M360058 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種運動系統及感測裝置,尤其關於— 種具有生理資訊感測裝置之運動系統,以及可用於運動裝 置之生理資訊感測裝置。 【先前技術】M360058 V. New description: [New technical field] This is a motion system and sensing device, especially for a motion system with physiological information sensing device, and a physiological information sensing device that can be used for a motion device . [Prior Art]
隨著科技的發展,人類的生活品質也隨之改善,在滿 足生活基本需求之外,也越來越重視個人健康管理。為了 掌握目前自我的健康狀態’除了定期在醫院進行健康檢杳 外,若在平常能從事規律的運動,且透過記錄運動狀 更能確保自我的健康。 / 美國運動醫學學會(American College 〇f SportsWith the development of science and technology, the quality of human life has also improved. In addition to meeting the basic needs of life, more and more attention has been paid to personal health management. In order to grasp the current state of health of the self, in addition to regularly performing health checkups in hospitals, it is better to be able to perform regular exercise and to ensure self-health by recording exercise. / American College of Sports Medicine (American College 〇f Sports
Medicme,ACSM)曾提出,透過心肺耐力以及肌肉重量的交 互訓練,能在最短時間内達到最有效的運動效果。= 習用的健衫材中,大多將「心肺耐力詞練」以及Λ 重量訓練」以不同健身器材分開訓練,而不同健 Α 量測數據_以整合,使得㈣者_全面財握運動= 欠…、、而,先刚技術之肌肉重量訓練機通常無心跳 貝訊。此外’使用者之施力數據多以間接 預設-般人往復施力—次所㈣力量,再龄$走例如 力次數當作使用者之總施力。然而,每個人的施 的施力皆不盡同,因此利用推算方式所獲得之施力數= 3 M360058 不精確Medicme (ACSM) has suggested that the most effective exercise results can be achieved in the shortest time through the interaction training of cardio endurance and muscle weight. = Most of the used health-care shirts are trained separately by different fitness equipments, and different fitness data are measured. And, the muscle weight training machine of the first technology usually has no heartbeat. In addition, the user's force data is mostly indirectly pre-set by the average person's reciprocating force--the fourth (fourth) power, and the age of the person, such as the number of times, is used as the total force of the user. However, each person's exertion is not the same, so the amount of force obtained by the calculation method = 3 M360058 is not accurate
Cell),月^各種運動®測實驗室所使用的荷重元(Load 治具’;得= 結構來設計專用的安裝 之應用。 蜗<成本提高,因此並不適合商業上 絲,以I必要提供一種具有生理資訊感測裝置之運動系 #用去及可用於運動I置之生理資訊感測裝置,其可量測 使用者於運動時之各 ΒΕ 裡玍理數值,以改善先前技術所存在 的問5¾¾。 【新型内容】 、軍動作之目的係在提供—種具有生理資訊感測裝置之 運動ί統,供使用者於運㈣麟各種生理數值。 創作之另-目的係在提供—種可用於運動裝置之施 力部之生理資訊感測裝置。Cell), month ^ various sports ® test laboratory used load cell (Load fixture '; get = structure to design a dedicated installation application. Worm < cost increase, so it is not suitable for commercial silk, I must provide A physiological information sensing device with a physiological information sensing device and a physiological information sensing device that can be used for motion I, which can measure the user's various values during exercise to improve the prior art. Question 53⁄43⁄4. [New content] The purpose of the military action is to provide a kind of movement with a physiological information sensing device for users to use (four) Lin various physiological values. The creation of the other - the purpose is to provide - available A physiological information sensing device for the force applying portion of the exercise device.
