M405566 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種感測系統(SensorSystem),且特別 是有關於一種可更換感測元件的感測系統。 【先前技術】 習知的可攜式感測裝置一般包括感測部、顯示部以及微處 理器。其中,感測部具有一感測元件,用於感測待測物的物理 或化學參數資料。微處理器設於感測部與顯示部其中之一内, 用於對獲得的物理或化學參數資料進行分析處理。顯示部具有 顯示幕,用於顯示分析的結果,即待測物的物理或化學彖 數。亡述感測裝置工作時,只需將感測元件接觸待測物,^可 在顯示幕上看到感測的結果,使用起來較為方便。 、然而,上述感測裝置中,感測部與顯示部為一體設置,即 感測部與顯示部科拆卸’從而導致感職置的魏受限於感 ’則兀件的麵,使賊職置可喊酬的物理或化學袁數比 可感測單—種類。對於需要同時感測多種“物理 ^匕干參數的場合,則需要攜帶多種不同的感職置,這樣會 =所需攜帶感測裝置的成本、體積和重量,給感測工 【新型内容】 $作提供—種感啦統,其藉由—無線傳輪模組將感測 (ensor Μο她)感測的訊息傳輸至可攜式電子穿 (PcmableE丨ectromcDevice)上,使得上述感測系統可方便用 M405566 於感測多種不同的物理或化學參數。 提供-種制㈣,其包括可携式電子裝置、感測 杈組及無線傳減組。感_組具有第—連接部,其適 待測物的物理或化學參數賴,並產生對餘l統學資料的 數位訊^無線傳輸模組包括第二連接部、訊號職單元與訊 號發射單元。第二連接料於與第—連接部相連接,且第—連 ,部與k連接部之連接介聽可插拔之連接介面。訊號轉換 單兀分別與第4接部及訊號發射單元相連,㈣於將數位訊 號轉換成第·^號並將第二訊號藉由訊號發射單元傳輸 攜式電子裂置。 在上述感測系統中,感測模組可藉由無線傳輸模組將感測 的訊息傳輸至可攜式電子裝置,使得本創作^ ^ _統在需要 同時感測多種不同物理或化學參數的情況下,僅需攜帶—可禆 式電子元件、一無線傳輸模組和多個感測模組即可,減少了所 需攜帶電子裝置的成本、體積和重量,便於感測工作的频利進 行。 ^為讓本創作之上述和其他目的、特徵和優點能更明顯易 懂,下文特舉較佳實施例,並配合所附圖式,作詳細說明如下。 【實施方式】 圖1繪示為本創作實施例之一的感測系統的分解示意 圖。圖2繪示為圖1所示感測系統的組裝示意圖。請參照圖1 與圖2,本實施例的感測系統100包括一感測元件11〇、一無 線傳輸模組130以及一可攜式電子裝置15〇。感測模組u〇具 有第一連接部111。感測模組110用於感測一待測物(圖未示) 的物理或化學參數資料,並產生一對應該物理或化學資料的數 M405566 位訊號。無線傳輸模、组13〇包括第二連料i3i、訊 凡133與訊號發射單幻35。第二連接部! ^接 ⑶相連接’且第二連接部131與第—連接部“$ 係可插技之連接介面。訊_換單元133分別與第二連接 131及訊號發射單元135相連。訊號轉換單元m μ感Ϊ模 組生的數位訊號轉換成第二訊號。而第二訊號射由訊 號發射早7G 135傳輸至可攜式電子裝置丨5〇進行處理。 。口感測模組11〇還可具有一感測元件113以及一類比數位轉 換器115。錢元件113肖域測制物的物理或化學來 料,並產生針對上述物理或化學參數資料的類比訊號。上述的 類比訊號可以是微f壓訊號或微電流訊號。這些微電壓訊號或 微電流的類比訊親過類比數位轉換器115轉換成數位訊號。 待測物可為液體、氣體或固體。感測模組UG的種類及其 所感測的物理或化學參數可根據感取件113的不同而有所 變化。本實酬中’制模組11G例如為化學感·、離子感 測器、氣體感測H等,或者為血糖感職、血氧感測器和展素 感測器等生化感·,但不限於此。與感測模組11G的種類相 對應,感測元件113感剩的物理或化學參數例如為待测物的 化學成分、藥水濃度、離子成分(I〇nC〇mp〇siti〇n)、離子濃 度、氣體成分(Gas Composition )、氣體濃度(Gas C(^centrati〇n)、氣體濕度(Gas Humidity)、氣體壓力、血 糖濃度(Blood Glucose C0ncentration)、血氧飽和度(B1〇〇d OxygeiiSaUmUiun)、蛋白質含量(Pr〇teinc〇mem)等。 無線傳輸模組130可藉由第二連接部131及第一連接部 131配合與感測模組11〇相連,並藉由訊號轉換單元將减 測模組110感測所得的數位訊號轉換成第二訊號,然後再藉由 M405566 • . 訊號發射單元 150 χ π干…羽乐一讯琨煞踝傳輸至可攜式電子裝置 -一詳細來說,感測模組110感測所得的數位訊號可轉換為 滿足通用序列匯流排(Universal Serial BUS,USB)傳輸標準 之訊號,ϋ時第二連接部131與第一連接部ηι形成之可插拔 之連接介面可為介面,例如第二連接部131可為哪插 口、’而第-連接部⑴可為USB插頭,但本創作不限於此。 而為使第二訊號可被無線傳輸,此第二訊號可為滿足 傳輸標準、藍轉輸標準、無線㈣傳輸鮮或紅外線 準之訊號。此外,訊_解元133可為訊__體電路: 可攜式電子裝置150例如為筆記本電腦、行動網絡設備、 行動電話或個人數㈣理,但本創作並不限於此 施例中,可攜式電子裝置150包括一接收單元⑸、 兀152、-存儲單元153以及一顯示單元154。存儲單元⑸ 可儲存-_上的m些程式係分卿 no。處理單元152處_由触單元⑸餘的來 射輸的數位訊號,_據此數位訊號來選擇存 ?式’以藉由選用的程式分析由感測模= 154將處理早兀152分析的結果顯示出來。 早το 上述實施财,由於感測模組11〇 r,攜帶;===:=的 和多個感測模組110即可,減小 …、等輸杈組130 重量,便於感測X作賴‘。“U電子裝置的體積和 而且,由於在需要同時感測多種不同物理或化學參數的情 7 M405566 況下使'本創作的m统·,僅f攜帶—可攜式電子裝置 無線傳輪模組130和多個感測模組110,因此減少了 需要鱗貝多個不同感測系統1GG造成的成本浪費,降低了感測 成本。 -〜“ ,3繪示為本創作另一實施例的感測系統的分解示意 圖。請參閱圖3 ’本實施例的感測系統與感測系統100: 似,其不同點在於感測系統2〇〇還包括電源元件27〇。 件270例何包括電池或者具有與外部電源連接之結構。電源 =件=〇可設置於無線傳輸模組23〇上,並可分別與訊號轉換 :兀233及訊號發射單A况電性連接,用以分別為訊號轉換 2早7〇兀#1 及訊號發射單元235提供電力。進—步,電源元件 27匕退可與弟二連接部231電性連接,用以在第一連接部扣 f第二連接部231接合時,為感測模組220提供所需之電力, 從而進一步方便感測系統200之使用。 綜上所述,在本創作之實施例的感測系統具有 中之一的優點: 1"^、 藉由無線傳輸模組__訊息傳輸 :種::物理·學參數的情況下’僅需攜帶—可攜式電:裝】 、一,…線傳輸模組和多個感測模組即可,減少 冊二 子裝置的體積和重量,便於感測工作的順利進行。而 〜於产,同時感測多種不同物理或化學參數的情況 「從π个剧TF的激洌系統,僅需攜帶一可攜式,m、—“ ,輸模組,因此減少了需要購買多個 2 本浪費,降低了感測成本。 糸、“成的成 雖然本創作已以較佳實施例揭露如上,然其並非用以限定 M405566 本創作,任何熟習此技藝者,在不脫離本創作之精神和範圍 内,當可作些許之更動與潤飾,因此本創作之保護範圍當視後 附之申請專利範圍所界定者為準。 【圖式簡單說明】 圖1繪示為本創作實施例之一的感測系統的分解示意圖。 圖2繪示為圖1所示感測系統的組裝示意圖。 圖3繪示為本創作另一實施例的感測系統的分解示意圖。 