1278302 九、發明說明: 【發明所屬之技術領域】 ^發明涉及—種可以正確並且容㈣進行對被測溫 者的體溫· ’並且減_溫者的負擔的溫度·發送裝 置。 5 【先前技術】 10 15 直接關係到生命的維持的體溫、心率、呼吸、血 特別總稱為生命指徵(vital sign),若生命指徵在一定的值 (正常值)下穩定,可以認為生命的控制運轉良好,反之 若不穩mx得知不是正f _康狀態。因此,作為醫 院’有對日常人院患者的體溫進行體溫測量的必要性。 [專利文獻1]特開平11-113856號公報 [專利文獻2]特表2002-512829號公報 使=水銀式,或者電子式體溫計的任意一種,在預定 的時間裏護士進行巡迴,向人院患者分發體溫計,入院患 者自己把體溫計夾在腋下,一定時間之後護士再巡迴從^ 入院患者處將體溫計收回,讀取測溫結果,在記錄本上作 記錄。還有,在巡迴完所有的患者之後,對所有回收的體 温計進行消毒,並有必要將所述記錄在記錄本上 果輸入到計算機中。 、〜口 但是’在上述的背景技術中會發生以下的問題。 ^部分醫院中,為了對入院患者的健康狀態逐一確 認,每天早、中、晚進行3次體溫測量。通常,對所有入 院患者進行體溫測量,獲得溫度數據,並將其進行記錄。 -5- 20 1278302 用於測量體溫的水銀式溫度計,在測量溫度時需要耗 費非常多的時間,而電子式體溫計為了縮短測量體溫的時 間,大多為預測型,由於對最終穩定的平衡溫度進行推測', 若沒有使其和皮膚貼緊,可能產生較大誤差。 5 記錄的工作必須按姓名、體溫、日期時間(時間)的 順序,用鉛筆等、將所有患者的數據正確地進行記^。在 測量體溫的工作中,同時附加這個記錄的工作,作為測量 溫度的護士一方,變成了一種繁雜的工作。另外時二 為被測量溫度的入院患者一方,也變成了一種很費神的工 ίο 作。 作為測量溫度以外的記錄的工作,對每個患者,將^ 日3次記錄的體溫,作為歷史記錄並用電子數^的方式保 存在計算機中,為了將隨時間變化的體溫用圖表示出 遵士必須通過鍵盤將數據輸入,是一種很費時間的工作, 15增加了護士的工作量。 【發明内容】 本發明’是鑒於以上的問題而產生的,一種特徵為接 收能接收到電波並產生電源、讀取溫度並將溫度變1無線 20 ,出的溫度測量發送裝置所發出的溫度變化信號的溫^測 量接收裝置,備有:對溫度測量發送裝置供給電波的^波 供給電路;接收來自所述溫度測量發送裝置的所述無線輸 出的接收電路;將來自所述接收電路的溫度變化進行顯示 的顯示部。另外,所述接收電路,其特徵為備有能識別接 -6- 1278302 收到的所述溫度信息,並在該結果為某個溫度以上時,發 出聲音的發聲裝置。另外,其特徵為裳備有存儲器,將所 述溫度信息存儲在所述存儲器中’所述存儲器可以改寫。 另外,將所述存儲器中存儲的所述溫度信息,通過外部接 口,發送到個人計算機中。 如上述所述,通過本發明,接收到電波並產生電源, 讀取溫度’與將溫度變化無線輸出的溫度測量發送裝置相 對,將溫度變化信號接收的溫度測量接收裝置, 10 通過備有:對所述溫度測量發送褒置供給電波的電波 接收來自所述溫度測量發送裝置的無線輸出的 =“路,將來自該接收電路的溫度變化騎顯示的顯示 ^以將溫度檢測的數據無線接收,並將溫度檢測的數 據正確地錢,保存的工作瞬時地完成,可以減輕溫 測的記錄工作的工作量。 15 【實施方式】 以下’參照附圖,對本發明的實施方式進行說明。 第:圖為’表示本發明的溫度測量接收裝置的方框 圓,亚f示了第三圖的讀取裝置2的細節。 在#取裝置2中’ 1G為進行讀取裝置的 稱CPU)’丨1為和計算機4進行數射換的外部 以T ’稱外部I/F),12為讀取裝置的操作開關, 中#用_、— | 14為系統CLK及時鐘功能 、又盟态,15為暫時保存接收的數據的存儲器,16 -7- 20 1278302 為包含共振電路的RF驅動器,17為RF接收電路,18為 天線。 一 第二圖為,表示第一圖的溫度測量接收裝置,及第三 囷的4著塾1中内置的1C芯片6組裝使用的情況的方框圖。 5 在黏著墊1中内置的1C芯片6中,20為進行控制的 CPU,21為RF部,22為天線,23為識別ID代碼及,存 放程序的EEPROM,24為AD轉換器(以下稱a/D),乃 為熱敏電阻構成的溫度傳感器,26為改寫EEPROM23内存 儲的識別ID代碼的外部I/F , 27為備有通過將用天線22 W接收的電波整流來發電產生電源電壓的發電功能的發電 路。 第三圖為,表示本發明的實施方式的系統圖,i為人的 皮膚上展開的黏著墊,2為從IC芯片讀取數據並保存的數 據讀取裝置,3為計算機和進行數據通信的帶充電功能的插 15座,4為負責控制整個系統的個人計算機(以下,稱計算 機),5為連接插座3和計算機4的電纜,6為黏著墊中包 含的1C芯片。 第一圖為表示實施例的細節的方框圖,從插座3,將讀 取裝置2取出,在被測溫者的附近,通過打開操作開關12, 2〇攸讀取裝置2的天線18輸出i〇mw程度的微弱無線信號, 人的皮膚上展開的黏著墊1,接收到這個RF載波,將所述 RF載波整流,並自激發電產生電源電壓。在黏著墊丨中, 内置有通過所述VDD的能夠驅動的IC芯片6,通過1(:芯 片内的溫度傳感器,測量被測溫者的體溫。 -8- 1278302 另外,在實施例中,雖然備有通過接收的電波來自激 發電的發電電路,但也可以用内置電池來代替。 將測里出的被測溫者的體溫數據和所述Ic芯片内的 EEPROM中記錄的被測溫者識別數據相結合,通過所述圯 5芯片内的RF部,從天線,將所述的被測溫者的識別數據及 被測溫者的體溫數據無線輸出。 在備有接收所述無線輸出的模塊的所述讀取裝置中, 接收所述無線輸出,將無線數據轉換為數字數據,在轉換 為數字數據的體溫數據中,再附加時間數據,記錄在作為 10所述讀取裝置内的記錄模塊的存儲器中。 一 也可將所述體溫數據識別,在其結果為某個溫度以上 時,鳴響報警,引起注意。 將所述的存儲器中記錄的體溫數據及時間數據,用與 插座連接的電麗,發送到計算機中,並保存在計算機内裝 15備的硬盤中’元成一連串的測量、記錄、保存工作。 值度傳感器25,在黏著墊内與皮膚緊密接觸,與通常 的=測型不同,長時間地與皮膚緊密接觸。也不需要推測 的間,Sb夠測里真正的體溫。因此,減少了測量的誤差。 以下,對第二圖的動作根據第四圖的流程圖進行說明。 2〇 首先,將讀取裝置2的操作開關12在靠近黏著墊i並 打開,將在讀取裝置2的RF驅動器16中產生的共振波形 通過天線18,以l〇mW程度的微弱無線信號進行輸 驟 S1)。 ^ 另一方面,接收到微弱無線信號的1C芯片ό,通過天 1278302 線22及RF部21接收,並在發電電路27中將載波整流並 自激發電產生電源電壓VDD,將自激發電的VDD供給到 1C芯片6整體中(步驟S2)。 溫度傳感器25由隨人的體溫變換敏感地變化的熱敏電 阻構成’將熱敏電阻的電阻值電壓轉換並送到A/D24中, A/D24將模擬量的電壓電平轉換為數字量,並將所述的數 字量送到CPU20 (步驟S3)。 CPU20 ’獲得所述數字量,暫時保存在cpu2〇的寄存 器中’並且CPU20,將所述的内部寄存器中暫時保存的數 據,及預先備有的EEPROM中存有的ID代碼結合起來, 將數字數據輸出給RF21 (步驟S4)。 RF部12 ’將所述數字數據轉換為無線數據,通過天線 22無線輸出(步驟S5)。 15 20 接著,讀取裝置2,通過天線18在rf接收電路17中, 接收來自1C芯片6的數據,rf接收電路17,將數據轉換 為數子量’輸出給CPU10 (步驟S6)。 CPU10,在所述的數字量上,附加當前的時間信息, 存儲在存儲器15中(步驟S7)。 到此完成了對被測溫者i人的從溫度測量到記錄,判 斷是否對全部被測溫者的測溫結束。 旦所有的被測溫者的溫度測量已經結束時,結束溫度測 ^工作’妨結束時,返回S卜進行下—>ί目被測溫者的 υ ΐ二反復進行S1〜S8剩下的被測溫者的人數次。 第五圖為,表示第三圖的讀取裝置和計算機4的細節 -10- l2783〇2 =方框圖。1〇〜18,對與第三圖同樣的電路 並省略對魏明。3G為㈣ 固符號, = cPU’31為保存應用的軟件,及/自 5 10 15 捿硬盤(以下稱_)’32為能與内部總線連:= 接口之類的外部I/F,33為LCD控制器,34 —日1⑽ 35 Λ τ/ρ ^ t λ. 