1355922 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種環狀觸控裝置及其與電子裝置的 組合,特別是指一種具有生理訊號擷取功能的環狀觸控裝 置及其與電子裝置的組合。 【先前技術】1355922 IX. Description of the Invention: [Technical Field] The present invention relates to a ring-shaped touch device and a combination thereof with an electronic device, and more particularly to a ring-shaped touch device having a physiological signal capturing function and A combination with an electronic device. [Prior Art]
廣泛應用於個人數位助理(PDA)、智慧型手機 Phone)等之觸控裝置,除一般常見之觸控筆(styius)形式外 ,亦漸有其他形式問世。例如台灣專利第M32155〇號(申請 案號為962G81G4)專利案,即揭露—種便於操作之指環式觸 控筆,然其仍侷限於單純觸控功能。 目前非侵人式的A氧量測裝置通f是用以夾持在使用 者的手指頭末端,以量測使用者的血氧飽和度,然而,現 有血氧量測裝置的夹持方式易因使用者身體移動或手指頭 晃動等因素的干擾’造成夾持的不穩固,進而導致量測的 結果受到影響,如台灣專利帛職洲號(中請案號為 942〇71〇2)專利案所揭露之非侵入式血氧濃度計。 再者,該血氧量測裝置通常會與一電子裝置電連接, ^使量測㈣果顯示在電子裝置上,然而,該電子裝置通 常需藉由手指按壓招;. 的方式來進行操作的動作,因此對 於手指頭夾持有血氣晉句,丨壯^ '、裝置的使用者而言,在操作電子 裝置上較為不便。 因此’如何構思出一 種血乳或其他生理量測裝置it 穩固地固定在使用者的车 _ 、札頭上量測生理訊號,且同時僅 5 U55922 於使用者操作觸工 二電子裝置的結構設計,遂成為本發明要 進一步改進的主題。 【發明内容】 明--一 g jf 的’在於提供一種具有生理訊號擷取功 能的環狀觸控裝置,能穩固地套設在使用者的手指頭以提 供使用者觸控難螢幕,並㈣職用者的生理訊號。 發月之另目的,在於提供一種具有生理訊號擷取 功能的環狀觸控裝置與電子裝置的組合,環狀觸控裝置能 穩固地套設在使用者的手指頭以提供使用者觸控觸控勞幕 ,並能偵測使用者的生理訊號。 ^本發明的目的及解決先前技術問題是採用以下技術手 又來實現的’依據本發明所揭露的具有生理訊號摘取功能 的裒狀觸控裝置,適於供一使用者的一指頭穿設並可與一 裝置進行無線通訊,電子裝置包含一無線訊號接收器 及一觸控螢幕’環狀觸控裝置包含一套件、至少一觸控件 一量測單元及一無線訊號發射器。 套件界定有—供指頭穿設的穿套空間,觸控件設置於 套件上用以觸控觸控勞幕,量測單元用以量測穿套空間内 :指頭的生理訊號並產生一量測訊號,無線訊號發射器與 !測單元電連接並用以將量測訊號發射至無線訊號接收器 ,使得電子裝置可對量測訊號進行運算分析。 ,本發明的目的及解決先前技術問題還可以採用以下技 術手段進一步實現。 前述具有生理訊號擷取功能的環狀觸控裝置,套件為 1355922 橡膠或矽膠或熱塑性彈性體或熱固性彈性體材質。 前述具有生理訊號擷取功能的環狀觸控裝置,可設計 有複數個環設於套件上的觸控件,各觸控件包括一用以觸 控觸控螢幕的觸控部,觸控件一體成型於套件上,所述觸 控件的觸控部粗細不同,藉此,可應用在不同觸控介面上 的觸控需求。 前述具有生理訊號擷取功能的環狀觸控裝置,套件呈 套環狀並界定有一呈環形的容置槽,該環狀觸控裝置還包 含一設置於該容置槽内的拉伸彈簧,藉此,可施加彈性力 於套件上。 前述具有生理訊號擷取功能的環狀觸控裝置,量測單 元包括分別設置於套件上的一光發射元件及一光接收元件 ’光發射元件用以㈣套空間㈣指㈣射一光源訊號, 光接收元件與無線訊號發射器電連接並用以接收通過指頭 的光源訊號以使其成為量測訊號。 前述具有生理訊號擷取功能的環狀觸控裝置,無線訊 號發射器為藍芽或紅外線發射器,無線訊號接收器為藍芽 或紅外線接收器。 依據本發明所揭露的具有生理訊號擷取功能的環狀觸 控裝置’可與一電子裝置進行電連接,電子裝置包含一觸 控螢幕,%狀觸控裝置包含一套件、至少一觸控件、一量 測單元及一導線。 套件界定有一供指頭穿設的穿套空間,觸控件設置於 套件上用以觸控觸控螢幕,量測單元用以量測穿套空間内 7 1355922 的指頭的生理訊號並產生一量測訊號,導線電連接於電子 裝置與量測單元,用以將量測訊號傳輸至電子裝置,使得 電子裝置可對量測訊號進行運算分析。 本發明的環狀觸控裝置,藉由套件由彈性材質所製成 ,以及搭配拉伸彈簧的配置,使得環狀觸控裝置能穩固地 套設在使用者的指頭上,同時搭配觸控件的設計,使得使 用者可透過觸控件或觸控件來觸控觸控螢幕。再者,環狀 觸控裝置不會因使用者身體移動或指頭晃動而產生鬆脫的 現象,藉此,環狀觸控裝置可準確地偵測使用者的生理訊 號。 【實施方式】 有關本發明之前述及其他技術内容、特點與功效,在 以下配合參考圖式之一個較佳實施例的詳細說明中,將可 清楚的呈現。透過具體實施方式的說明,當可對本發明為 達成預定目的所採取的技術手段及功效得一更加深入且具 體的了解’然而所附圖式只是提供參考與說明之用,並非 用來對本發明加以限制。 在本發明被詳細描述之前,要注意的是,在以下的說 明内容中’類似的元件是以相同的編號來表示。 如圖1及圖2所示,是本發明具有生理訊號擷取功能 的環狀觸控裝置與電子裝置的組合的一較佳實施例,該電 子裝置1為一個人數位助理(PDA),其包含一設置於正面的 觸控螢幕11、一形成於背面用以供該環狀觸控裝置2卡接 的卡槽12,以及一用以接收無線訊號的無線訊號接收器13 8 1355922 • 二二電子裝置1也可為手機或其他類型的手持式電子 I一圖1、圖3及圖4所示’環狀觸控裝置2適於安裝 墓二使用者3的一指頭3〗上,可提供使用者3觸控觸控螢 r狀雜’並能以非侵入式方式伯測使用者3的血氧飽和度, 裝置2可透過無線傳輸的方式將_訊號傳輸至 電子裝置1的無線訊號接收器13,接著,透過電子裝置1 的運算分析後即可得血_值,量測的 控螢幕11上,以即時提供使用者3或醫生參考。 觸 _ 如圖3、圖4及圖5所示,環狀觸控裝置2包含一套件 2。!、一拉伸彈簧22、一量測單元23〇 ,及一無線訊號發射 器25 #件21呈套環狀並界定有一供使用者3的指頭^ 穿設的穿套空間210,套件21可以是如橡膠、矽膠、熱塑 性彈性體或熱固性彈性體等彈性良好的彈性材質所製成, 本實施例是使用橡膠材質,套件21包括一由外表面2ιι向 内凹陷且呈%^的容置槽212,拉伸彈黃22呈環形並套設 於容置槽212内,用以施加彈性力至套件21上。 _ 里測單兀230包括-光發射元件23及—光接收元件24 ,光發射元件23収光接收元件24呈一直線地設置在套 件21上的二相對側,環狀觸控裝置2還包含有一設置於套 件21上用以提供光發射元件23、光接收元件24及無線訊 號孓射器25電力的電池(圖未示),光發射元件Μ可在套件 21内σ卩钇向朝穿套空間210發射一光源訊號,而光接收元 件24可接收通過穿套空間21〇的該光源訊號,在本實施例 中光發射元件23及光接收元件24是透過紅外線傳輸方 式傳輸該光源訊號。 备使用者3將環狀觸控裝置2的套件21套設在指頭31 上時’藉由套件21本身的彈性力以及拉伸彈簧22施加在 套件21上的彈性力,使套件21能穩固地套設在使用者3 的指頭31上’藉此,不論是使用者3身體移動或指頭31 晃動時’套件21皆不會有鬆脫的現象。