201007635 九、發明說明: 【發明所屬之技術領域】 時數 及 ::棟取裝置及謹理裝置與應用其之即時 【先前技術】 參 φ 於製造業中,往往需藉由量測儀器來 LU;:中之娜數’例如是溫度及濕度,亦可利用 析或統ΐ而使°用j:器所測得之量測數據作分 後,再取】=断之量測數據 可能於有誤記的機率。 —况此外,置測數據亦 藉由:線備^的制顧可將量測數據 製造二= 應地提高,且製造間,使得生產線的建置成本對 如是電腦設備及傳輸===亦可能提高硬體設備(例 、十乂館存I測資料。與利用傳輸線來傳送 201007635 量測資料之情況相較,利用本發 ^傳^之方式來傳輸且齡量測 === is:時使 高動^ ==電:裝置係無需設置4造 的建置成本及硬體設備的轉縣可減少。m仵生產線 根據本發明之第一方面,提出一 自—量測裝置之-訊號。擷取裝置肖裝置’用以接收來 ❹ 维。處理單元用以於峨之格式符及了無線模 為一已處理訊號。處理單元更用 又式夺,以5民號作 轉換訊號之格式為預定格式二;預Z 處理訊號至-資料處二 單元。無賴触來 ^ 組及-儲存 Φ 存單元用以儲存已==域’以取得已處理訊號。儲 根據本發明之第三方面,裎一 統,包括-娜錢及—¥料處 監控取得系 置第之-严。操取裝置包括-第 時,以訊號作為一已處理訊號。第 八^預叹格式 格式不符合職格式時,娜於訊號之 置包括一第二無線模理理裝 號。 之已處理喊。儲存早痛以儲存已處理訊 根據本發明之第四方面,提出一麵取裝置,包括至少一 6 201007635 ίίί連接裝。至少-連接 根據本s:;五=模二用::=。 ;:f" ί^ ίϊ^:ΙΤ;ίΙ:ί^^^ 擷取裝處縣自—制/置自^取f置之—已處理訊號。 號。第二模、組包括一處理里單號’以取得已處理訊 控於處理單元,且^來儲存單元用以受 係為一獨立之農置,且第二模組係置第一模組 根據本發明之第丄古而坦,珣立之裝置。 統,包括-擷取裝置二麵處控取得系 連接埠、一第一處理單元、一第一^ ° &金匕括至少一 少一連接淳用以連接於__量^一電源模組。至 測裝置之-訊號。第—處理單“ 接收來自量 號之格式不符合第—處理單元更用以於訊 作為已處理訊號預第邊:';模=,,,預定格式,以 模組用以受控二早二:c模組。第二無線 理:號。第二模組包括一第二處=== 兀用以受控於第二處理單亓, 储存早兀。儲存早 號。第-模組係為-獨立之裝置健 201007635 裝置。 具之高等精^設tt* iHn簡單’為預期可達,效能所 件;為便於眚龛杏主^\\顯本案之新穎性及進步性雙重要 的、特徵所採步/f有關本發明為達上述目 合圖式說明如下。 /、功效,茲例舉較佳實施例並配 【實施方式】 [第一實施例] 監控之即時數據 取裝置110及—資料處理裝置H監控取㈣統⑽包括-類 擷取最置110包括—連接埠⑴、 一第—無線模、组115及 f,理早几113、 量測裝ϊΐο且上7= 了電源。連接龙111用以連接於-號D10。量測裝置10例如是一自置10之一訊 或強度,或是用以量測環境Ρ产尺寸1 更度 技:領域中具有通常知識者;Γ膽,; r處之例子為限。此外,此處之訊號_例如= 時,:二元 用以於纖_樣式不符合預設格式時,轉換訊=n 式為預定格式’以作為已處理訊號D1卜第—無^ 以發送已處理訊號D11。 、、、、H、且115用 第二無線模組131b用以受控於微處理單元131&,且接收 201007635 線S,=處理訊號Dn。儲存單元l33b用 徑於第一處理早兀133a,且儲存來自第一模組131 =理訊,D11。:於本實施例中’第一模組131係為一獨立之 置,^第二模組133係為另一獨立之裝置。 是5測工件之尺寸時,使用者可連接例如 游曰I卡尺之置測裝置之連接端於擷取裝置11〇之連 置觸得之制資料係以—峨之形式來經由揭 ϋ的連接蜂m傳送至第一處理單元113。 士疋否付合預設格式係由第—處理單元113來作判斷及^ 央路ΐΐΐ已處理訊號。已處理訊號係藉由第—無線模組115 iii,處理裝置13G之第二無線模組i3ib,以儲存於 =单7G 133b t °如此’儲存於儲存單元133b中之已處理訊 號係可供進一步之分析或彙整之用。 π 於本實施例中,第二模組133可例如是一電 需糊傳輸線來於量職置與電齡機之卩稱送量測資 之間擷取裝置11G與㈣處理裝置130 之機·較高,且烟者的移動範圍^ 外’娜裝置11G係包括電源模組117,因此,ί 機動性及軸朗亦不㈣源叙長度的限 i3G係嫌找於製造現 ^ 口此’與5又置電細設備於製造現場中的情況相較, 門數據監控取得系統⑽係可讓製造現場^空 ίίίί^Γ㈣罐棘職⑽轉護成本及 ηι., , ^ 里只』装置1 〇例如是由三誊公司 —丑Λ摘生產之1測裝置1G之連接端u之形式配合,使 201007635 秋,此技司所生產的量測裝置電性連接。者 不以此處之例子為限,且亦不 中-個連接埠之形式係與三豐公 ^固=埠,其 魯. 個連接璋可為二_的連解。只! ΐ—ϋί 農ίϊ接端配合之連接埠皆可—本實施例j接ΐ'。 再者,本實施例係以第二模組133為一 133 ° ^ tiii ^ 太網路來連接於第二模組133,以共同分享並: 之=娜裝置110來發送至資料處理袭置130 之協^二%,第>^一無線模、组115及第二無線模組131b 疋例如疋 Zlgbee/IEEE 802· 15.4,使得 ί 鄕魏料储雜概、峨傳輪 穿透力強、抗干擾能力佳之優點。 [第一實施例] m 2圖’魏示根據本發明第二實施例之即時數據 二Γοη Γί統之方塊圖。與第一實施例之即時數據監控取得系 ΐ = ΪΙ本實施例之即時數據監控取得系統之擷取裝 ίΠ 了包括一連接埠21卜一第一處理單元213、-第- 及作m!、模組217之外,擷取裝£ 210更包括-^檢oY且219、一狀態顯不模組216及一計時器218。由於連 I、第一處理單元213、第一無線模、组215及電源模組 2係與第一實施例中之連接埠m、第一處理單元113、第 :無線模組115及電源模組117之應用方式相同,因此,此處 亚不重複說明。 π ^於本實施例中’狀態顯示模組216用以根據一狀態訊號來 =f於對應之模式下。狀態訊號可由第一處理單元213根據資 厂處理裝置230及量測裝置20之其中—者的訊號產生。當然, 201007635 狀態訊號亦可更由第-處理單元213根據娜裂置21()之内部 的訊號產生。於本實施例中,狀態顯示模組216例如是包括一 個紅色發光二極體、-個綠色發光二減及—揚聲器,以藉由 此些發光二鋪之發光方錢合上揚耗的發聲方式來提醒 L此ft'光二極體的發光方式例如是包括閃爍之次數及 ί光與否,揚絲的發聲方式例如是包括發出長音或短音及發 聲之頻率。當然、’狀態顯示模組216之形式並不以此處 例子為限。 杏二下合狀g顯示模組216之應用方式來分別說明本 el ti減故组219及計時器218,但並非用以限定本發 域+具有通f知識者綱瞭,操作模組、狀態顯 不模組^計時器係可選擇性地根據需求來配置。 假設=本實施例中,狀態顯示模组216係在一般之狀 一ί態訊號㈣來操作於對應之模式。操作模組219 ^以 : t,您,使得第一無線模组215根據發送訊號S21 靖斗處理裝置230之第二無線模組 理I 存單元2咖。已處理訊號D21勤第一處 ❹ 拉=i處理自量測裝置20所接收之訊號應所產生。此 單元213更用以根據操作模組219之狀態產生一 ϊί t ί處理單元231a用以於接收到已處舰號_時, ^生已接收訊號S22。第二無線模組231b更用义 ^ 210 2fs ίίί; 雜- 根據已處理吼號%2產生一狀態訊號似3,使得狀態 ,頁不拉,及216根據狀態訊號N23來操作於對應之模式下。二 11 201007635 此’使用者即可藉由狀態顯示模纟2 處理訊咖已痛實地傳輸至得知已 於本實施例中,計時器218用以自第一 爪 已處理訊號D21時計算-發送時間值H、且2上5 $ 接收到已接收訊號S22。