M423312 五、新型說明: 【新型所屬之技術領域】 本創作是有關於-種管理系統,且特別是有關於 理 資訊的管理系統。 【先前技術】 纟個人健康照護中’將受照護者的生理狀態進行量化,並 鲁且轉換成分析圖表是一件重要的工作。習知生理狀態的分析圖 表,大致上有折線圖、曲線圖、點分布圖、長條圖等。缺而, 並非所有的生理狀態都適合用相同的分析圖表來表示。因此, 用合適的分析圖表來表示對應的生理狀態,照護者才可分析出 關於受照護目前生理狀態的重要資訊。在習知的個人健康照護 系統中,為了完整的表示出受照護者的生理狀態,就需要使用 大量的圖表來表示。 一貝際上有些生理狀態疋互相關聯的,例如血壓狀況就和 _ 文照= 蔓者的血糖值彼此相關。例如,當照護者在觀察受照護者 的·^壓狀況時,有時還需要同時參照對應時段的血糖值。若是 ^狀況和血糖值是用不同的圖表來表示,則照護者就需要不 斷的反覆參照不同的圖表,非常的不方便。 【新型内容】 . 因此,本創作提供—種生理資訊的管理系統,可以 €者管理—受照護者的生理狀況。 …、 測少*創作本邊彳作提供一種生理資訊的管理系統,其可以與一量 1再組連線,而此量測模組用來量測一受照護者的至少〜生理 3 狀態,並且產生至少一生次 模組和處理模組。接收二,。,作之管理系統包括接收 所輸出的生理資訊。另外、θ耦接I測模組,以接收量測模組 得生理資訊。藉此,處理模組則是麵接接收模組,以取 軒圖表,其顯.示至少一 會依據生理資訊而產生一I形分 緣,分別指示在-量早70 °其中’ 1形單元的上緣和下 一第二狀態 ㈣所獲得之生理資訊的—第一狀態和 在本創作之一實施例中 測受照護者的血壓里測她包括—城計,用來量 吐氣ί:計計、耳溫計、腋溫計、 以凊楚乍ί於本創作可以產生1形分析圖表,因此可 時間所獲得之生理狀況的第一狀態和 時間轴i赢且ϋΓ避可以讓照護者將兩個分析圖表按照 理受照護“生理比對°因此,本創作讓照護者方便管 僅,之其他目的、特徵和優點能更明顯易 下文特舉較佳貫施例,並配合所附圖式,作詳細說明如下。 【實施方式】 之管依照本創作之—較佳實施例的一種生理資訊 鍊。請參照圖i,本實施例所提供的管理系 可以盘^ 接收換組102和處理模組104。接收模組搬 與調她12G連線,並且_處理模組刚。在本實施 士官理系統100可以利用硬體的方式來實現。而在苴它實 本也創作並統100也可以利用軟體或勤體的形式來實現: 清繼續參照圖1 ’量測模組120是用來量測一受照護者至 二i 並ί產ϊ—生理資訊1職給管理系統1 〇〇。 區域網i ’夏測模組120是透過網路,例如網際網路、 路、仃動網路等與管理系統刚連線。當生 輪出給管理系統_,接收模組搬會取得 貝S NFn,亚且將其傳送給處理模組104進行處理。 如血Μ些ΪΪ::二次,測時,會出現不同的狀態,例 離。因此時’會出現收縮屋與收縮壓二者狀 ^生理-it貫施例中’當處理模組104從接收模組1〇2獲 示。胃讯勝η時’會產生一工形分析圖表,例如圖2所繪 圖=示為依照本創作之一較佳實施例的 圖 表的不意圖。請表昭圖2,产+说, 的樺軸可以《旦^丨成Μ 在本μ轭例中,I形分析圖表200 开^㈣J 時1 ’而縱軸是生理狀態值。另外,在I 形分析圖表200中,至少由紅τ ^ 1 護者在-量測時間tl時所量·/形單元搬,其表示一受照 元202的上緣和下緣,是八=的一生理資訊。另外’ I形單 時的第一狀態值V!和第-狀^:生理資訊在量測時間(1 厭^ 狀態值V2,例如是血壓資訊的收縮 壓值和舒張麗值。因此’本實施例 2 :表’就可以清楚地表示出在同一時間具有不嶋二 的方:H3緣==本創作之—較佳實施例的-種量測模組 的方塊圖。赫照圖I本實施例中的量測模組12G,包括至 生理狀態罝測計,例如血壓計302、脈搏計304、血糖計 至,耳咖计遍’、腋溫計310、吐氣流逮計312和血氧計314 ^其中之-。在本實施例中,這些生理狀態量測計會輕接至 ^主機3i6,而量測主機316則會與管理系统1〇〇連線,以 字所獲得的生理資訊INFn傳送給管理系統1〇〇。 種、、,明i繼續參照圖1和圖3,當量測主機316將生理資訊INFn 至!*理系統觸時’處理模組104除了可以產生1形分析 二、還可以產生其它的生理狀態分析圖表’例如血壓㈣分 $圖表、血氧分析圖表、脈搏分析圖表、企糖分析圖表、耳溫 为析圖表、腋溫分析圖表和吐氣流速分析圖表至少其中之一。 =外,在本實施例中,管理系統刚還包括資料庫1〇6和輸出 二組108。其中’資料庫106可以麵接處理模組104,以儲存 处理模組104所產生的生理狀態分析圖表。 ^此外,輸出模組108也會耦接處理模組104,並且和接收 松組102分別連線至一照護者主機13〇。同樣地,輸出模組⑽ 和接收模組102可以透過像是網際網路、區域網路、行動通 網路等網路連線至照護者主機13〇。在一些實施例中,昭護者 主m3〇可以是桌上型電腦、可攜式電腦、行動裝置、智慧型 ^機等’本創作並不限制。在本實施例中,輸出模组1〇8可以 仗,理模組104取得所產生的生理資訊分析圖表,並且傳送至 照護者主機130。藉此,照護者就可以透過照護者主機13〇 檢視這些生理資訊分析圖表。 在本貝施例中’照濩者還可以透過照護者主機發出— 比對要求COM_REQ。當接收模組1〇2收到此比對要求 COM-REQ後’會告知處理模組1〇4。此時,處理模組刚會 依據照複者的選擇’而將所獲得之生理資訊分析圖表中至少兩 M423312 =時_對齊且併排 '而產生-综合分析圖表,就如圖4 圖表:示,種综合分析 送至照護者主機130。如此一來,由輸,模組灌 析圖表400 #晝面上顯 处理极組104還會在综合分 速地檢視各切資輯對應=。,赠闕者可以快 在另外一些實施例中,處理模組 理資訊,並且產生一分析結果 γ ^析所獲得的生 地表=:::可r本=將;:,確 =圓表按照時間轴對齊且併排,,4:=更資: 本創:=====7 内,當可作些許之更動盘 本創作之精神和範圍 附之申請專利範圍所界&為二此本創作之保護範圍料後 M423312 【圖式簡單說明】 圖1繪示為依照本創作之一較佳實施例的一種生理資訊 之管理系統的方塊圖。 圖2繪示為依照本創作之一較佳實施例的一種I行分析圖 表的示意圖。 圖3繪示為依照本創作之一較佳實施例的一種量測模組 的方塊圖。 圖4繪示為依照本創作之一較佳實施例的一種综合分析 圖表的示意圖。 【主要元件符號說明】 100 :管理系統 102 :接收模組 104 :處理模組 106 :資料庫 108 :輸出模組 120 :量測模組 130 :照護者主機 200 : I形分析圖表 202 : I形單元 302 :血壓計 304 :脈搏計 306 :血糖計 308 :耳溫計 310 :腋溫計 312 :吐氣流速計 M4233.12 314 :血氧計 316 ··量測主機 400 :綜合分析圖表 402 :血氧分析圖表 404 :脈榑分析圖表 406 :血壓分析圖表 408 :血糖分析圖表 410 .