為液日日顯示部, 為串仃I/F ’ 36為與串行削5連接的鍵盤,3 F,38為與串行I/F連接的鼠標。 為串订 若對财的制溫者_㈣束,將數據讀取裝置插 f座3中,數據_取裝置2中,通過外部〗趣將存儲器 、、5中存儲的數據發送,所述祕存的數據,通過電镜5傳 送到計算機4,所述計算機4通過外部1/1?32接收數據,送 硬i 31中,在硬盤31中,記錄的數據(被測溫者的識 別ID數據、體溫數據、測量日期時間數據)被保存。 另外,實施例中,雖然展示了通過電纜的有線通信的 示例,但也可通過無線通信,傳送到計算機4中。 第六圖為,所述HDD31中記錄的數據,對每個被測溫 者,按識別ID數據、體溫數據、測量日期時間數據的順序 進行保存’並成為一個數據庫。 還有,使用用CPU30運行的應用軟件,可以應用所述 20數據庫中保存的數據。 例如,第七圖為,有效地應用所述數據庫的一例,通 過將每個人過去的記錄用1天、3天、1周為單位用圖表示’ 在對患者的狀態的掌握上能夠起到作用,能對測量的數據 有效地應用。 -11 - 1278302 第八圖為,表示本發明的其他的實施方式的構成圖。 弟八圖的實施方式中’與第二圖的不同點為,對内置有IC 芯片的黏著墊1内的EEPROM23進行改寫的識別冚改寫 f,及將計算機4和識別ID改寫# 7連接的魏8。對與 5第二圖相同的電路,附加同—個符號,並且省略對其說明。 計算機4和識別ID改寫台7,通過電鐵8連接,用計 算機4 ’可以對IC芯片内的EEpR〇M23進行容易地改寫。 識別1D改^ 7巾,為了改 EEPROM23 ’設有連接端子,用所述端子,可以 10 EEPROM23 的内容。 。 第九圖為’表示第八圖的第二圖的讀取裝置和計管機 和識別ID改寫台7的細節的方框圖,對與第二圖相^ 路,附加同一符號,並省略對其說明。 151278302 IX. Description of the Invention: [Technical Field to Be Invented by the Invention] The present invention relates to a temperature-transmitting apparatus that can accurately and accommodate (iv) the burden on the body temperature of the person to be measured and the burden on the person who is temperature-reducing. 5 [Prior Art] 10 15 Body temperature, heart rate, breathing, and blood, which are directly related to the maintenance of life, are generally called vital signs. If the vital signs are stable under a certain value (normal value), life can be considered The control works well, and if it is unstable, it is not known that it is not positive. Therefore, as a hospital, there is a need to measure the body temperature of a patient in a daily hospital. [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. 2002-512829. The thermometer was distributed, and the patient admitted himself to the thermometer under his armpit. After a certain period of time, the nurse re-taken the thermometer from the patient who was admitted to the hospital, read the temperature measurement result, and recorded it on the record book. Also, after all patients have been patrolled, all recovered thermometers are sterilized and it is necessary to enter the records in the notebook into the computer. 〜口 However, the following problems occur in the above background art. In some hospitals, in order to confirm the health status of patients admitted to the hospital, three body temperature measurements were taken every morning, mid, and evening. Typically, all patients who are admitted to the hospital are subjected to temperature measurements, temperature data is obtained, and recorded. -5- 20 1278302 Mercury thermometers for measuring body temperature take a lot of time to measure temperature, while electronic thermometers are mostly predictive in order to shorten the time for measuring body temperature, because the final stable equilibrium temperature is estimated. ', if it does not make it close to the skin, it may cause a large error. 5 Recorded work must be recorded correctly in the order of name, body temperature, date and time (time), and all patients' data with a pencil or the like. In the work of measuring body temperature, the work of attaching this record at the same time as the nurse side of measuring temperature becomes a complicated work. In addition, the second time, the patient who was admitted to the temperature of the measurement, became a very troublesome work. As a work of recording other than the temperature, for each patient, the body temperature recorded three times a day is recorded as a history and stored in the computer by the number of electrons, and the body temperature is changed in time. The need to enter data through