第一處理#% 21 ^線权組215 訊號微時,控制計時器已= 距離太遠或是阻隔物的影響,使得 铋、3值了2方因 資料處理裝置230時,擷取裝置21(HH^無法傳遞至 S22。因此,計時器218無已接收訊號 出發送時間值T2大於1設時間 ===二=,可短暫地根據 Ν21 處理置23(3之已處理訊號D21係可利用第二 ΪΪ。舉例來說,第二處理單元_係根 _ bZ3第一無線松組231b係發送魃千呻铼ς9<5 s祕说妝 *^ϊϊ:215 · - -i-" - iSi 伟根▲狀MM it狀態讯號拟5,且狀態顯示模組216 所測量出^髓、^16之操條絲瞭解姻量測裝置20 所測里出來的數據’例如是加轉 設範:以^,或處理不符合預=力 一C20。°第一\^10更可用以接收來自量測裝置20之另 理裝 i 23〇 之 受™換 12 201007635 ,量^裝置2〇之同一個按鍵產生,或是歸零量測裝置20產 田知視設計而定。以下舉例說明訊號⑽之應用方式,但並 本^之細。只要是藉由縣量繼置的按鍵或 Z.,. w面來產生訊號以控制位於遠端的資料處理裝置之 方式皆可應用於本實施例中。 補實儲存單元233b係於—循環下儲存已處理 二_ 2,者例如是歸零量測裝置20時,量測裝置20 决# % ΓΟ讯號C20。第一處理單元係根據訊號C20之格式 f處理喊⑽’尊得-已處理職C21。第 至資料處理裝置2久第^ ^ : 理裝I 230接收到已處理訊號C2i時,第二處 處理訊號C料控繼存單元233b於另 -^一 = &理訊號D2卜例如是—量測資料。另外,第 早^ 根據以連續按壓按鍵所產生之另一訊號 =理’例如疋刪除或複製,儲存單Α纖所館存之已處理 &當然’第二處理單元233a更用以根據受控於 狀=來產生-受控峨S24。第二無線模組23化更^以發送 受控訊號S24至擷取裝置210 ’使得第一處理單 二產 生一狀態訊號N26。如此,狀離顯干掇铂91R ^ d據乂產 轳腿來择作於㈣核 亦可根據狀態訊 狀t 式下,以提醒使用者資料處理裝置 本實施例之即時數據監控取得系統2〇〇 中所述之伽。糾’即時輯雜取射 作模組219,以便於使用者決定是否發送來自量測 狀態顯示模組之妓係提供使用者^^ ,,裝置2〇 «頁取裝置21〇之狀態二; 提供訊號疋否確實地於預設時間值內傳遞 % 的一種判斷依據。 貝了寸她理裝置230 13 201007635 [第三實施例] ❻ϊί照第3 ®,魏示娜本發明第三實_之即時數據 之ί塊圖。即時數據監控取得系統包括~4ί 31 ^ 一資料處理震置咖。擷取裝置包括-第一 ^早το 313及-第-無線模組315,用以接收來自一量 置30之一訊號D30。第一處理單元_313 ', 參 結i早更用以於訊號_之格式不符合預設格式時, -盈HD3t格式為預定格式,以作為6處理訊號。第 ”,、線模組315用以發送已處理訊號|)別。 元33^處330包括一第二無線模、组鳩及一儲存單 $ p ^第一無線模、組331b用以接收來自第一無線模組315 ίίίvf333b ^ ^ 以供在後的彙整或分析之用。 施例之即時數據監控取得系統進一步說明 如I。如第3圖所不,資料處理裝置33〇更包括一第二 參 二第二無_組331b及儲存單元333b °本實 二理Λ置330例如是一飼服器,且數個電腦主機 η ίΐ门L網路建構區域網路來連接於資料❾里裝置 雜理裝譲之儲存單元现所儲存 遍^垃即時數據監控取得系統3〇〇巾之擷取裝置310更包 所生產di键1i’其中一個連接土阜311之形式係與三豐公司 之遠捲追形式配合,另—錢鮮311可為RS232 裂置31G之連料311之形式及個數並 施例所舉例之形式及個數。再者,於本實施例 t7第h τί偏且315及第二無線模、組咖之通訊協定例如 ^ ΐ15·4 ’使得本實施例之即時數據監控取 付系、、先300於傳輸= 貝料時係具備低耗能、訊號傳輸距離長、穿 201007635 透力強、抗干擾能力佳之優點。 [第四實施例] 請參照第4圖’狀示根據本麵第四實關之即時數 得系統棚之方塊圖。與第三實施例相較,本實施例之 ί Ξίϊϋίΐί,收數侧取裝置41G之訊號,且數個 9G,連接於資料處理裝置。因此,於硬體設傷 地ί少。糸可有效地節省’使得設備的維護成本亦可對應 參 敫實Ϊ例之擷取裝置彻之配置係可根據需求來調 實施例及第三實施财所述之掏取 理裝2甘本發明上述實施例所揭露之擷取I置及資料處 電腦3輸^^^戶=导之曰=使得製造現場係、無須配置 包括可置係可配置於個者身上,取裝置 係可提^ 賴組,·,使用者於操作時之機動性 非為揭之騎及制,鶴本_之触實施例, 在以下其轉雜化雜飾,錢涵蓋 15 201007635 【圖式簡單說明】 第一圖係本發明之其一較佳實施例示意圖。 第二圖係本發明之其二較佳實施例示意圖。 第三圖係本發明之其三較佳實施例示意圖。 第四圖係本發明之其四較佳實施例示意圖。 【主要元件符號說明】201007635 IX. Invention description: 【Technical field of invention】 Hours and:: Building device and proper device and application instant [previous technology] In the manufacturing industry, it is often necessary to use LU to measure the LU. ; : 中中娜数', for example, temperature and humidity, can also use the analysis or reconciliation to make the measured data measured by j: the device is divided, then take] = the measured data may be there The chance of mistaking. - In addition, the measured data can also be made by the preparation of the line preparation method. The manufacturing data can be improved. The manufacturing cost of the production line can be as high as the computer equipment and transmission === Improve the hardware equipment (for example, the Shiyan library I test data. Compared with the transmission line to transmit the 201007635 measurement data, use the method of transmission and transmission to measure the age measurement === is: High-motion ^ ==Electricity: The installation cost of the device is not required to be set up and the conversion of the hardware equipment can be reduced. The m仵 production line according to the first aspect of the invention proposes a signal-measurement device. The processing unit is configured to receive the data. The processing unit is configured to use the formatter and the wireless module