同時,光發射元件 23發射的入射光源訊號通過使用者3的指頭M時,由於血 紅蛋白在有攜帶氧氣以及無攜帶氧氣的情況下有不同吸收 光線的特質’使得血液的透光度會有所不同,因此,光接 收7L件24接收通過指頭31之透射後的光源訊號也會隨之 變化,其中,光接收元件24所接收之透射後的光源訊號即 為一置測訊號’接著,光接收元件24會藉由一傳輸線20 將該量測訊號傳遞至無線訊號發射器25上,無線訊號發射 器25會將該量測訊號透過無線傳輸的方式傳遞至電子裝置 1的無線訊號接收器13(如圖1),之後,經由電子裝置1運 算分析該量測訊號後即可獲取血氧量測值,且量測的結果 可顯示在觸控螢幕11(如圖1)上,以供使用者3或醫生觀看 。無線訊號發射器25可以是藍芽或紅外線發射器,而無線 訊號接收器13可以是與無線訊號發射器25對應的藍芽或 紅外線接收器,在本實施例中,無線訊號發射器25為一藍 芽發射器’而無線訊號接收器13為一藍芽接收器。 值得一提的是’由於每個使用者的指頭大小粗細不儘 相同,因此’藉由套件21本身的彈性力以及拉伸彈簧22 施加在套件21的彈性力,使得套件21能穩固地套設在不 10 同使用者的指頭上會因使用者的指頭A小粗細不同而 有所影響。另外,本實施例中的環狀觸控裝置2雖以偵測 血氧飽和度為例進行說明,但熟f該項技藝者t知透過 光發射元件23及光接收㈣24對血液測量時所能操取的 生理訊號也可包含有血壓以及血流等其他數據,並不受限 於本實施例所揭露的為限。 另外’ %狀觸控裝置2還包含複數個環設於套件21外 表面的觸控件26、27’觸控件26、27是―體成型於套件 ^上’在本實施例中,觸控件26、27數量是以兩個為例作 »兒明’觸控件26具有-位於末端且呈圓錐形的觸控部26ι ,而觸控件27則具有一位於末端且呈圓弧形的觸控部271 ,由於觸控部26卜271的粗細不同,因此可提供使用者3 依不同的觸控需求來選擇不同的觸控件26、27,例如:如 圖6所示,欲在觸控螢幕丨丨上透過虛擬鍵盤ιη打字時, 可選用觸控件26的圓錐形觸控部261,若欲在觸控螢幕η 上進行手寫書入或玩遊戲時,則可選用觸控件27的圓弧形 觸控部27卜藉此’使得使用者3可藉由觸控件%或觸控 件27來觸控觸控螢幕u,再者,也可透過環狀觸控裝置1 來偵測血氧飽和度。 如圖7所示,環狀觸控裝置2也可設計一電連接於光 接收元件24與電子裝置i的導線28,使得光接收元件24 所接收的量測訊號可透過導線28傳輸至電子裝置丨上,且 電子裝置丨可透過導線28提供光發射元件23與光接收元 件24所需的電源,因此,套件21上即不需設置電池。 1355922 歸納上述,本實施例之環狀觸控裝置2,藉由套件21 由彈性材質所製成,以及搭配拉伸彈簀22的配置,使得環 狀觸控裝置2能穩固地套設在使用者3的指頭31上同時 搭配觸控件26、27的設計,使得使用者3可透過觸控件% 或觸控件27來觸控觸控螢幕丨卜再者,環狀觸控裝置2不 會因使用者3身體移動或指頭31晃動而產生鬆脫的現象, 藉此’環狀觸控裝置2可準確地偵測使❹3的血氧飽和 度故確實能達到本發明所訴求之目的。 惟以上所述者,僅為本發明之較佳實施例而已,當不 能以此限定本發明實施之範圍,即大凡依本發明申請專利 範圍及發明說明内容所作之簡單的等效變化與修飾,皆仍 屬本發明專利涵蓋之範圍内。另外本發明的任一實施例或 申請專利範圍不須達成本發明所揭露之全部目的或優點或 特點。此外,摘要部分和標題僅是用來輔助專利文件搜尋 之用,並非用來限制本發明之權利範圍。 【圖式簡單說明】 圖1是本發明具有生理訊號擷取功能的環狀觸控裝置 與電子裝置的組合的一較佳實施例的前視圖; 圖2是本發明具有生理訊號擷取功能的環狀觸控裝置 與電子裝置的組合的一較佳實施例的後視圖; 圖3是本發明具有生理訊號擷取功能的環狀觸控裝置 與電子裝置的組合的—較佳實施例之環狀觸控裝置的立體 圖; 圖4是本發明具有生理訊號擷取功能的環狀觸控裝置 12 1355922 與電子裝置的組合的一較佳實施例之環狀觸控裝置的使用 示意圖’說明環狀觸控裝置套設於使用者的指頭; 圖5是沿圖3中的直線$ _ 5所取的剖視圖,說明拉伸 彈簧套設於套件的容置槽内; 圖6是本發明具有生理訊號擷取功能的環狀觸控裝置 與電子裝置的組合的一較佳實施例之環狀觸控裝置的使用 示意圖,說明使用者可藉由觸控件觸控觸控營幕;及 圖7是本發明具有生理訊號擷取功能的環狀觸控裝置 與電子裝置的組合的一較佳實施例之另一實施態樣的使用 不意圖,說明環狀觸控裝置與電子裝置之間為有線傳輸方 式。 13 1355922 【主要元件符號說明】 1 ....... •…電子裝置 22........ •拉伸彈簧 11…… •…觸控螢幕 230…… •里測單元 111 ··· 虛擬鍵盤 23........ •光發射元件 12…… •…卡槽 24........ •光接收元件 13…… •…無線訊號接收器 25........ •無線訊號發射器 2 ....... •…環狀觸控裝置 26 ' 27· •觸控件 20…… •…傳輸線 261 ' 271 ••觸控部 21…… •…套件 28........ •導線 210… •…穿套空間 3 ......... •使用者 211… —外表面 31........ •指頭 212… •…容置槽Widely used in personal digital assistants (PDAs), smart phones, etc., in addition to the usual stylus form, there are other forms. For example, the patent of Taiwan Patent No. M32155 (Application No. 962G81G4) discloses a convenient ring-type touch control pen, but it is still limited to the simple touch function. At present, the non-invasive A-oxygen measuring device is used to clamp the end of the user's finger to measure the user's blood oxygen saturation. However, the existing blood oxygen measuring device is easy to clamp. The interference caused by factors such as the movement of the user's body or the shaking of the fingers caused the clamping to be unstable, which in turn caused the measurement results to be affected. For example, the patent of the Taiwan patent 帛洲洲 (中案案号: 942〇71〇2) Non-invasive oximeter revealed in the case. Furthermore, the blood oxygen measuring device is usually electrically connected to an electronic device, so that the measuring (four) fruit is displayed on the electronic device. However, the electronic device usually needs to be operated by a finger press. The action is therefore inconvenient for the user of the device to hold the bloody sentence on the finger. Therefore, 'how to conceive a blood milk or other physiological measuring device which is firmly fixed on the user's car _, the measuring head on the physiology signal, and at the same time only 5 U55922 is designed for the user to operate the two electronic devices.