耳溫分析圖表 412 :腋溫分析圖表 422 :指示線 COM_REQ :比對要求 INFn :生理資訊 tl :量測時間 VI、V2 :狀態值M423312 V. New description: [New technical field] This creation is about a kind of management system, and especially the management system about information. [Prior Art] 纟 Personal health care Quantifies the physiological state of the caregiver and converts it into an analytical chart is an important task. The analysis chart of the conventional physiological state generally has a line graph, a graph, a point map, a bar graph, and the like. Insufficient, not all physiological states are suitable for use with the same analytical chart. Therefore, with a suitable analysis chart to indicate the corresponding physiological state, the caregiver can analyze important information about the current physiological state of the care. In the conventional personal health care system, in order to fully represent the physiological state of the caregiver, a large number of charts are required to represent it. Some physiological states are interrelated, such as blood pressure status and _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ For example, when the caregiver is observing the condition of the caregiver, it is sometimes necessary to simultaneously refer to the blood glucose level of the corresponding period. If the condition and blood glucose level are represented by different charts, the caregiver needs to repeatedly refer to different charts, which is very inconvenient. [New content] . Therefore, this creation provides a management system for physiological information that can be managed by the individual - the physiological condition of the care recipient. ..., measuring less * creating a side management system to provide a physiological information management system, which can be connected with a quantity 1 and the measurement module is used to measure at least a physiological 3 state of an care recipient, And generating at least one sub-module and processing module. Receive two. The management system includes receiving the physiological information output. In addition, θ is coupled to the I test module to receive the physiological information of the measurement module. Thereby, the processing module is a face-to-face receiving module for taking a Xuan chart, and the display shows that at least one will generate an I-shaped edge according to the physiological information, respectively indicating that the amount is early 70 ° among the '1 shaped cells The first state of the physiological information obtained by the upper edge and the next second state (four) and the blood pressure of the caregiver in one of the embodiments of the present invention include: the city meter, used to measure the amount of gas The meter, the ear thermometer, the thermometer, and the 可以 乍 于 于 于 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本The two analysis charts are properly treated according to the physiological comparison. Therefore, this creation allows the caregiver to facilitate the management. Other purposes, features and advantages can be more obvious, and the following examples are preferred. [Embodiment] The tube according to the present invention is a physiological information chain. Referring to FIG. 1, the management system provided in this embodiment can receive the group 102 and the processing module. Group 104. Receive module moves and adjusts her 12G Line, and _ processing module just. In this implementation of the official system 100 can be achieved by means of hardware. In fact, it can also be created