【主要元件符號說明】 100、200 :感測系統 110、 220 :感測模組 111、 211 :第一連接部 113 :感測元件 115 :類比數位轉換器 130、 230 :無線傳輸模組 131、 231 :第二連接部 133、233 :訊號轉換單元 135、235 :訊號發射單元 150 :可攜式電子裝置 151 :接收單元 152 :處理單元 153 :存儲單元 154 :顯示單元 270 :電源元件M405566 V. New description: [New technical field] This creation is related to a sensing system (Sensor System), and in particular to a sensing system for a replaceable sensing element. [Prior Art] A conventional portable sensing device generally includes a sensing portion, a display portion, and a microprocessor. Wherein, the sensing portion has a sensing component for sensing physical or chemical parameter data of the object to be tested. The microprocessor is disposed in one of the sensing part and the display part for analyzing and processing the obtained physical or chemical parameter data. The display has a display screen for displaying the result of the analysis, that is, the physical or chemical parameters of the object to be tested. When the sensor device is working, it is only necessary to touch the sensing element to the object to be tested, and the result of the sensing can be seen on the display screen, which is convenient to use. However, in the above sensing device, the sensing portion and the display portion are integrally provided, that is, the sensing portion and the display portion are disassembled, thereby causing the sensory position to be restricted by the sense of the component, so that the thief position The physics or chemical ratio of the remuneration can be sensed. For situations where multiple "physical parameters" need to be sensed at the same time, it is necessary to carry a variety of different sensory positions, which will be the cost, volume and weight of the required sensing device, for the sensor [new content] $ Providing a sense-of-sensing system, which transmits the sensored (ensor 她ο she) sensed message to the portable electronic device (Pcmable E丨ectromc Device) by the wireless transmission module, so that the above sensing system can be conveniently Use M405566 to sense a variety of different physical or chemical parameters. Provides (4), including portable electronic devices, sensing sets and wireless transmission and subtraction groups. The sense group has a first connection, which is suitable for testing The physical or chemical parameters of the object and the digital signal transmission module for generating the data includes a second connection unit, a signal unit and a signal transmission unit. The second connection is connected to the first connection unit. And the first connection, the connection between the part and the k connection part is to interface with the pluggable connection interface, the signal conversion unit is respectively connected to the fourth connection part and the signal transmission unit, and (4) the digital signal is converted into the first number and Passing the second signal The transmitting unit transmits the portable electronic split. In the above sensing system, the sensing module can transmit the sensed message to the portable electronic device through the wireless transmission module, so that the creation is required In the case of sensing a plurality of different physical or chemical parameters, only the portable electronic component, a wireless transmission module and a plurality of sensing modules are required to be carried, thereby reducing the cost, volume and the required carrying electronic device. The weight and the ease of the sensing work are carried out. The above and other objects, features and advantages of the present invention will become more apparent and obvious. The following detailed description of the preferred embodiments and the accompanying drawings [Embodiment] FIG. 1 is an exploded perspective view of a sensing system according to one embodiment of the present invention. FIG. 2 is a schematic view showing the assembly of the sensing system shown in FIG. 1. Referring to FIG. 1 and FIG. The sensing system 100 includes a sensing component 11 , a wireless transmission module 130 , and a portable electronic device 15 . The sensing module u has a first connecting portion 111. The sensing module 110 is used for Sense a test object (not