the keyboard is a very time consuming task, 15 increasing the workload of the nurse. SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and is characterized in that it is capable of receiving a radio wave and generating a power source, reading a temperature, and changing the temperature to a wireless temperature 20, and the temperature measurement by the transmitting device changes. a temperature measuring and receiving device for a signal, comprising: a wave supply circuit for supplying a radio wave to the temperature measuring transmitting device; a receiving circuit for receiving the wireless output from the temperature measuring transmitting device; and a temperature change from the receiving circuit The display unit that displays. Further, the receiving circuit is characterized in that it is provided with a sound generating device capable of recognizing the temperature information received by the connector -6 - 1278302 and generating a sound when the result is a certain temperature or higher. Further, it is characterized in that it has a memory and stores the temperature information in the memory. The memory can be rewritten. Further, the temperature information stored in the memory is transmitted to a personal computer through an external interface. As described above, according to the present invention, the radio wave is received and the power source is generated, and the reading temperature ' is opposite to the temperature measuring transmitting device that wirelessly outputs the temperature change, and the temperature measuring receiving device that receives the temperature change signal is provided with: The temperature measurement transmitting device receives a radio wave from the wireless device that receives a wireless output from the temperature measuring transmitting device, and displays a display of the temperature change from the receiving circuit to wirelessly receive the temperature detected data. The data of the temperature detection is correctly and the saved work is instantaneously completed, and the workload of the recording work of the temperature measurement can be reduced. [Embodiment] Hereinafter, an embodiment of the present invention will be described with reference to the drawings. 'Indicating the circle of the temperature measuring receiving device of the present invention, the detail of the reading device 2 of the third drawing is shown. In the #取装置2, '1G is the CPU for performing the reading device' 丨1 is The external input with the computer 4 for digital conversion is called T' external I/F), 12 is the operation switch of the reading device, and the medium # uses _, - | 14 for the system CLK and clock function. And the confederation, 15 is a memory for temporarily storing the received data, 16 -7- 20 1278302 is an RF driver including a resonant circuit, 17 is an RF receiving circuit, and 18 is an antenna. A second figure shows the temperature of the first figure A block diagram of a case where the measurement receiving device and the 1C chip 6 built in the third port are assembled and used. 5 In the 1C chip 6 built in the adhesive pad 1, 20 is a CPU for control, and 21 is an RF unit. 22 is an antenna, 23 is an ID code identifying and storing an EEPROM, 24 is an AD converter (hereinafter referred to as a/D), is a temperature sensor composed of a thermistor, and 26 is an identification ID code stored in the EEPROM 23. The external I/F, 27 is a transmission circuit provided with a power generation function for generating a power supply voltage