in the form of software or physical form: Referring to Fig. 1 'measurement module 120 is used to measure a caregiver to two i and ϊ ϊ physiological information 1 job management system 1 . Regional network i 'summer module 120 is through the network For example, the Internet, the road, the smashing network, etc. are just connected to the management system. When the student turns to the management system, the receiving module moves to obtain the S NFn, and transmits it to the processing module 104. Such as blood stasis:: two times, when measuring, there will be different states, such as separation. Therefore, there will be both contraction and systolic blood pressure ^ Physiology - it is in the case of the treatment module 104 is obtained from the receiving module 1〇2. When the stomach wins η, a work shape analysis chart is generated, for example, the drawing of Fig. 2 is shown as a non-intention of the chart according to a preferred embodiment of the present creation. Shown 2, production + said, the birch axis can be "Dan ^ 丨 Μ Μ In this μ yoke example, I shape analysis chart 200 open ^ J is 1' and the vertical axis is the physiological state value. In addition, in the I-shaped analysis chart 200, at least the red τ ^ 1 protector is at the time of measuring the time t1, and the unit is moved, which indicates that one is illuminated. The upper edge and the lower edge of the element 202 are a physiological information of eight = 1. In addition, the first state value V! and the first state of the I-shaped single time: the physiological information is measured time (1 ^ ^ state value V2, For example, the systolic blood pressure value and the diastolic blood pressure value of the blood pressure information. Therefore, 'this embodiment 2: table' can clearly show that there is a square at the same time: H3 edge == the present creation - preferred embodiment Block diagram of the measurement module. The measurement module 12G in this embodiment includes a physiological state measurement meter, such as a sphygmomanometer 302, a pulse meter 304, a blood glucose meter, and an ear coffee meter. Through-, temperature meter 310, sputum airflow 312 and oximeter 314 ^. In this embodiment, the physiological state gauges are lightly connected to the host 3i6, and the measuring host 316 is connected to the management system 1 to transmit the physiological information INFn obtained by the words to the management system 1〇. Hey. Referring to FIG. 1 and FIG. 3, the equivalent test host 316 will send the physiological information INFn to the system. The processing module 104 can generate a 1-shaped analysis, and can also generate other physiological states. Analyze the chart 'for example, blood pressure (four) points $ chart, blood oxygen analysis chart, pulse analysis chart, sugar analysis chart, ear temperature analysis chart, temperature analysis chart and exhalation flow rate analysis chart at least one of them. In addition, in the present embodiment, the management system has just included the database 1〇6 and the output two group 108. The database 106 can be connected to the processing module 104 to store the physiological state analysis chart generated by the processing module 104. In addition, the output