ageing social industry market, the global senior social industry market in 2001 was about 10.92 trillion US dollars, which is estimated to reach 100.8 billion US dollars in 2025; The medical market is huge and has the potential to grow. In physiological monitoring projects, ECG is one of the most important physiological parameters. By examination of the electrocardiogram, it is possible to diagnose arrhythmia and various heart '1300345. In combination with the above, there is a need for a composite physiological sensing device to solve the problems caused by conventional techniques. SUMMARY OF THE INVENTION The main object of the present invention is to provide a composite physiological sensing device that utilizes a sensing component to simultaneously capture a plurality of physiological signals, thereby eliminating the operation and body of a plurality of sensors when mounted on the body. The purpose of discomfort and inconvenience. A secondary object of the present invention is to provide a composite physiological sensing device that can simultaneously capture a plurality of physiological signals by using a sensing component, and integrates with the signal processing module to achieve a simplified sensing device assembly and thereby reduce The purpose of cost. In order to achieve the above, the present invention provides a composite physiological sensing device, comprising: a first processing module; and at least one composite sensing unit connected to the signal processing module, the composite sensing unit can The physiological signal and the temperature sensing signal are measured and processed by the signal processing module. Preferably, the composite sensing unit further includes: a sensing electrode electrically connected to the signal processing module; and a temperature sensing component disposed on the sensing electrode, and the The signal processing module is used for telecommunications connection. The temperature sensing component can be selected as one of a thermistor, a thermocouple, a temperature sensing circuit, and a resistive temperature sensor. The sensing electrode is one of an electrode structure for selecting an electrocardiogram (ECG) and an electrode structure for sensing brain waves (EEG). As for the sensing electrode, it is a 1300345 metal material, for example, one of platinum, nickel, copper, iron and iron. A through hole is further defined in the sensing electrode, and the temperature sensing component is further disposed in the through hole, and a heat conductive material is filled between the temperature sensing component and the through hole. The heat conductive material may be selected from the group consisting of a thermal conductive paste, a thermal conductive adhesive, and the foregoing. The surface of the sensing electrode further has a layer of conductive material. The conductive material layer may be selected from the group consisting of a conductive paste, a conductive paste, and a combination thereof. Preferably, the composite sensing unit is a resistive temperature sensor. Preferably, the signal processing module further includes: a flexible substrate; and at least one arithmetic circuit formed on the flexible substrate to perform arithmetic processing on the sensing signal. Preferably, the composite physiological sensing device further includes a power supply module for supplying power to the signal processing module. Preferably, the composite physiological sensing device further includes at least one conductive layer formed between the composite sensing unit and the signal processing module, the conductive layer and the signal processing module, and The composite sensing unit is electrically connected to transmit the signal to the talk signal processing module. The conductive layer may be selected from a gold pad, a copper foil, a conductive carbon skin, and one of the foregoing. [Embodiment] In order to enable the reviewing committee to have a further understanding and understanding of the features, objects and functions of the present invention, the detailed structure of the device of the present invention and the concept of the design are explained below so that the reviewing committee can '1300345 / For a detailed description of the features of the present