遂 becomes the subject of further improvement of the present invention. [Description of the Invention] - a g jf' is to provide a ring-shaped touch device with a physiological signal capture function, which can be firmly placed on the user's finger to provide a user with a difficult touch screen, and (4) Physiological signals of the user. Another purpose of the month is to provide a combination of a ring-shaped touch device having a physiological signal capture function and an electronic device. The ring-shaped touch device can be stably placed on the user's finger to provide a user touch. Control the screen and detect the user's physiological signals. The object of the present invention and the prior art problem of the present invention is to implement a sensor-like pick-up device with physiological signal extraction function according to the present invention, which is suitable for one finger of a user. The device can be wirelessly communicated with a device. The electronic device includes a wireless signal receiver and a touch screen. The ring touch device comprises a kit, at least one touch device, a measuring unit and a wireless signal transmitter. The kit defines a wearing space for the finger to be worn. The touch component is disposed on the kit for touching the touch screen, and the measuring unit is used for measuring the physiological signal of the finger and generating a measuring signal. The wireless signal transmitter is electrically connected to the measuring unit and used to transmit the measuring signal to the wireless signal receiver, so that the electronic device can perform operation analysis on the measuring signal. The object of the present invention and solving the prior art problems can be further achieved by the following technical means. The above-mentioned ring-shaped touch device with physiological signal acquisition function, the kit is 1355922 rubber or silicone rubber or thermoplastic elastomer or thermosetting elastomer material. The ring-shaped touch device having the physiological signal capturing function can be designed with a plurality of touch elements disposed on the kit, and each of the touch elements includes a touch portion for touching the touch screen, and the touch device is integrally formed on the touch device. In the kit, the touch portion of the touch component has different thicknesses, thereby applying touch requirements on different touch interfaces. The ring-shaped touch device having a physiological signal capturing function, the sleeve is sleeve-shaped and defines a ring-shaped receiving groove, and the ring-shaped touch device further includes a tension spring disposed in the receiving groove. Thereby, an elastic force can be applied to the kit. In the above-mentioned ring-shaped touch device having a physiological signal