shown) Physical or chemical parameter data, and generate a pair of M405566 bit signals that should be physical or chemical data. Wireless transmission mode, group 13〇 includes second material i3i, Xunfan 133 and signal emission single magic 35. Second connection ! ^ (3) is connected to 'and the second connection portion 131 and the first connection portion "$ is a pluggable connection interface. The switching unit 133 is connected to the second connection 131 and the signal transmitting unit 135, respectively. The signal conversion unit m μ sensing module converts the digital signal into a second signal. The second signal is transmitted by the signal transmission 7G 135 to the portable electronic device 丨5〇 for processing. . The port sensing module 11A can also have a sensing element 113 and an analog digital converter 115. The money element 113 scans the physical or chemical material of the object and produces an analog signal for the physical or chemical parameter data described above. The above analog signal can be a micro-f voltage signal or a micro-current signal. These analog signals of the micro voltage signal or the micro current are converted into digital signals by the analog digital converter 115. The analyte may be a liquid, a gas or a solid. The type of sensing module UG and the physical or chemical parameters sensed may vary depending on the sensing member 113. In the actual remuneration, the system module 11G is, for example, a chemical sense, an ion sensor, a gas sensing H, or the like, or a biochemical feeling such as a blood sugar sensor, a blood oxygen sensor, and a display sensor, but not Limited to this. Corresponding to the type of the sensing module 11G, the physical or chemical parameters remaining by the sensing element 113 are, for example, the chemical composition of the object to be tested, the concentration of the drug solution, the ion component (I〇nC〇mp〇siti〇n), and the ion concentration. Gas composition, gas concentration (Gas C(^centrati〇n), gas humidity (Gas Humidity), gas pressure, blood glucose concentration (Blood Glucose C0ncentration), blood oxygen saturation (B1〇〇d OxygeiiSaUmUiun), The content of the protein (Pr〇teinc〇mem), etc. The wireless transmission module 130 can be connected to the sensing module 11A through the second connecting portion 131 and the first connecting portion 131, and the analog measuring module is used by the signal conversion unit. The digital signal sensed by the group 110 is converted into a second signal, and then transmitted by the M405566 • signal transmitting unit 150 χ π dry... Yule to the portable electronic device - a detailed sense The digital signal sensed by the test module 110 can be converted into a signal that satisfies the universal serial BUS (USB) transmission standard, and the second connection portion 131 forms a pluggable connection with the first connection portion η. Jie The interface can be an interface, for example, the second connection portion 131 can be a socket, and the first connection portion (1) can be a USB plug, but the present invention is not limited thereto. To enable the second signal to be wirelessly transmitted, the second signal can be In order to meet the transmission standard, the blue transfer standard, the wireless (four) transmission fresh or infrared signal. In addition, the signal _ 133 can be a __ body circuit: the portable electronic device 150 is, for example, a notebook computer, a mobile network device, The mobile phone or the number of individuals (four), but the present creation is not limited to this embodiment, the portable electronic device 150 includes a receiving unit (5), a 兀 152, a storage unit 153, and a display unit 154. The storage unit (5) can