invention, the detailed description is as follows: Please refer to FIG. 1 , which is a schematic diagram of a first preferred embodiment of the composite physiological sensing device of the present invention. The composite physiological sensing device 1 includes a signal processing module 11 and at least one composite sensing unit 13. There are three composite sensing units 13 in the figure, but not limited thereto. The composite sensing unit 13 is connected to the signal processing module 11. The composite sensing unit 13 can measure physiological signals and temperature sensing signals for the signal processing module 11 to perform arithmetic processing. The composite sensing unit 13 further has a sensing electrode 130 and a temperature sensing element 131. The sensing electrode 130 is electrically connected to the signal processing module 11. The temperature sensing component 131 is disposed on the sensing electrode 130 and is in a telecommunication connection with the signal processing module 11. The sensing electrode 130 is one of an electrode structure for selecting an electrocardiogram (ECG) and an electrode structure for sensing an electroencephalogram (EEG), or other electrode capable of sensing a physiological state signal. The present system of the sensing electrode 130 is a metallic material, and may be selected, for example, from platinum, nickel, copper, iron, and iron. In the embodiment, the central portion of the sensing electrode 130 is further provided with a via hole 133, and the temperature sensing element 131 is disposed in the via hole 133. The temperature sensing component 131 can be selected as one of a thermistor, a thermocouple, a temperature sensing circuit, and a resistive temperature sensor. The temperature sensing element 131 and the through hole are further filled with a heat conductive material 132, so that the temperature sensing element 131 embedded in the through hole 133 can effectively shorten the heat balance time by heat conduction to accelerate the amount. Measure the temperature time. The thermally conductive material 132 can be selected from the group consisting of a thermal paste, a thermal paste, and a combination thereof. The surface of the sensing electrode 130 can be coated with a conductive material layer 10 (the conductive effect of the surface when the s. 1300345 is in contact with the skin layer, thereby increasing the strength and the product f measured in the physiological electricity t. The conductive material layer can be selected to be electrically conductive. A conductive gel such as a paste or a v-gel or the like.
該訊號處理模組丨丨係由一運算電路11〇以及一可撓性 =反111所構成。該運算電路11G係耗接於該可撓性二反 f―,使的整個訊號處理模組u可以彎曲具有撓性,可 隨者貼附之位置而彎曲。而整個運算電路11G以及可挽性 基板111外部被覆有封裝結構10以保護運算電路110以及 可撓性基板111不受傷害。該複合生理感測裝置]内更設 置有一電源供應模組(圖中未示)’純電池、充電電池或 者是其他外接式之電源供應器。透過本發明之裝置,便可 、同守取得所而的複婁文個生理訊號。當使用者將該複合生 理感測1置1貼麟身體表面時,該複合感測單元U只要 觸碰到身體表面即可擷取兩種或者是兩種以上訊號了如 此,可以避免許多分離式感測器裝置於身體上的不適感。 請參閱圖二Α以及圖二Β所示,該圖係為本發明之複 合纽感難置之第二較佳實施觸視以及剖面示意圖。 。亥複合生理感測裝置3包括有一訊號處理模組31以及至少 複合感測單兀33。該複合感測單元33係藉由一導電層 32與,該訊號處理模組31相連接。該訊號處理模組μ係由 :運算電路310以及-可撓性基板311所構成,其功能如 第一較佳實施例所述,在此不做贅述。該複合生理感測裝 置3内更„又置有黾源供應模組34,如鐘電池、充電電、、也 或者是其他外接式之電源供應器。 电 該導電層32可以選擇使用金屬銲墊(如金悍墊)、 '1300345 辦I强、一導•山 目 、^包兔皮或者是前述之組成,但是不在此限,其 ,,^於喜该複合感測單元33可以與該訊號處理模袓Ή 作電性連接,处/、 Μ 组 ’使得感測訊號可以順利傳遞至該訊號處理模 壯罢。^閱圖=c所示’該圖係為本發明之複合生理感測 : 之’測電極剖面示意圖。該感測電極330具有一電極The signal processing module is composed of an arithmetic circuit 11A and a flexible=reverse 111. The arithmetic circuit 11G is detached from the flexible two-in-one, so that the entire signal processing module u can be bent and flexed, and can be bent at the position to which it is attached. The entire arithmetic circuit 11G and the usable substrate 111 are covered with a package structure 10 to protect the arithmetic circuit 110 and the flexible substrate 111 from damage. The composite physiological sensing device is further provided with a power supply module (not shown), a pure battery, a rechargeable battery or other external power supply. Through the device of the present invention, it is possible to obtain and obtain the physiological signals of the reconstructed text. When the user sets the composite physiological sensing 1 to the surface of the body, the composite sensing unit U can capture two or more signals