為達成上述之目的,本創作之運動系統包括主體、至 少一施力部、生理資訊感測裝置、處理單元與傳輸模組。 其中’施力部係連接於主體並可提供使用者施力;生理資 訊感測裝置包括至少一可撓式壓力感測模組與心跳感測單 元,其中至少一片狀壓力感測模組分別連接於施力部’當 使用者往復施力於施力部時’可撓式壓力感測模組<感滅 使用者所施加之力量並產生壓力量測資訊;心跳感測單元 可測得心跳量測資訊;處理單元與生理資訊感測裝置電性 連接,處理單元處理壓力量測資訊與心跳量測資訊以產生 4 M360058 輸出資訊;以及傳輸模組與處理單元電性連接,傳輸模組 -可傳輸處理單元所產生之輸出資訊。 為達成上述之另一目的,本創作之生理資訊感測裝置 包括可撓式壓力感測模組、心跳感測單元與傳輸模組。其 中’可挽式壓力感測模組係可包覆施力部,當使用者施力 於施力部時’可撓式壓力感測模組可產生壓力量測資訊, 其中可換式壓力感測模組包括複數微型力量感測單元;心 跳感測單元係連接可撓式壓力感測模組,當使用者接觸心 •跳感測單元時’心跳感測單元可產生心跳量測資訊;以及 傳輸模組係與可撓式壓力感測模組電性連接,傳輸模組可 將壓力量測資訊與心跳量測資訊輸出。 由於本創作構造新穎,能提供產業上利用,且確有增進 功效,故依法申請新型專利。 【實施方式】 為此更瞭解本創作之技術内容,特舉較佳具體實施例 說明如下。 ’请一併參考圖1與圖2。圖1係關於本創作運動系統之實 施例之外觀示意_,圖2係關於本創作運動系統之架構圖。 本創作之運動系統1包括主體10、至少-施力部20、生理資 訊感測裝置2、處理單元4〇、傳輸模組5〇、身份辨識模組8〇、 記憶裝置110與輪出裝置12〇。 、主體10係為各種重量訓練機之主要機械結構,舉例來 說:其可由施力部、油壓/氣壓紅、連動桿、滾輪及/或槓 片等所、.且成。施力部20係連接於主體1〇。於本實施例中, 運動系統1為手部重量訓練機(如圖1所示之划船機),因此 5 M360058 施力部20係為手部施力部’且施力部20之數量為兩個,係 可分別提供使用者之雙手施力操作。 接著請一併參考圖3與圖4 ’圖3係關於本創作之生理資 訊感測裝置之示意圖,圖4係關於本創作之生理資訊感測裝 置之操作示意圖。生理資訊感測裝置2係包覆施力部20之至 少一部份,其用以直接感測使用者之運動狀況。於本實施 例中,生理資訊感測裝置2係可分離地連接運動系統1之施 力部 20、20a。 ❿ 惟須注意的是’生理資訊感測裝置2除了設置於本創作 之運動系統1之外,生理資訊感測裝置2亦可單獨應用於其 他各種運動器材或裝置上,使其增加感測各種生理資訊之 功能。舉例來說,生理資訊感測裝置2可設置於各式運動器 材之施力部上,或者亦可包覆於高爾夫球桿、網球拍、羽 毛球拍等裝置之施力握把上。 於本實施例中,生理資訊感測裝置2包括可撓式壓力感 測模組30、心跳感測單元60與體溫感測單元70,其中可撓 • 式壓力感測模組30、心跳感測單元60與體溫感測單元70可 分別產生壓力量測資訊、心跳感測資訊與體溫感測資訊。 可換式壓力感測模組30(flexible pressure sensor module)可獲得壓力量測資訊。於本實施例中,可撓式壓力 感測模組30係呈片狀,其係軟性基板上分散設置複數微型 力量感測單元301 (thin-film pressure sensors or micro pressure sensor units),可依照使用者所欲獲得量測資 訊的精細度而調整微型力量感測單元301分佈的密集度。其 ' 中,微型力量感測單元301的力量量測原理可區分為壓電感 6 M360058 測、電阻感測、電容感測或電感感測等方式,亦即微型力 量感測單元301包括壓電感測元件、電阻感測元件、電容感 測元件及/或電感感測元件等。當經由外力(例如使用者施 力)來改變微型力量感測單元301的狀態(例如結構形狀) 時,即可同時改變上述的感測物理量。由於微型力量感測 單元301係屬習知技術,因此不再贅述其他細部結構與原 理。 惟須注意的是,可撓式壓力感測模組30之結構不限於 _ 上述,可撓式壓力感測模組30亦可不使用微型力量感測單 元301,而使用其他型式之壓電感測、電阻感測、電容感測 或電感感測等方式達成量測壓力之目的。舉例來說,可撓 式壓力感測模組可包括習用之壓力計(pressure sensor)、應變計(strain gauge)等。 於本實施例中,可撓式壓力感測模組30之數量為兩 個,且分別連接於兩個施力部20,當使用者的雙手分別施 加壓力於施力部20時(如圖4所示),可撓式壓力感測模組30 φ 可直接感測雙手所施加之壓力。其中,量測資訊係為尚未 經過訊號處理之電子訊號。惟須注意的是,生理資訊感測 裝置2所包括之各種感測單元(如本實施例之心跳感測單元 60與體溫感測單元70)皆分別產生量測資訊。 處理單元40係與生理資訊感測裝置2電性連接,處理單 元4 0係處理由生理資訊感測裝置2所獲得之各種量測資訊 (例如壓力、體溫、脈搏等資訊),透過各式量測電路的組 合以及數值校正後,進而產生輸出資訊。舉例來說,處理 • 單元40可進行訊號放大、雜訊濾波、資訊分析等。因此, 7 M360058 可撓式壓力感測模組30所測得之「量測資訊」經由處理單 7〇40進一步處理與分析後產生「輸出資訊」。 另外,虽使用者對施力部2〇進行往復施力時,會產生具 有週期性的壓力數值,處理單元4()可藉由可撓式壓力感測 模組30所得知週期性壓力數值以產生施力次數資訊。 ::模組50與處理單元4〇電性連接,傳輸模組5〇可傳 ==訊’本實施例中’傳輸模组㈣括無線傳輸模 =處理單元4〇所產生之輸出資訊以無線方式傳 隼梦晉;:科搜集裝置(圖未示)’舉例來說’外部資料搜 主機、手機或PM裝置等。惟須注意的是, 傳二模组*綠限於上述’傳輸模組⑽亦可包括其他如1^ 專輸:組、有線區域網路模組 50以有線傳輸方式傳遞資㈣二輯說β傳輸核、,且 與輸出接頭等元件。 傳輸模組5G可包括訊號線 於本實施例中,虚理凿-Μ 體_,惟處理單元4。與;二:傳輪模組_設置於主 此。舉例來說,處理單元專組50之設置位置並不限於 訊感測裝置2内部,或者声ΐ傳輸模組50可設置於生理資 於施力部20内。 处理早元4〇或傳輸模組50亦可設置 或輸出!訊,以供^暫^夺儲存或永久儲存各種量測資訊及/ 憶裝置_可^^_用:簿嫩:記 系統1無須儲存資料時,、重置。另須注意的是,右運動 110。 連動系統1亦可不包括記憶裝置 8 M360058 輸出裝置120可接收傳輪模組50所傳送之各種輸出資 訊以輸出生理資訊感測裝置2所測得之量測資訊。舉例來 說,輸出襞置120可為點矩陣式顯示器(如圖1所示)、七段 顯示器、液晶螢幕、擴音裝置、列印裝置等。 心跳量測資訊係由心跳感測單元6〇所獲得。於本實施 例中,心跳感測單元60係連接於可撓式壓力感測模組3〇, 以提供使用者在施力於施力部2〇之運動過程中,可同時透 過心跳感測單元60量測使用者在運動時的心跳次數。舉例 • 來說,心跳感測單元60可為心電脈衝訊號感測單元或遠紅 外線感測單元。另外,當發現使用者的心跳頻率異常時(例 如過高或過低),可藉由輸出装置120以畫面顯示或其他警 示方式(例如警報聲或閃光等)提醒使用者。 體溫量測資訊係由體溫感測單元70所獲得。於本實施 例中,體溫感測單元係連接於可撓式壓力感測模組30, 以提供使用者在施力於施力部20之運動過程中,可同時透 過體溫感測單元70對使用者進行體溫偵測。另外,當發現 φ 使用者之體溫過高或過低時,可透過輸出裝置120以畫面顯 示或其他警示方式提醒使用者。 惟須注意的是,生理資訊感測裝置2之構成並不限於上 述。舉例來說,生理資訊感測裝置2可以僅包括可撓式壓力 生理資訊感測裝置30與心跳感測單元60,或者生理資訊感 測裝置2可更包括其他感測單元(例如心電圖感測器、血氧 濃度感測器等),以獲得更多生醫數值,以達到精確得知使 用者之運動情形。各種量測資訊(例如本實施例之壓力量測 9 M360058 資訊、心跳量測資訊與體溫量測資訊)皆傳遞至處理單元4 Ο 以產生輸出資訊。 而當運動系統1設置於開放性的場所時(例如健身中 心),由於運動系統1係多人共用,因此必須以身份辨識模 組80辨識使用者的身份。舉例來說,其可藉由紅外線感測、 RFID等方式讀取使用者持有之識別卡片,或者使用者輸入 帳號、密碼等資訊以進行登入。藉由身份辨識便可針對不 同使用者之操作資訊作個人化之統整紀錄,並建立個人長 φ 期運動狀態的個人運動資料。