by rectifying radio waves received by the antenna 22 W. The third diagram is a system diagram showing an embodiment of the present invention, i is a person The adhesive pad unfolded on the skin, 2 is a data reading device for reading data from the IC chip and stored, 3 is a computer and a charging device for data communication, and 15 is a personal computer responsible for controlling the entire system ( Following, the calculation 5 is a cable connecting the socket 3 and the computer 4, and 6 is a 1C chip included in the adhesive pad. The first figure is a block diagram showing the details of the embodiment, from the socket 3, the reading device 2 is taken out, and the temperature is measured. In the vicinity of the person, by opening the operation switch 12, the antenna 18 of the reading device 2 outputs a weak wireless signal of the degree i〇mw, the adhesive pad 1 unfolded on the human skin, receives the RF carrier, and the RF is received. The carrier rectifies and generates a power supply voltage from the self-excitation. In the adhesive pad, a driveable IC chip 6 through the VDD is built in, and the body temperature of the person to be measured is measured by a temperature sensor in the chip (1). -8- 1278302 Further, in the embodiment, although the power generation circuit that generates electric power by the received electric wave is provided, it may be replaced by a built-in battery. Combining the measured body temperature data of the measured temperature with the measured temperature identification data recorded in the EEPROM in the Ic chip, and passing the RF portion of the 圯5 chip, from the antenna, The identification data of the person to be measured and the body temperature data of the person to be measured are wirelessly output. In the reading device provided with the module that receives the wireless output, the wireless output is received, the wireless data is converted into digital data, and in the body temperature data converted into digital data, time data is added and recorded as 10 in the memory of the recording module in the reading device. The body temperature data can also be identified, and when the result is above a certain temperature, an alarm is sounded to cause attention. The body temperature data and the time data recorded in the memory are sent to the computer by the battery connected to the socket, and stored in a hard disk mounted in the computer, and the measurement, recording, and storage operations are performed in a series. The value sensor 25 is in close contact with the skin in the adhesive pad, and is in close contact with the skin for a long time unlike the usual = measurement type. There is no need to speculate, Sb is enough to measure the true body temperature. Therefore, the measurement error is reduced. Hereinafter, the operation of the second diagram will be described based on the flowchart of the fourth diagram. 2. First, the operation switch 12 of the reading device 2 is opened close to the adhesive pad i, and the resonance waveform generated in the RF driver 16 of the reading device 2 is passed through the antenna 18 to a weak wireless signal of a degree of l〇mW. Input step S1). ^ On the other hand, the 1C chip 接收 receiving the weak wireless signal is received through the day 1278302 line 22 and the RF unit 21, and the carrier circuit is rectified and self-excited to generate the power supply voltage VDD in the power generating circuit 27, which will self-excitation VDD. It is supplied to the entire 1C chip 6 (step S2). The temperature sensor 25 is composed of a thermistor that is sensitively changed by the body temperature change. 