as a processed signal. The processing unit is further used again and again, and the format of the number 5 is used as the conversion signal. Format 2; pre-Z processing signal to - data unit 2 unit. rogue touches ^ group and - storage Φ storage unit for storing == domain 'to obtain processed signal. According to the third aspect of the invention, , including - Na Qian and - ¥ material monitoring and acquisition of the system - The operation device includes - when the signal is used as a processed signal. When the eighth mode is not in conformity with the format, the signal set includes a second wireless modular number. Storing early pain to store processed information According to the fourth aspect of the present invention, a side-by-side device is provided, including at least one of the six 201007635 ίίί linkages. At least - connected according to the present s:; five = modulo two::=; :f" ί^ ίϊ^:ΙΤ; ΙΙ: ί^^^ 装 装 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县'To obtain the processed control unit in the processing unit, and to store the unit for being a stand-alone farm, and the second module is to be the first module according to the present invention. The device comprises: a pick-up device, a control unit, a first processing unit, a first ^ ° & gold, at least one less than one connection, for connecting to the __ quantity Power module. The signal to the measuring device - the first processing list "receives the format from the quantity number does not meet the first - processing Yuan is used as the pre-processing side of the processed signal: '; mod =,,, the predetermined format, the module is used to control the second two: c module. The second wireless: number. The second module Including a second place === 兀 used to control the second processing unit, store early 兀. Store the early number. The first module is - independent device health 201007635 device. With the high precision set tt * iHn is simple 'for the expected reach, the performance of the piece; for the convenience of the apricot master ^ \ show the novelty and progress of the case is important, the characteristics of the step / f related to the present invention for the above-mentioned eye-catching instructions The following is a description of the preferred embodiment and the corresponding embodiments. [First Embodiment] The monitoring data processing device 110 and the data processing device H are monitored and monitored. 110 includes - connection 埠 (1), a first - wireless mode, groups 115 and f, a few 113, measuring device ο and upper 7 = power. The connecting dragon 111 is connected to the -number D10. The measuring device 10 is, for example, a self-contained 10 or intensity, or is used to measure the environmental size of the environment. 1 : The general knowledge in the field; the deficiencies; the example at r is limited. In addition, when the signal _, for example, =, the binary is used when the fiber _ style does not conform to the preset format, the conversion message = n is the predetermined format 'as the processed signal D1 卜 - no ^ to send Processing signal D11. The second wireless module 131b is used to control the micro processing unit 131& and receives the 201007635 line S, = processing signal Dn. The storage unit l33b is used to process the first processing 133a and is stored from the first module 131 = R, D11. In the present