JP2007229079A - Body temperature measuring instrument - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a body temperature measuring instrument capable of easily recognizing a sudden body temperature change due to an infectious disease such as a cold, influenza or RS (Respiratory Syncytial) viruses or the like. <P>SOLUTION: The body temperature measuring instrument can store the trend of a body temperature obtained in a body temperature measuring part and store and display biological information such as a pulse rate, a blood pressure and blood oxygen saturation (SPO<SB>2</SB>) together. Also, the instrument is further provided with a judgement means for performing comparison with body temperature data at normal time obtained beforehand and judging the condition of a subject. Also, information judged by the judgement means is reported or displayed by voice or an alarm or the like. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a body temperature measuring device that can easily grasp a sudden body temperature change due to an infection such as a cold, influenza, RS (Respiratory Syncytial) virus, and the like. The present invention relates to a body temperature measuring device that can be displayed and can store and display biological information such as pulse rate, blood pressure, blood oxygen saturation (SPO ₂ ).

There has been proposed a monitoring system that measures biological information and behavior information, estimates an infant's condition, and can take an appropriate response to the incident of the infant (Japanese Patent Laid-Open No. 2004-181218). . However, it is not a matter of judging how a sudden change in body temperature due to an infection or the like differs from normal. As a system for improving this, a system that determines the urgency level of a biological signal and generates an alarm has been proposed (Patent Document 3: Japanese Patent No. 3661686). However. For body temperature, large threshold values of 40 ° C. and 34 ° C. are set and compared, and an alarm is not generated due to a trend change.
JP 2004-181218 A Japanese Patent No. 3661686

The object of the present invention is to provide a body temperature measuring device that can easily grasp rapid body temperature changes due to colds, influenza, infections such as RS (Respiratory Syncytial) virus, etc. An object of the present invention is to provide a body temperature measuring device which can be stored and displayed, and can store and display biological information such as pulse rate, blood pressure, blood oxygen saturation (SPO ₂ ) and the like together.

In order to solve the above-mentioned problems, the body temperature measuring device of the present invention stores the body temperature obtained by the body temperature measuring unit as a trend and also stores biological information such as the pulse, blood pressure, blood oxygen saturation (SPO ₂ ), and the like. It can be displayed. Further, the apparatus further comprises a judging means for judging the state of the subject by comparing with normal body temperature data obtained in advance. Further, the information judged by the judging means is notified or displayed by voice, alarm or the like.

According to the body temperature measuring device of the present invention, a rapid change in body temperature due to an infectious disease such as a cold, influenza, RS (Respiratory Syncytial) virus, etc. can be easily grasped, and a body temperature that helps to accurately prescribe medication. A measuring device is obtained.

<Configuration of mobile terminal>
Hereinafter, it demonstrates according to drawing. The portable terminal 50 stores a display unit 11, a notification means 19 such as a buzzer, a wireless IC tag reading unit 13, an input unit 14, a storage unit 15, a processing flow, and the like, and stores a computer-readable program. RAM 16, ROM 17, and external communication unit 12 that performs communication via an information communication network (not shown) such as the Internet using i-mode. Information on vaccinations (inoculations for influenza, mumps, polio, pertussis, rubella, measles, tuberculosis, etc.) and past medication data (necessary for medications that avoid allergic reactions) are also input that also function keys The data can be input and stored and displayed on the unit 14. In addition, input items are appropriately selected by the input unit 14, and ID data (name, age, sex, date of birth, etc.), body temperature, body weight (determination of dosage) of the subject (patient, infant, user, etc.) Necessary), blood pressure, pulse, blood oxygen saturation, blood glucose level, etc. can be input, memorized and displayed.

The body temperature measured by the battery built-in IC tag 200 (see FIG. 2C) can also be stored in the portable terminal 50 from the external communication unit 203 via the connection terminal 12a. Further, a blood oxygen saturation measuring unit (pulse oximeter) as shown in FIG. 3A is directly connected to the connection terminal 12a of the portable terminal 50, and the measured blood oxygen saturation (SPO ₂ ) and pulse are measured. It can be stored and displayed, and blood oxygen saturation (SPO ₂ ) and pulse can be displayed as real-time values during measurement. In addition, a blood pressure measurement unit for measuring blood pressure by wearing it at an appropriate location on the auricle as shown in FIG. 3B is directly connected to the connection terminal 12a of the portable terminal 50 to measure the blood pressure value (maximum blood pressure / minimum blood pressure). It can be displayed. In this case, the inner volume of the cuff is extremely small, and the burden on the blood pressure measurement can be reduced for the subject P.

Note that the body temperature, blood pressure, pulse, blood oxygen saturation, blood glucose level, etc. are separately measured by a measuring device for obtaining biological information, together with the ID data of the subject P, together with the measurement date and time, the input unit 14 You may make it input and memorize | store.