'The resistance voltage of the thermistor is converted and sent to the A/D 24, and the A/D 24 converts the analog voltage level into a digital quantity. The digital quantity is sent to the CPU 20 (step S3). The CPU 20' obtains the digital amount and temporarily stores it in the register of cpu2〇' and the CPU 20 combines the data temporarily stored in the internal register and the ID code stored in the EEPROM prepared in advance to convert the digital data. Output to RF21 (step S4). The RF unit 12' converts the digital data into wireless data and wirelessly outputs it via the antenna 22 (step S5). Next, the reading device 2 receives the data from the 1C chip 6 in the rf receiving circuit 17 via the antenna 18, and the rf receiving circuit 17 converts the data into the number of pieces 'output to the CPU 10 (step S6). The CPU 10 adds the current time information to the digital amount and stores it in the memory 15 (step S7). At this point, the temperature measurement to the record of the person being measured is completed, and it is judged whether or not the temperature measurement is completed for all the persons to be measured. Once all the temperature measurement of the temperature-measured person has been completed, the end of the temperature measurement work is completed, and when it is finished, it is returned to the next--there is the remaining part of S1~S8. The number of people who are being measured. The fifth figure shows the details of the reading apparatus and computer 4 of the third drawing - -10- l2783 〇 2 = block diagram. 1〇~18, the same circuit as the third figure and omitted Wei Ming. 3G is (four) solid symbol, = cPU'31 is the software for saving the application, and / from 5 10 15 捿 hard disk (hereinafter referred to as _) '32 is connected to the internal bus: = external I/F such as interface, 33 is LCD controller, 34 - day 1 (10) 35 Λ τ / ρ ^ t λ. For the liquid day display section, the serial I/F ' 36 is the keyboard connected to the serial cut 5, 3 F, 38 is the serial I/F connected mouse. For the serialization of the _ (four) bundle of the financial controller, the data reading device is inserted into the f-seat 3, and the data_taking device 2 transmits the data stored in the memory, 5, by external interest, the secret The stored data is transmitted to the computer 4 through the electron microscope 5, and the computer 4 receives the data through the external 1/1?32, and sends it to the hard disk 31. In the hard disk 31, the recorded data (identification ID data of the temperature-measured person) , body temperature data, measurement date and time data) are saved. Further, in the embodiment, although an example of wired communication through a cable is shown, it can also be transmitted to the computer 4 by wireless communication. In the sixth figure, the data recorded in the HDD 31 is stored in the order of identification ID data, body temperature data, and date and time data for each of the subjects to be measured, and becomes a database. Also, the data stored in the 20 databases can be applied using the application software run by the CPU 30. For example, the seventh figure is an example in which the database is effectively applied, and the past record of each person is represented by a graph for one day, three days, and one week, and can function in grasping the state of the patient. Can effectively apply the measured data. -11 - 1278302 FIG. 8 is a configuration diagram showing another embodiment of the present invention. In the embodiment of the eighth diagram, the difference from the second figure is that the EEPROM 23 in the adhesive pad 1 in which the IC chip is built is rewritten, the falsification is written, and the computer 4 and the identification ID are rewritten to #7. 