capturing function, the measuring unit comprises a light emitting component and a light receiving component respectively disposed on the kit, and the light emitting component is used for (4) a set of space (4) and (4) a light source signal. The light receiving component is electrically connected to the wireless signal transmitter and is configured to receive the light source signal passing through the finger to make it a measurement signal. In the above-mentioned ring-shaped touch device with physiological signal acquisition function, the wireless signal transmitter is a Bluetooth or infrared emitter, and the wireless signal receiver is a Bluetooth or infrared receiver. The ring-shaped touch device having the physiological signal capturing function according to the present invention can be electrically connected to an electronic device. The electronic device includes a touch screen, and the % touch device includes a kit, at least one touch member, A measuring unit and a wire. The kit defines a wearing space for the finger to be worn. The touch component is disposed on the kit for touching the touch screen, and the measuring unit is configured to measure the physiological signal of the finger of the 7 1355922 in the wearing space and generate a measuring signal. The wire is electrically connected to the electronic device and the measuring unit for transmitting the measuring signal to the electronic device, so that the electronic device can perform operation analysis on the measuring signal. The ring-shaped touch device of the present invention is made of an elastic material and a configuration of a tension spring, so that the ring-shaped touch device can be stably placed on the user's finger while being matched with the touch device. Designed to allow users to touch the touch screen through touch or touch. Moreover, the ring-shaped touch device does not loosen due to the movement of the user's body or the shaking of the finger, whereby the ring-shaped touch device can accurately detect the physiological signal of the user. The above and other technical contents, features, and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments. Through the description of the specific embodiments, a more in-depth and specific understanding of the technical means and functions of the present invention for achieving the intended purpose is obtained. However, the drawings are only for reference and explanation, and are not intended to be used for the present invention. limit. Before the present invention is described in detail, it is to be noted that in the following description, similar elements are denoted by the same reference numerals. As shown in FIG. 1 and FIG. 2, a preferred embodiment of the combination of the ring touch device and the electronic device having the physiological signal capture function of the present invention is a digital assistant (PDA), which includes a touch screen 11 disposed on the front side, a card slot 12 formed on the back side for latching the ring touch device 2, and a wireless signal receiver for receiving wireless signals 13 8 1355922 • 22 electronic The device 1 can also be used for a mobile phone or other type of handheld electronic device, as shown in FIG. 1, FIG. 3 and FIG. 4, that the 'ring touch device 2 is suitable for installing a finger 3 of the tomb two user 3, and can be provided for use. The touch sensor can detect the oxygen saturation of the user 3 in a non-intrusive manner, and the device 2 can transmit the signal to the wireless signal receiver of the electronic device 1 by wireless transmission. 