<Configuration of IC tag>
In FIG. 2, reference numeral 100 denotes an IC tag with temperature sensor (RFID) (body temperature measuring unit) configured to operate in response to a communication signal from the outside. A RAM 101 is a computer-readable storage medium that stores a program that receives a signal from the IC tag reading unit 34 and operates the logic unit 110 in a predetermined flow. An EEPROM 102 stores an offset value, a temperature correction value, and the like corresponding to each temperature sensor 106. Also, body temperature information can be stored. The logic unit 110 may be a CPU that can control a more complicated processing flow.

As the temperature sensor 106, a semiconductor type that outputs analog almost linearly with respect to temperature change, can be miniaturized and integrated with an IC tag, and has a temperature resolution of 0.05 ° C. between 35 to 42 ° C. However, a thermistor type or thermopile (thermocouple) type is also possible. Reference numeral 103 denotes a transmission / reception circuit for acquiring body temperature information of an IC tag (RFID) 100 having a temperature measurement unit provided in the subject P, 103a denotes an antenna, and 104 denotes a power supply unit. The power supply unit 104 supplies power to each unit of the IC tag 100 having the temperature measurement unit when the body temperature information is read through the antenna unit 103a having a coil. Reference numeral 107 denotes an A / D converter, which A / D converts a body temperature signal generated by the temperature sensor 106 and an oscillation circuit (not shown). The IC tag 100 includes the antenna 103a and has a width W of 5 mm × 5 mm and a thickness T of about 1.5 mm. The IC tag 100 may be any frequency as long as it can communicate (transmit / receive) with an electromagnetic wave having a frequency that can pass through a living body, but preferably can transmit with an electromagnetic wave of 13.56 MHz. . In addition, an anti-coregion type can be used so as not to acquire information on the wrong subject P, or a signal outputted from the antenna 103a can be encrypted to have a security function.

Since the body temperature information can also be stored in the EEPROM 102, the body temperature information can be stored continuously even if the subject P is transferred to another bed or another room. Further, it is possible to prevent the acquisition of wrong information about the subject P at hospitals, day care centers, etc., and to provide a security function by enabling encryption processing of signals output from the antenna 103a.

Reference numeral 200 denotes an IC tag with a temperature sensor (body temperature measuring unit) that is built in a battery and configured to store body temperature (temperature) information at a set time (minute) interval for a maximum of about 360 days. By providing this IC tag with a temperature sensor at an appropriate place on the body of the subject P or at an appropriate place such as a wristband or a diaper, the body temperature for a predetermined healthy time, for example, 24 hours is measured and stored. A RAM 201 is a computer-readable storage medium that stores a program that receives a signal from the IC tag reading unit 34 and operates the logic unit 210 in a predetermined flow. An EEPROM 202 stores an offset value, a temperature correction value, and the like corresponding to each temperature sensor 206. Also, body temperature information can be stored. The logic unit 210 may be a CPU that can control a more complicated processing flow.

As the temperature sensor 206, a semiconductor type that outputs analog almost linearly with respect to a temperature change, can be miniaturized and integrated with an IC tag, and has a temperature resolution of 0.05 ° C. between 35 to 42 ° C. However, a thermistor type or thermopile (thermocouple) type is also possible. 203 transmits the stored body temperature information to the portable terminal 50 together with the ID information of the subject P in response to a read request signal from the portable terminal 50 for the body temperature information of the IC tag 200 having the temperature measuring unit provided in the infant P. This is a transmission / reception circuit. Here, the communication is performed by electrical connection by the external transmission / reception unit 203 and the connection terminal 12a, but may be transmitted / received wirelessly by a wireless antenna. Reference numeral 204a denotes a built-in battery, and this built-in battery 204a serves as a power source for all program calculation processing of the IC tag 200 with temperature sensor. Reference numeral 207 denotes an A / D conversion unit that A / D converts a body temperature signal generated by the temperature sensor 206 and an oscillation circuit (not shown). The IC tag 200 has a width W of 5 mm × 5 mm and a thickness T of about 1.5 mm. When communication is performed wirelessly, the IC tag 200 may have any frequency as long as it can communicate (transmit / receive) with an electromagnetic wave having a frequency that can pass through a living body, but preferably has an electromagnetic wave of 13.56 MHz. Can be sent with.

Body temperature information can also be stored in the EEPROM 202 together with the ID information of the subject P, so even if the subject P is transferred to another bed or another room in a hospital or nursery, the body temperature information is continuously stored. it can. Further, it is possible to prevent the acquisition of wrong information about the subject P, or to provide a security function by enabling encryption processing of the signal output from the antenna 203a.

<Acquisition of body temperature information by IC tag with built-in battery>
A user (mother, childcare worker, nurse, nursing / caregiver, etc.) for a subject P such as an infant first has a temperature measuring unit equipped with the IC tag 100 or a temperature measuring unit equipped with the IC tag 200. Can be inserted into the ear canal, surrounded by an enveloping member having a hook-and-loop fastener, etc., detachably attached to a diaper, or provided on a wristband so that the IC tag 100 or 200 can be in contact with the body. Attach or paste in place. Measurement and storage for a predetermined period, for example, one month, one week, one day (24 hours) arbitrarily selected in spring, summer, autumn, and winter. When the IC tag 100 is used, a body temperature reading request signal is sent to the IC tag 100 at a predetermined time interval, for example, every 10 minutes, and the measured body temperature is trend-stored in the storage unit 15 together with the date and time. When the IC tag 200 is used, body temperature information is stored in the EEPROM 202 along with the time. The stored body temperature information is trend-stored together with the date and time in the storage unit 15 of the portable terminal 50 from the external transmission unit 203 via the connection terminal 12a and the signal line. FIG. 4 shows measurement and storage of one day (24 hours) arbitrarily selected in spring, and body temperature information, blood oxygen saturation (SPO ₂ ), and blood pressure information stored together with the time in the EEPROM 202 are displayed on the display unit 11. This is an example.