embodiment, the first module 131 is a separate device, and the second module 133 is another independent device. When the size of the workpiece is measured, the user can connect the connection end of the measuring device such as the vernier I caliper to the connection device of the pick-up device 11 触, and the data is connected in the form of ϋ ϋ The bee m is transmitted to the first processing unit 113. The default format of the gentry is determined by the first processing unit 113 and the processed signal is processed. The processed signal is stored in the storage unit 133b by the second wireless module i3ib of the processing device 13G by the first wireless module 115 iii, and the processed signal system stored in the storage unit 133b is further available for further processing. For analysis or consolidation. π In this embodiment, the second module 133 can be, for example, a power-demand paste transmission line for picking up the device 11G and (4) processing device 130 between the volume of the job and the nickname of the computer. The higher, and the range of movement of the smoker ^ outside the 11A system includes the power module 117, therefore, ί mobility and axis is not (four) the length of the source of the i3G is suspected of finding the current 5, compared with the situation of the electric equipment in the manufacturing site, the door data monitoring acquisition system (10) can make the manufacturing site ^ empty ί ί ί Γ 四 四 四 四 四 四 四 四 四 四 四 四 四 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 及 及 装置 装置 装置 装置For example, it is a combination of the connection terminal u of the 1G measuring device 1G produced by Sanken Co., Ltd., so that the measuring device produced by the company is electrically connected in the autumn of 201007635. The case is not limited to the example here, and the form of the connection is not related to Sanfeng Gongfu = 埠, and its connection is 连. Only! ΐ—ϋί ϊ 农 农 ϊ ϊ 配合 配合 配合 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Furthermore, in this embodiment, the second module 133 is connected to the second module 133 by a network of 133 ° ^ tiii ^ to share and: the device 110 is sent to the data processing device 130.协2%, the first> wireless module, the group 115 and the second wireless module 131b, for example, Zlgbee/IEEE 802. 15.4, so that the ί 鄕 料 储 峨 峨The advantage of good anti-interference ability. [First Embodiment] The m 2 diagram shows the block diagram of the real-time data according to the second embodiment of the present invention. The real-time data monitoring acquisition system of the first embodiment is included in the instant data monitoring acquisition system of the present embodiment, including a connection unit 21, a first processing unit 213, a -- and a m! In addition to the module 217, the loading device 210 further includes a checksum oY and 219, a state display module 216, and a timer 218. The first processing unit 213, the first wireless module, the group 215, and the power module 2 are connected to the first embodiment, the first processing unit 113, the wireless module 115, and the power module. The application method of 117 is the same, therefore, the description will not be repeated here. π ^ In the present embodiment, the status display module 216 is configured to =f in the corresponding mode according to a status signal. The status signal can be generated