13, then, through the operation analysis of the electronic device 1, the blood_value can be obtained, and the measurement screen 11 is measured to provide the user 3 or the doctor's reference immediately. Touch _ As shown in FIG. 3, FIG. 4 and FIG. 5, the ring-shaped touch device 2 includes a kit 2. ! a tension spring 22, a measuring unit 23A, and a wireless signal transmitter 25#21 are sleeved and define a wearing space 210 for the fingers of the user 3, and the kit 21 can be The elastic material of the rubber, the silicone rubber, the thermoplastic elastomer or the thermosetting elastomer is made of a rubber material. In this embodiment, the rubber material is used, and the kit 21 includes a receiving groove 212 which is recessed inwardly from the outer surface 2 ι and is in a %. The tensile elastic yellow 22 is annular and sleeved in the receiving groove 212 for applying elastic force to the sleeve 21. The measuring unit 230 includes a light emitting element 23 and a light receiving element 24, and the light receiving element 23 is disposed on the opposite side of the kit 21 in a straight line. The ring touch device 2 further includes a a battery (not shown) provided on the kit 21 for providing power of the light emitting element 23, the light receiving element 24, and the wireless signal transmitter 25, and the light emitting element 卩钇 can be placed in the package 21 The light source 20 transmits a light source signal, and the light receiving element 24 receives the light source signal passing through the through space 21. In the embodiment, the light emitting element 23 and the light receiving element 24 transmit the light source signal through infrared transmission. When the user 3 sets the kit 21 of the ring-shaped touch device 2 on the finger 31, the elastic force of the kit 21 itself and the elastic force exerted on the sleeve 21 by the tension spring 22 enable the kit 21 to be stably The sleeve 31 is placed on the finger 31 of the user 3, whereby the kit 21 will not be loosened even when the user 3 moves or the finger 31 shakes. At the same time, when the incident light source signal emitted by the light-emitting element 23 passes through the finger M of the user 3, the transmittance of the blood may be different due to the different characteristics of hemoglobin in the case of carrying oxygen and without carrying oxygen. Therefore, the light source signal received by the light receiving 7L member 24 through the finger 31 is also changed, wherein the transmitted light source signal received by the light receiving element 24 is a set signal. Then, the light receiving element The measurement signal is transmitted to the wireless signal transmitter 25 by a transmission line 20, and the wireless signal transmitter 25 transmits the measurement signal to the wireless signal receiver 13 of the electronic device 1 by wireless transmission (eg FIG. 1), after which the blood oxygen measurement value is obtained by calculating and analyzing