舉例來說,該個人運動資料 可儲存於插卡式記憶裝置,供使用者隨身攜帶與保存。 最後請參考圖5,係關於本創作之運動系統之另一實施 例之外觀示意圖。運動系統la主要包括主體10a、施力部 20a、生理資訊感測裝置2、處理單元40與傳輸模組50。本 實施例之運動系統la係為腿部重量訓練機,因此施力部20a 係為腿部施力部,且施力部20a的數量為一個。其中,生理 資訊感測裝置2、處理單元4 0與傳輸模組5 0之構成相同於前 鲁 述,因此不再贅述。 惟須注意的是,本創作之運動系統1與生理資訊感測裝 置2並非僅適用於手部或腿部之重量訓練裝置或系統,其 亦可應用於其他之重量訓練裝置或系統。舉例來說,本創 作之運動系統亦可為以鍛鍊腹肌、背肌為目的之重量訓練 機,或者可為復健訓練機等。綜上所陳,本創作無論就目 的、手段及功能,在在均顯示其迥異於習知技術之特徵。 惟需注意,上述實施例僅為例示性說明本創作之原理及其 M360058 功效,而非用於限制本創作之範圍。任何熟於此項技藝之 人士均可在不違背本創作之技術員理及精神下,對實施例 作修改或變化。本創作權利保護範圍應如後述之申請專利 範圍所述。 【圖式簡單說明】 圖1係關於本創作運動系統之實施例之外觀示意圖。 • 圖2係關於本創作運動系統之架構圖。 圖3係關於本創作之生理資訊感測裝置之示意圖。 圖4係關於本創作之生理資訊感測裝置之操作示意圖。 圖5係關於本創作運動系統之另一實施例之外觀示意圖。 【主要元件符號說明】 主體10、10a 生理資訊感測裝置2 處理單元40 微型力量感測單元301 身份辨識模組80 無線傳輸模組90 運動系統1、1 a 施力部20、20aIn order to achieve the above objectives, the motion system of the present invention comprises a main body, at least one force applying unit, a physiological information sensing device, a processing unit and a transmission module. Wherein the 'forced portion is connected to the main body and can provide a user's force; the physiological information sensing device comprises at least one flexible pressure sensing module and a heartbeat sensing unit, wherein at least one piece of pressure sensing module respectively Connected to the urging portion 'when the user reciprocates the force applied to the urging portion', the flexible pressure sensing module < senses the force exerted by the user and generates pressure measurement information; the heartbeat sensing unit can measure Heartbeat measurement information; the processing unit is electrically connected to the physiological information sensing device, the processing unit processes the pressure measurement information and the heartbeat measurement information to generate 4 M360058 output information; and the transmission module is electrically connected to the processing unit, and the transmission module - The output information generated by the processing unit can be transmitted. To achieve the above other objects, the physiological information sensing device of the present invention comprises a flexible pressure sensing module, a heartbeat sensing unit and a transmission module. The 'pullable pressure sensing module can cover the force applying part. When the user applies force to the force applying part, the flexible pressure sensing module can generate pressure measurement information, wherein the pressure can be changed. The measurement module includes a plurality of micro force sensing units; the heartbeat sensing unit is coupled to the flexible pressure sensing module, and the heartbeat sensing unit can generate heartbeat measurement information when the user contacts the heartbeat sensing unit; The transmission module is electrically connected to the flexible pressure sensing module, and the transmission module can output pressure measurement information and heartbeat measurement information. Due to the novel structure of this creation, it can provide industrial use, and it has improved efficiency. Therefore, it applies for a new type of patent according to law. [Embodiment] For better understanding of the technical contents of the present creation, a preferred embodiment will be described below. Please refer to Figure 1 and Figure 2 together. Fig. 1 is a schematic representation of an embodiment of the present creative motion system, and Fig. 2 is an