module 108 is also coupled to the processing module 104, and is connected to the receiving loose group 102 to a caregiver host 13A. Similarly, the output module (10) and the receiving module 102 can be connected to the caregiver host 13 via a network such as the Internet, a regional network, or a mobile communication network. In some embodiments, the primary m3 can be a desktop computer, a portable computer, a mobile device, a smart device, etc. This creation is not limited. In the present embodiment, the output module 1〇8 can be used to retrieve the generated physiological information analysis chart and transmitted to the caregiver host 130. In this way, the caregiver can view the physiological information analysis chart through the caregiver host 13〇. In this example, the caregiver can also be sent through the caregiver's mainframe - the COM_REQ is required for comparison. When the receiving module 1〇2 receives the comparison request COM-REQ, the processing module 1〇4 is notified. At this point, the processing module will generate a comprehensive analysis chart based on at least two M423312=time_aligned and side by side in the obtained physiological information analysis chart according to the selection of the follower, as shown in the graph of FIG. A comprehensive analysis is sent to the caregiver host 130. In this way, by the input and module analysis chart 400 #昼面, the processing group 104 will also view the respective corresponding offsets in the comprehensive speed. The gift giver can quickly process the module information in other embodiments, and generate an analysis result γ ^ analysis obtained by the raw land table =::: can be r = will;:, = = round table according to time Axis aligned and side by side, 4:= more capital: This creation: =====7, when you can make some changes, the spirit and scope of the creation of the book is bounded by the scope of the patent application & Scope of Protection M423312 [Schematic Description of the Drawings] FIG. 1 is a block diagram of a physiological information management system in accordance with a preferred embodiment of the present invention. 2 is a schematic diagram of an I-line analysis chart in accordance with a preferred embodiment of the present invention. 3 is a block diagram of a measurement module in accordance with a preferred embodiment of the present invention. 4 is a schematic diagram of a comprehensive analysis chart in accordance with a preferred embodiment of the present invention. [Main component symbol description] 100: Management system 102: receiving module 104: processing module 106: database 108: output module 120: measuring module 130: caregiver host 200: I-shaped analysis chart 202: I-shaped Unit 302: sphygmomanometer 304: pulsometer 306: blood glucose meter 308: ear thermometer 310: thermometer 312: exhalation flow meter M4233.12 314: oximeter 316 · · measurement host 400: comprehensive analysis chart 402: blood Oxygen analysis chart 404: pulse analysis chart 406: blood pressure analysis chart 408: blood glucose analysis chart 410. ear temperature analysis chart 412: temperature analysis chart 422: indicator line COM_REQ: comparison request INFn: physiological information t1: measurement time VI , V2: status value