by the first processing unit 213 based on the signals of the processing device 230 and the measuring device 20. Of course, the 201007635 status signal can also be generated by the first processing unit 213 according to the internal signal of the 裂 置 21 (). In the embodiment, the state display module 216 includes, for example, a red light emitting diode, a green light emitting diode, and a speaker, so as to use the light emitting method of the light emitting two to close the sounding mode. It is reminded that the illumination mode of the ft' photodiode includes, for example, the number of times of flickering and whether or not the ray is emitted. For example, the vocalization method of the ray is a frequency including a long or short sound and a utterance. Of course, the form of the 'state display module 216' is not limited to the examples herein. The application mode of the module 216 is separately described by the apricot two g-shaped g display module 219 and the timer 218, respectively, but is not used to limit the domain of the present invention + the knowledge of the module, the operation module, the state The display module timer is optionally configurable according to requirements. Hypothesis = In this embodiment, the status display module 216 is in a general state to operate in the corresponding mode. The operation module 219 ^ is: t, you, so that the first wireless module 215 according to the transmission signal S21, the second wireless module of the processing device 230. The first signal of the processed signal D21 is ❹ pull = i processed by the signal received by the measuring device 20 should be generated. The unit 213 is further configured to generate, according to the state of the operation module 219, the processing unit 231a for receiving the received signal S22 when receiving the ship number _. The second wireless module 231b is further configured to generate a status signal like 3 according to the processed nickname %2, so that the state, the page is not pulled, and 216 operates in the corresponding mode according to the status signal N23. . 2 11 201007635 This user can use the status display module 2 to process the communication service to the knowledge that it has been used in the present embodiment. The timer 218 is used to calculate the transmission time from the first claw processed signal D21. The value H, and 5 $5 received the received signal S22. First processing #% 21 ^ line weight group 215 When the signal is small, the control timer has = too far distance or the influence of the barrier, so that the value of 铋, 3 is 2 when the data processing device 230 is used, the capturing device 21 ( HH^ cannot be passed to S22. Therefore, the timer 218 has no received signal output time value T2 is greater than 1 set time === two=, and can be temporarily set according to Ν21 processing 23 (3 processed signal D21 is available For example, the second processing unit _ _ _ bZ3 first wireless loose group 231b is sent 魃 呻铼ς 9 lt 5 5 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 215 The root ▲ MM it state signal is intended to be 5, and the state display module 216 measures the medullary and ^16's trajectory to understand the data measured by the metric measuring device 20, for example, ^, or the processing does not meet the pre-force - C20. ° The first \ ^ 10 is more available to receive the other from