architectural diagram of the present creative motion system. The motion system 1 of the present invention includes a main body 10, at least a urging portion 20, a physiological information sensing device 2, a processing unit 4A, a transmission module 5A, an identification module 8A, a memory device 110, and a wheeling device 12. Hey. The main body 10 is a main mechanical structure of various weight training machines. For example, it can be composed of a force applying portion, a hydraulic pressure/pressure red, a linkage rod, a roller, and/or a lever. The urging portion 20 is connected to the main body 1〇. In the present embodiment, the exercise system 1 is a hand weight training machine (such as the rowing machine shown in FIG. 1), so the 5 M360058 urging portion 20 is the hand urging portion' and the number of the urging portions 20 is two. The system can provide the user's hands to force the operation. Next, please refer to FIG. 3 and FIG. 4'. FIG. 3 is a schematic diagram of the physiological information sensing device of the present invention, and FIG. 4 is a schematic diagram of the operation of the physiological information sensing device of the present invention. The physiological information sensing device 2 covers at least a portion of the force applying portion 20 for directly sensing the motion state of the user. In the present embodiment, the physiological information sensing device 2 is detachably coupled to the urging portions 20, 20a of the motion system 1.惟 However, it should be noted that the physiological information sensing device 2 can be separately applied to other various sports equipments or devices in addition to the motion system 1 of the present invention, so as to increase the sensing variety. The function of physiological information. For example, the physiological information sensing device 2 may be disposed on the force applying portion of each type of moving material, or may be applied to the force applying grip of a golf club, a tennis racket, a feather racquet or the like. In the embodiment, the physiological information sensing device 2 includes a flexible pressure sensing module 30, a heartbeat sensing unit 60 and a body temperature sensing unit 70, wherein the flexible pressure sensing module 30 and the heartbeat sensing The unit 60 and the body temperature sensing unit 70 can generate pressure measurement information, heartbeat sensing information, and body temperature sensing information, respectively. The pressure measurement information can be obtained by the flexible pressure sensor module 30. In the present embodiment, the flexible pressure sensing module 30 is in the form of a sheet, and the thin-film pressure sensors or micro pressure sensor units are disposed on the flexible substrate. The density of the distribution of the micro-force sensing unit 301 is adjusted to obtain the fineness of the measurement information. The power measurement principle of the miniature force sensing unit 301 can be divided into a pressure inductor 6 M360058 measurement, a resistance sensing, a capacitive sensing or an inductive sensing, that is, the micro force sensing unit 301 includes a piezoelectric device. Sensing element, resistance sensing element, capacitive sensing element and/or inductive sensing element, and the like. When the state (e.g., structural shape) of the micro force sensing