as long as it touches the surface of the body, so that many separations can be avoided. The sensor device is uncomfortable on the body. Referring to Figure 2A and Figure 2B, the figure is a second preferred embodiment of the present invention. . The hybrid composite physiological sensing device 3 includes a signal processing module 31 and at least a composite sensing unit 33. The composite sensing unit 33 is connected to the signal processing module 31 via a conductive layer 32. The signal processing module μ is composed of an arithmetic circuit 310 and a flexible substrate 311, and its function is as described in the first preferred embodiment, and will not be described herein. The composite physiological sensing device 3 is further provided with a power supply module 34, such as a clock battery, a charging battery, or other external power supply. The conductive layer 32 can be selectively used with a metal pad. (such as the gold mat), '1300345 I strong, one guide • Yamagata, ^ rabbit skin or the above composition, but not limited to this, it, ^ Yuxi the composite sensing unit 33 can be with the signal The processing module is electrically connected, and the /, Μ group ' enables the sensing signal to be smoothly transmitted to the signal processing module. ^图图=c' is a composite physiological sensing of the present invention: Schematic diagram of the measuring electrode. The sensing electrode 330 has an electrode
2 _其係開設有一第一導通孔讀,電極本體_ 料側面上’亦即於待測物接觸之位置上更具有一導電材 σ亥導電材料層3301可填滿該第一導通孔3302 =與该導電層32作電性連接。該第一導通孔3302内之導 二材料層3301内更開設有一第二導通孔3303。再回到圖 一 β所示,該第二導通孔3303内設置有一溫度感測元件 331。该第二導通孔3303内則填滿一導熱材料332將該溫 度感測元件331包覆。該導電材料層3301以及該導熱材料 332之目的如前所述,在此不做贅述。 睛參閱圖三Α所示,該圖係為本發明之複合生理感測 衣置之第二較佳實施例剖面示意圖。該複合生理感測裝置 4包括有一訊號處理模組41以及至少一複合感測單元43。 。亥複合感測單元43係藉由—導電層42與該訊號處理模組 41相連接。a亥訊號處理模組41係由一運算電路41 〇以及 可撓性基板411所構成,其功能如第一敕佳實施例所 述’在此不做贅述。該複合感測單元43在本實施例中係為 一電阻式溫度感測器。請參閱圖三Β所示,謗圖係為本發 明之複合生理感測裝置之電阻式溫度感測器示意圖。該電 阻式溫度感測器之實施種類很多,並不以本實施例所說明 1300345 為限,但其原理都為利用金屬會隨著溫度的改變而造成電 阻之改變。在圖三B之實施例中,該電阻式溫度感測器具 有一基板430,基板上形成有金屬電阻431,該金屬電阻 4 31係與該訊號處理板組41相連接。猎由金屬電阻4 31本 身是金屬之特性,除了可以當作是溫度感測訊號來源外, 更可以利用本身具有導電的特性,當作為感測生理電訊號 之電極來源,進而簡化裝置的設計。再回到圖三A所示, 該電阻式溫度感測器之表面更可以塗布一導電材料層44 以改善與皮膚層接觸時表面的導電效果,進而增加生理電 訊號量測之強度與品質。該導電材料層44可選擇為導電 膏、導電膠等類之傳導凝膠或者是前述之組成。 唯以上所述者,僅為本發明之較佳實施例,當不能以 之限制本發明範圍。即大凡依本發明申請專利範圍所做之 均等變化及修飾,仍將不失本發明之要義所在,亦不脫離 本發明之精神和範圍,故都應視為本發明的進一步實施狀 況。 綜合上述,本發明提供之複合生理感測裝置具有迅速 取得複數個生理訊號、簡化構裝設計以及有效縮短訊號穩 態響應時間之優點,因此可以滿足業界之需求,進而提高 該產業之競爭力以及帶動週遭產業之發展,誠已符合發明 專利法所規定申請發明所需具備之要件,故爰依法呈提發 明專利之申請,謹請貴審查委員允撥時間惠予審視,並 賜準專利為禱。 -1300345 【圖式簡單說明】 圖一係為本發明之複合生理感測裝置之第一較佳實施例示 意圖。 圖二A以及圖二B係為本發明之複合生理感測裝置之第二 較佳實施例俯視以及剖面示意圖。 圖二C係為本發明之複合生理感測裝置之感測電極剖面示 意圖。 圖三A係為本發明之複合生理感測裝置之第三較佳實施例 剖面示意圖。 圖三B係為本發明之複合生理感測裝置之電阻式溫度感測 器示意圖。 【主要元件符號說明】 1-複合生理感測裝置 10 -封裝結構 11 -訊號處理模組 110-運算電路 111 -可挽性基板 12-導電層 13 -複合感測單元 130- 感測電極 131- 溫度感測元件 132- 導熱材料 14 1300345 133-導通孔 3- 複合生理感測裝置 30- 封裝結構 31- 訊號處理模組 310- 運算電路 311- 可撓性基板 32- 導電層 33- 複合感測單元 330- 感測電極 3300- 電極本體 3301- 導電材料層 3302- 第一導通孔 3303- 第二導通口 331- 溫度感測元件 332- 導熱材料 34- 電源供應模組 4- 複合生理感測裝置 40- 封裝 41- 訊號處理模組 410- 運算電路 411- 可撓性基板 42- 導電層 43- 複合感測單元 1300345 430- 基板 431- 金屬電阻2 _ which has a first via hole read, and the electrode body _ on the side of the material, that is, at a position where the object to be tested is in contact with a conductive material, the conductive material layer 3301 can fill the first via hole 3302 = Electrically connected to the conductive layer 32. A second via hole 3303 is further defined in the second material layer 3301 of the first via hole 3302. Returning to FIG. 1 , a temperature sensing element 331 is disposed in the second via hole 3303. The second via hole 3303 is filled with a heat conductive material 332 to coat the temperature sensing element 331. The purpose of the conductive material layer 3301 and the heat conductive material 332 is as described above, and will not be described herein. 