be stored - Some of the programs on _ are divided into no. The processing unit 152 is _ the digital signal transmitted by the touch unit (5), and the digital signal is selected according to the digital signal to be sensed by the selected program. The modulo = 154 will display the result of the analysis of the early 152. Early το The above implementation, because the sensing module 11〇r, carries; ===:= and the plurality of sensing modules 110 can be reduced ..., and so on, the weight of the group 130 is convenient for sensing X. "The size of the U-electronic device and, in addition, in the case of the need to simultaneously sense a variety of different physical or chemical parameters, the M-integrated, only f-portable electronic device wireless transmission module 130 and a plurality of sensing modules 110, thereby reducing the cost waste caused by the need for multiple different sensing systems 1GG, and reducing the cost of sensing. -~", 3 is shown as sensing of another embodiment of the creation. A schematic diagram of the decomposition of the system. Referring to FIG. 3, the sensing system of the present embodiment is similar to the sensing system 100: the difference is that the sensing system 2A further includes a power supply element 27A. 270 cases include batteries or have a structure connected to an external power source. The power supply=piece=〇 can be set on the wireless transmission module 23〇, and can be electrically connected with the signal conversion: 兀233 and the signal transmission single A, respectively, for signal conversion 2 early 7〇兀#1 and signal The transmitting unit 235 provides power. In the step of stepping, the power component 27 is electrically connected to the second connecting portion 231 for providing the required power to the sensing module 220 when the second connecting portion 231 is engaged. The use of the sensing system 200 is further facilitated. In summary, the sensing system of the embodiment of the present invention has one of the advantages: 1"^, by wireless transmission module __ message transmission: kind:: physical and academic parameters in the case of 'only need Carrying-portable electric: loading, one, ... line transmission module and multiple sensing modules can reduce the volume and weight of the second sub-device, and facilitate the smooth operation of the sensing work. And ~ production, while sensing a variety of different physical or chemical parameters "from the π drama TF's radical system, only need to carry a portable, m, -", the transmission module, thus reducing the need to buy more 2 wastes, reducing the cost of sensing.成, “成成成 Although this creation has been disclosed above in the preferred embodiment, it is not intended to limit the creation of M405566. Anyone who is familiar with this art can make some The scope of protection of the present invention is subject to the definition of the patent application scope. [Simplified Schematic Description] FIG. 1 is an exploded perspective view of a sensing system according to one embodiment of the present invention. 2 is a schematic view showing the assembly of the sensing system shown in FIG. 1. FIG. 3 is an exploded perspective view of the sensing system according to another embodiment of the present invention. [Main component symbol description] 100, 200: sensing system 110, 220 : sensing module 111 , 211 : first connecting portion 113 : sensing element 115 : analog digital converter 130 , 230 : wireless transmission module 131 , 231 : second connecting portion 133 , 233 : signal conversion unit 135 , 235 : Signal transmitting unit 150 : Portable electronic device 151 : Receiving unit 152 : Processing unit 153 : Storage unit 154 : Display unit 270 : Power supply element