unit 301 is changed by an external force (e.g., a user's force), the above-described sensing physical quantity can be simultaneously changed. Since the miniature force sensing unit 301 is a conventional technique, other detailed structures and principles will not be described again. It should be noted that the structure of the flexible pressure sensing module 30 is not limited to the above. The flexible pressure sensing module 30 can also use other types of pressure sensing without using the micro force sensing unit 301. , resistance sensing, capacitive sensing or inductive sensing to achieve the purpose of measuring pressure. For example, the flexible pressure sensing module can include a conventional pressure sensor, strain gauge, and the like. In this embodiment, the number of the flexible pressure sensing modules 30 is two, and is respectively connected to the two urging portions 20, when the user's hands respectively apply pressure to the urging portion 20 (as shown in the figure). 4)), the flexible pressure sensing module 30 φ can directly sense the pressure exerted by the hands. Among them, the measurement information is an electronic signal that has not been processed by the signal. It should be noted that the various sensing units included in the physiological information sensing device 2 (such as the heartbeat sensing unit 60 and the body temperature sensing unit 70 of the present embodiment) respectively generate measurement information. The processing unit 40 is electrically connected to the physiological information sensing device 2, and the processing unit 40 processes various kinds of measurement information (such as pressure, body temperature, pulse, etc.) obtained by the physiological information sensing device 2, and transmits various quantities. After the combination of the measurement circuit and the numerical correction, the output information is generated. For example, the processing unit 40 can perform signal amplification, noise filtering, information analysis, and the like. Therefore, the "measurement information" measured by the 7 M360058 flexible pressure sensing module 30 is further processed and analyzed by the processing unit 7 to generate "output information". In addition, when the user applies a reciprocating force to the urging portion 2, a periodic pressure value is generated, and the processing unit 4() can know the periodic pressure value by the flexible pressure sensing module 30. Generate information on the number of times of force. The module 50 is electrically connected to the processing unit 4, and the transmission module 5 can transmit == message. In the present embodiment, the transmission module (4) includes the wireless transmission mode = the output information generated by the processing unit 4 is wireless. Ways to pass the dream Jin;: Branch collection device (not shown) 'for example, 'external data search host, mobile phone or PM device. However, it should be noted that the transmission module 2 green is limited to the above-mentioned 'transport module (10), and may include other components such as 1^ dedicated transmission group, wired local area network module 50 to transmit data by means of wired transmission (4) Nuclear, and with components such as output connectors. The transmission module 5G may include a signal line in the present embodiment, a virtual