the measurement signal via the electronic device 1, and the measurement result can be displayed on the touch screen 11 (FIG. 1) for the user 3 Or watch it with a doctor. The wireless signal transmitter 25 may be a Bluetooth or infrared transmitter, and the wireless signal receiver 13 may be a Bluetooth or infrared receiver corresponding to the wireless signal transmitter 25. In this embodiment, the wireless signal transmitter 25 is a The Bluetooth transmitter 'and the wireless signal receiver 13 is a Bluetooth receiver. It is worth mentioning that 'because the size of each user's finger is not the same, the elastic force of the kit 21 itself and the elastic force exerted on the sleeve 21 by the tension spring 22 enable the kit 21 to be securely sleeved. It will be affected by the small thickness of the user's finger A on the finger of the user. In addition, although the ring-shaped touch device 2 in the present embodiment is described by taking the detection of blood oxygen saturation as an example, the skilled person knows that the light transmitting element 23 and the light receiving (four) 24 pairs of blood can be measured. The physiological signals to be processed may also include other data such as blood pressure and blood flow, and are not limited to the limits disclosed in the embodiments. In addition, the '%-shaped touch device 2 further includes a plurality of touch elements 26, 27' disposed on the outer surface of the package 21, and the touch elements 26 and 27 are formed on the package. In the embodiment, the touch unit 26, The number of 27 is exemplified by two examples: the touch member 26 has a touch portion 26ι located at the end and having a conical shape, and the touch member 27 has a touch portion 271 at the end and having a circular arc shape. Since the thickness of the touch portion 26 is different, the user 3 can select different touch devices 26 and 27 according to different touch requirements. For example, as shown in FIG. 6, the user wants to pass through the touch screen. When the virtual keyboard is typed, the conical touch portion 261 of the touch member 26 can be selected. If the user wants to write or play a game on the touch screen n, the arc-shaped touch portion 27 of the touch member 27 can be selected. Therefore, the user 3 can touch the touch screen u by the touch unit % or the touch unit 27, and the blood oxygen saturation can also be detected through the ring touch device 1. As shown in FIG. 7 , the ring-shaped touch device 2 can also design a wire 28 electrically connected to the light receiving component 24 and the electronic device i, so that the measurement signal received by the light receiving component 24 can be transmitted to the electronic device through the wire 28 . The electronic device 提供 can provide the power required for the light-emitting element 23 and the light-receiving element 24 through the wire 28, so that no battery is required on the package 21. 