3 is a cross-sectional view showing a second preferred embodiment of the composite physiological sensing garment of the present invention. The composite physiological sensing device 4 includes a signal processing module 41 and at least one composite sensing unit 43. . The composite sensing unit 43 is connected to the signal processing module 41 via a conductive layer 42. The a-signal processing module 41 is composed of an arithmetic circuit 41 and a flexible substrate 411, and its function is as described in the first preferred embodiment, and will not be described herein. The composite sensing unit 43 is a resistive temperature sensor in this embodiment. Referring to Figure 3, the diagram is a schematic diagram of a resistive temperature sensor of the composite physiological sensing device of the present invention. There are many types of implementations of the resistive temperature sensor, which are not limited to the 1300345 described in this embodiment, but the principle is that the use of metal changes the resistance with temperature. In the embodiment of FIG. 3B, the resistive temperature sensing device has a substrate 430 on which a metal resistor 431 is formed, and the metal resistor 41 is connected to the signal processing board group 41. The metal resistor 4 31 itself is a metal characteristic. In addition to being used as a source of temperature sensing signals, it can also utilize its own conductive characteristics as a source of electrodes for sensing physiological signals, thereby simplifying the design of the device. Referring back to Figure 3A, the surface of the resistive temperature sensor can be coated with a layer of conductive material 44 to improve the surface conduction effect when in contact with the skin layer, thereby increasing the strength and quality of the physiological signal measurement. The conductive material layer 44 may be selected from conductive pastes such as conductive pastes, conductive pastes, and the like. The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto. It is to be understood that the scope of the present invention is not limited by the spirit and scope of the present invention, and should be considered as a further embodiment of the present invention. In summary, the composite physiological sensing device provided by the present invention has the advantages of quickly obtaining a plurality of physiological signals, simplifying the design of the structure, and effectively shortening the steady-state response time of the signal, thereby meeting the needs of the industry, thereby improving the competitiveness of the industry and To promote the development of the surrounding industry, Cheng has already met the requirements for applying for inventions as stipulated in the invention patent law. Therefore, the application for invention patents is submitted according to law. Please ask the review committee to allow time for review and grant the patent as a prayer. . -1300345 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view of a first preferred embodiment of the composite physiological sensing device of the present invention. 2A and 2B are a plan view and a cross-sectional view showing a second preferred embodiment of the composite physiological sensing device of the present invention. Figure 2C is a schematic cross-sectional view of a sensing electrode of the composite physiological sensing device of the present invention. Figure 3A is a schematic cross-sectional view showing a third preferred embodiment of the composite physiological sensing device of the present invention. Figure 3B is a schematic diagram of a resistive temperature sensor of the composite physiological sensing device of the present invention. [Description of Main Components] 1-Composite Physiological Sensing Device 10 - Package Structure 11 - Signal Processing Module 110 - Operation Circuit 111 - Printable Substrate 12 - Conductive Layer 13 - Composite Sensing Unit 130 - Sensing Electrode 131 - Temperature sensing element 132 - Thermally conductive material 14 1300345 133 - Via hole 3 - Composite physiological sensing device 30 - Package structure 31 - Signal processing module 310 - Operation circuit 311 - Flexible substrate 32 - Conductive layer 33 - Composite sensing Unit 330 - sensing electrode 3300 - electrode body 3301 - conductive material layer 3302 - first via hole 3303 - second conduction port 331 - temperature sensing element 332 - thermal conductive material 34 - power supply module 4 - composite physiological sensing device 40- Package 41- Signal Processing Module 410- Operation Circuit 411- Flexible Substrate 42- Conductive Layer 43- Composite Sensing Unit 1300345 430- Substrate 431- Metal Resistor