processing unit, but a processing unit 4. And; two: the transmission module _ set in the main. For example, the setting position of the processing unit group 50 is not limited to the inside of the sensing device 2, or the sonar transmission module 50 may be disposed in the physiologically-applied portion 20. Processing the early element 4 or the transmission module 50 can also set or output the message for the temporary storage or permanent storage of various measurement information and / / memory device _ can be used ^ ^ _ use: book tender: record system 1 is not required When saving data, reset it. It should also be noted that the right movement is 110. The linkage system 1 may also not include the memory device. The M360058 output device 120 can receive various output signals transmitted by the transmission module 50 to output the measurement information measured by the physiological information sensing device 2. For example, the output device 120 can be a dot matrix display (as shown in FIG. 1), a seven-segment display, a liquid crystal display, a sound amplifying device, a printing device, and the like. The heartbeat measurement information is obtained by the heartbeat sensing unit 6〇. In the present embodiment, the heartbeat sensing unit 60 is connected to the flexible pressure sensing module 3〇 to provide a user through the heartbeat sensing unit during the movement of the force applying portion 2〇. 60 measures the number of heartbeats of the user during exercise. For example, the heartbeat sensing unit 60 can be an electrocardiographic pulse signal sensing unit or a far infrared sensing unit. In addition, when the user's heartbeat frequency is found to be abnormal (e.g., too high or too low), the user can be alerted by the output device 120 in a screen display or other warning manner (e.g., an alarm sound or a flash, etc.). The body temperature measurement information is obtained by the body temperature sensing unit 70. In the present embodiment, the body temperature sensing unit is coupled to the flexible pressure sensing module 30 to provide the user with the body temperature sensing unit 70 for use during the movement of the force applying portion 20. Perform body temperature detection. In addition, when it is found that the body temperature of the user is too high or too low, the user can be reminded by the output device 120 by screen display or other warning means. It is to be noted that the constitution of the physiological information sensing device 2 is not limited to the above. For example, the physiological information sensing device 2 may include only the flexible pressure physiological information sensing device 30 and the heartbeat sensing unit 60, or the physiological information sensing device 2 may further include other sensing units (such as an electrocardiogram sensor). , blood oxygen concentration sensor, etc.), to obtain more biomedical values, in order to accurately know the user's movement. Various measurement information (such as pressure measurement 9 M360058 information, heartbeat measurement information and body temperature measurement information in this embodiment) are transmitted to the processing unit 4 to generate output information. When the exercise system 1 is installed in an open place (for example, a fitness center), since the exercise system 1 is shared by a plurality