the measuring device 20 i 23〇 by the TM for 12 201007635, the amount ^ device 2 〇 the same button The production, or the zero-measurement measuring device 20, is based on the design of the field. The following example illustrates the application of the signal (10), but it is as detailed as it is. The method of generating a signal by the county-level relay button or the Z., w surface to control the data processing device located at the far end can be applied to the embodiment. The supplementary storage unit 233b is stored under the loop storage. When the second measuring device 20 is, for example, the zeroing measuring device 20, the measuring device 20 determines the #% ΓΟ signal C20. The first processing unit processes the shouting (10) 'respected-received job C21 according to the format f of the signal C20. The first data processing device 2 is for a long time ^ ^ : when the processing I 230 receives the processed signal C2i, the second processing signal C is controlled by the storage unit 233b in another -^ = & Measuring data. In addition, the second processing unit 233a is used for the second processing unit 233a according to another signal generated by continuously pressing the button, for example, deleting or copying, for example, storing and storing the unit. The second wireless module 23 is configured to send the controlled signal S24 to the capture device 210' such that the first processing unit 2 generates a status signal N26. Thus, The shape of the 掇 显 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 91 In the form of t, to remind the user of the data processing device of the present embodiment, the instant data monitoring acquisition system 2 is described in the instant data monitoring acquisition system 219, so that the user can decide whether to send from The measurement status display module provides the user ^^, the device 2〇«page device 21〇 state 2; provides a judgment basis for whether the signal is positively transmitted within the preset time value.别的寸理理理装置 230 13 201007635 [Third Embodiment] ❻ϊί照第3®, Wei Senna The third real_data of the invention. The real-time data monitoring acquisition system includes ~4ί 31 ^ a data processing shaker. The capture device includes a first ^ early το 313 and a -th wireless module 315 for receiving a signal D30 from a measurement 30. The first processing unit _313', the reference i is used earlier when the format of the signal_ does not conform to the preset format, and the format of the HD3t format is a predetermined format as the 6 processing signal. The "", the line module 315 is configured to send the processed signal |). The unit 33^ 330 includes a second wireless mode, a group, and a storage list $p^ the first wireless mode, the group 331b is configured to receive from The first wireless module 315 ί 以 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The second non-group 331b and the storage unit 333b are, for example, a feeding device, and a plurality of computer hosts η ΐ L L network construct a regional network to connect to the data device The storage unit of the 譲 现 现 现 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 即时 310 310 310 310 310 310 310 310 310 310 310 310 310 310 310 310 310 310 310 310 In the form of the chasing form, the other - Qian Xian 311 can be the form and number of the RS232 split 31G 311 and the number of examples and the