8. The same reference numerals are attached to the same circuits as those in the second diagram, and the description thereof will be omitted. The computer 4 and the identification ID rewriting station 7 are connected by the electric iron 8, and the computer 4' can easily rewrite the EEpR 〇 M23 in the IC chip. In order to recognize the 1D change, the EEPROM 23' is provided with a connection terminal, and the terminal can be used to display the contents of the EEPROM 23. . The ninth drawing is a block diagram showing details of the reading device and the metering machine and the identification ID rewriting table 7 of the second drawing of the eighth drawing, and the same reference numerals are attached to the second drawing, and the description thereof is omitted. . 15
在黏著墊1中添加的地方為,添加了可以 EEPROM23的外部I/F26,在計算機4中添加的地方: 加了外部I/F39,可以和黏著墊丨進行數據通信。〜、,每 -12- 1278302 【圖式簡單說明】 第一圖表示本發明的溫度測量接收裝置的方框圖。 第二圖包含本發明的溫度測量接收裝置的方框圖。 第三圖表示本發明的溫度測量接收裝置的系統圖。 5 第四圖表示本發明的實施方式的流程圖。 第五圖表示本發明的實施方式的方框圖。 第六圖表示在本發明的實施方式中,記錄的數據的一 例的圖。 第七圖表示在本發明的實施方式中,應用的一例的圖。 10 第八圖表示本發明的其他的實施方式的系統圖。 第九圖表示本發明的其他的實施方式的方框圖。 -13- 1278302The place where the adhesive pad 1 is added is the external I/F 26 which can be added to the EEPROM 23, and is added to the computer 4: The external I/F 39 is added to perform data communication with the adhesive pad. ~, every -12 - 1278302 [Simplified description of the drawings] The first figure shows a block diagram of the temperature measuring receiving apparatus of the present invention. The second figure contains a block diagram of the temperature measuring receiving apparatus of the present invention. The third diagram shows a system diagram of the temperature measuring receiving device of the present invention. 5 The fourth diagram shows a flow chart of an embodiment of the present invention. The fifth figure shows a block diagram of an embodiment of the present invention. Fig. 6 is a view showing an example of data recorded in the embodiment of the present invention. Fig. 7 is a view showing an example of an application in the embodiment of the present invention. 10 is a system diagram showing another embodiment of the present invention. Figure 9 is a block diagram showing another embodiment of the present invention. -13- 1278302
【主要元件符號說明】 1黏著墊 2讀取裝置 3插座 4計算機 5電纜 6 1C芯片 5 7識別ID代碼改寫台 10中央處理器CPU 8電纜 11外部I/F 12操作開關 13液晶顯示部 14振盪器 15存儲器 16 RF驅動器 10 17 RF接收電路 19電池 20中央處理器CPU 18天線 21 RF 部 22天線 23 EEPROM 24 AD轉換器 15 25溫度傳感器 27發電電路 30中央處理器CPU 26外部I/F 31 硬盤(HDD) 32外部I/F 33 LCD控制器 34液晶顯不部 20 35串行I/F 36鍵盤 37串行I/F 39外部I/F 38鼠標 -14-[Main component symbol description] 1 adhesive pad 2 reading device 3 socket 4 computer 5 cable 6 1C chip 5 7 identification ID code rewriting table 10 central processing unit CPU 8 cable 11 external I/F 12 operation switch 13 liquid crystal display portion 14 oscillation 15 memory 16 RF driver 10 17 RF receiving circuit 19 battery 20 central processing unit CPU 18 antenna 21 RF unit 22 antenna 23 EEPROM 24 AD converter 15 25 temperature sensor 27 power generation circuit 30 central processing unit CPU 26 external I / F 31 hard disk (HDD) 32 External I/F 33 LCD Controller 34 LCD Display 20 35 Serial I/F 36 Keyboard 37 Serial I/F 39 External I/F 38 Mouse-14-