of people, the identity of the user must be recognized by the identification module 80. For example, it can read the identification card held by the user by means of infrared sensing, RFID, or the like, or the user inputs information such as an account number and a password to log in. Through identification, personalization records can be made for different users' operational information, and individual sports data of personal long-term exercise status can be established. For example, the personal athletic data can be stored in a card-type memory device for the user to carry and store with him or her. Finally, please refer to Fig. 5, which is a schematic view of the appearance of another embodiment of the motion system of the present invention. The motion system la mainly includes a main body 10a, a urging portion 20a, a physiological information sensing device 2, a processing unit 40, and a transmission module 50. Since the exercise system 1a of the present embodiment is a leg weight training machine, the urging portion 20a is a leg urging portion, and the number of urging portions 20a is one. The configuration of the physiological information sensing device 2, the processing unit 40, and the transmission module 50 is the same as that described above, and therefore will not be described again. It should be noted that the motion system 1 and the physiological information sensing device 2 of the present invention are not only applicable to the weight training device or system of the hand or the leg, but can also be applied to other weight training devices or systems. For example, the exercise system of the present invention may be a weight training machine for the purpose of exercising abdominal muscles and back muscles, or may be a rehabilitation training machine. To sum up, this creation, in terms of its purpose, means and function, shows its characteristics different from conventional technology. It should be noted that the above embodiments are merely illustrative of the principles of the present invention and its M360058 functions, and are not intended to limit the scope of the present invention. Anyone skilled in the art can make modifications or changes to the embodiment without departing from the skill of the artist. The scope of protection of this Creative Rights shall be as described in the scope of the patent application described later. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the appearance of an embodiment of the present motion system. • Figure 2 is an architectural diagram of the creative motion system. Figure 3 is a schematic diagram of a physiological information sensing device of the present invention. Fig. 4 is a schematic view showing the operation of the physiological information sensing device of the present invention. Fig. 5 is a schematic view showing the appearance of another embodiment of the present creation exercise system. [Main component symbol description] Main body 10, 10a Physiological information sensing device 2 Processing unit 40 Micro force sensing unit 301 Identification module 80 Wireless transmission module 90 Motion system 1, 1 a Applying unit 20, 20a
可撓式壓力感測模組30 傳輸模組50 心跳感測單元60 體溫感測單元70 記憶裝置110輸出裝置120 11Flexible pressure sensing module 30 transmission module 50 heartbeat sensing unit 60 body temperature sensing unit 70 memory device 110 output device 120 11