number of examples. In addition, in this embodiment t7 h τί bias and 315 and The second wireless mode, group communication protocol, such as ^ ΐ 15 · 4 ' makes this embodiment Time data monitoring and payment system, first 300 transmission = shell material has the advantages of low energy consumption, long signal transmission distance, strong penetration of 201007635, good anti-interference ability. [Fourth embodiment] Please refer to Figure 4 The block diagram of the system shed according to the real number of the fourth real off of the present embodiment. Compared with the third embodiment, the λ Ξ ϊϋ ϊϋ 本 本 , , , , 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 Data processing device. Therefore, there is less damage to the hardware. 糸 can be effectively saved, so that the maintenance cost of the device can also be adapted to the configuration of the pick-up device. The third embodiment of the present invention is based on the above-mentioned embodiments of the invention. The data is taken from the computer and the computer is replaced by the computer. The system can be configured on the individual, the device can be used to raise the group, and the user's mobility during operation is not the basis of the ride and the system, the Tsurumoto _ touch embodiment, in the following , Money covers 15 201007635 [Simplified illustration] First picture BRIEF DESCRIPTION OF THE DRAWINGS FIG. 2 is a schematic view of a second preferred embodiment of the present invention. The third drawing is a schematic view of three preferred embodiments of the present invention. BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENTS [Description of main component symbols]
系統100 連接埠m 第一無線模組115 資料處理裝置130 微處理單元131a 第二模組133 儲存單元133b 連接端Π 訊號D11 擷取裝置210 第一處理單元213 狀態顯示模組216 計時器218 資料處理裝置230 第二無線模組231b 儲存單元233b 連接端21 訊號C21 訊號D21 訊號N22 訊號N24 訊號N26 訊號S22 擷取裝置110 第一處理單元113 電源模組117 第一模組131 第二無線模組131b 第二處理單元133a 量測裝置10 訊號D10 系統200 連接埠211 第一無線模組215 電源模組217 操作模組219 微處理單元231a 第二處理單元233a 量測裝置20 訊號C20 訊號D20 訊號N21 訊號N23 訊號N25 訊號S21 訊號S23 16 201007635 訊號S24 系統300 連接埠311 - 第一無線模組315 第二無線模組331b 儲存單元333b 訊號D30 電腦主機80 擷取裝置410 電腦主機90 時間值T2 擷取裝置310 第一處理單元313 資料處理裝置330 第二處理單元333a 量測裝置30 訊號D31 系統400 資料處理裝置430System 100 connection 第一m first wireless module 115 data processing device 130 micro processing unit 131a second module 133 storage unit 133b connection terminal signal D11 capture device 210 first processing unit 213 status display module 216 timer 218 data Processing device 230 second wireless module 231b storage unit 233b connection end 21 signal C21 signal D21 signal N22 signal N24 signal N26 signal S22 capture device 110 first processing unit 113 power module 117 first module 131 second wireless module 131b second processing unit 133a measuring device 10 signal D10 system 200 port 211 first wireless module 215 power module 217 operating module 219 micro processing unit 231a second processing unit 233a measuring device 20 signal C20 signal D20 signal N21 Signal N23 Signal N25 Signal S21 Signal S23 16 201007635 Signal S24 System 300 Connection 311 - First Wireless Module 315 Second Wireless Module 331b Storage Unit 333b Signal D30 Computer Host 80 Capture Device 410 Computer Host 90 Time Value T2 Capture Device 310 first processing unit 313 data processing device 330 second processing unit 333a measuring device 30 signal D31 system 400 data office 430
1717