1355922 In summary, the ring-shaped touch device 2 of the present embodiment is made of an elastic material by the kit 21 and the configuration of the tension magazine 22, so that the ring-shaped touch device 2 can be stably set in use. The design of the finger 31 on the finger 31 is simultaneously matched with the touch elements 26 and 27, so that the user 3 can touch the touch screen through the touch part % or the touch part 27, and the ring touch device 2 is not used. The movement of the body 3 or the movement of the finger 31 causes looseness, whereby the 'ring touch device 2 can accurately detect the blood oxygen saturation of the crucible 3, so that the object of the present invention can be achieved. The above is only the preferred embodiment of the present invention, and the scope of the invention is not limited thereto, that is, the simple equivalent changes and modifications made by the scope of the invention and the description of the invention are All remain within the scope of the invention patent. In addition, any of the objects or advantages or features of the present invention are not required to be achieved by any embodiment or application of the invention. In addition, the abstract sections and headings are only used to assist in the search of patent documents and are not intended to limit the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a preferred embodiment of a combination of an annular touch device and an electronic device having a physiological signal capture function according to the present invention; FIG. 2 is a physiological signal capture function of the present invention. 3 is a rear view of a preferred embodiment of a combination of an annular touch device and an electronic device; FIG. 3 is a combination of a ring touch device having a physiological signal capture function and an electronic device of the present invention. FIG. 4 is a perspective view showing the use of the ring-shaped touch device of a preferred embodiment of the combination of the ring-shaped touch device 12 1355922 having the physiological signal capturing function and the electronic device. The touch device is sleeved on the user's finger; FIG. 5 is a cross-sectional view taken along the line $ _ 5 in FIG. 3, illustrating that the tension spring is sleeved in the receiving groove of the kit; FIG. 6 is a physiological signal of the present invention; A schematic diagram of the use of the ring-shaped touch device of a preferred embodiment of the combination of the function of the ring-shaped touch device and the electronic device, illustrating that the user can touch the touch screen by the touch device; and FIG. 7 is Invention has life Another embodiment of a preferred embodiment of the combination of the ring-shaped touch device and the electronic device of the signal-receiving function is not intended to illustrate a wired transmission between the ring-shaped touch device and the electronic device. 13 1355922 [Explanation of main component symbols] 1 ....... •...Electronic device 22........ • Stretching spring 11... •...Touch screen 230... •Limming unit 111 · ·· Virtual keyboard 23........ • Light-emitting element 12... •... Card slot 24........ • Light-receiving element 13... •...Wireless signal receiver 25... ..... • Wireless signal transmitter 2 ....... •... ring touch device 26 ' 27 · • touch device 20 ... • ... transmission line 261 ' 271 • • touch unit 21... ...kit 28........ • Wire 210... •...Wearing space 3 ......... • User 211... - Outer surface 31........ • Finger 212 ... •... accommodating slot
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