<Function as a normal body temperature measuring device>
The user (mother, childcare worker, nurse, nursing / caregiver, etc.) felt to the subject P such as an infant and the like to the subject P such as an infant, and felt a little unwell. Sometimes, as described above, a temperature measuring unit including an IC tag (RFID) 100 having a temperature measuring unit is inserted into the external auditory canal with respect to the subject P, or a surrounding member provided with a hook-and-loop fastener or the like. Enclose and wear diapers in a detachable manner or place them on a wristband to attach them to the right place on the body. The measurement is started by starting the count of the measurement start time or by inputting a measurement start time setting (time setting) instruction using the input unit 14 or the like. The body temperature information is a time condition set and input in advance by the input unit 14, for example, when a temperature measurement unit including an IC tag (RFID) 100 having a temperature measurement unit is attached to the subject P and a measurement start instruction is input. The electromagnetic wave having a predetermined frequency, for example, 13.56 MHz is transmitted from the IC tag reading unit 13 to the IC tag 100 after 5 minutes, for example, at the time when the predetermined temperature rise can be confirmed (in this case, the transmission / reception distance is The body temperature information of the temperature sensor 106 obtained in synchronism with the signal is read. The measured body temperature information is stored in the storage unit 15. The peak value of the body temperature information at this time is stored and displayed as the body temperature value at that time together with the date and time. This value is compared with a threshold value. When it is determined that the body temperature information is abnormal (including abnormalities during measurement), an alarm is generated or a sound is notified. When the pulse rate and blood oxygen saturation (SPO ₂ ) are displayed in an overlapping manner, respiratory diseases caused by infections such as influenza and RS (Respiratory Syncytial) virus can be easily grasped.

Moreover, even if it uses IC tag 200 with a built-in battery, it can be used as a normal body temperature measuring device. The user (mother, childcare worker, nurse, nursing / caregiver, etc.) felt to the subject P such as an infant and the like to the subject P such as an infant, and felt a little unwell. Sometimes, a temperature measuring unit including the IC tag 200 having a temperature measuring unit with a built-in battery is inserted into the ear canal or enclosed with an enveloping member having a hook-and-loop fastener, etc. Wear diapers as you like, or place them on a wristband to wear them in the right place. The body temperature information is measured at predetermined time intervals, and the measured body temperature information is stored in the EEEPOM 203. The peak value of the body temperature information at this time is stored together with the date and time as the body temperature value at that time. The stored body temperature information is stored and displayed in the storage unit 50 of the portable terminal 50 via the external transmission / reception unit 203 and the connection terminal 12a. This value is compared with a threshold value. When it is determined that the body temperature information is abnormal (including abnormalities during measurement), an alarm is generated or a sound is notified. When the pulse and blood oxygen saturation (SPO ₂ ) are displayed in an overlapping manner, respiratory diseases caused by infections such as influenza and RS (Respiratory Syncytial) virus can be easily grasped. The IC tag 200 can measure and memorize body temperature of about 1 day for about 3 days, about 5 minutes for about 2 weeks, about 10 minutes for about 1 month, depending on the measurement interval. The measurement interval is set by a dedicated writing device or by the input unit 14 of the main body 50, and written to the EEPROM 202 via the connection terminal 12 a and the external transmission / reception unit 203.

<Other functions and operations>
Other functions and operations will be described in detail below.
(1) Time setting When the portable terminal 50 is turned on or a battery (not shown) is inserted into the portable terminal 50, it is necessary to include the current year / month / day / hour and its sum value from the ROM 16 which is a nonvolatile memory. Read the data. When the mobile terminal 50 is powered on or while the battery is inserted in the mobile terminal 50, a signal is sent to the arithmetic processing unit 10 once every hour from the clock (timer) in a process (not shown). When the arithmetic processing unit 10 receives the signal, it writes the current year / month / day / hour in the ROM 16.

  Next, the read sum value of the current year, month, date, and hour is calculated, and it is confirmed whether it is equal to the read sum value. If they are equal, the process proceeds to the SLEEP state. If they are not equal, it is determined that the read value is invalid, and the error flag FLAGerr is set (= 1).

Next, it waits in the SLEEP state until the power is turned on.

When the power is turned on, FLAGerr is confirmed, and if it is a predetermined condition, for example, if it is other than 1, the operation proceeds to a temperature detecting operation. If FLAGerr is 1, the process proceeds to date / time input processing. Here, a screen prompting the user to input the date / time is displayed, and the user inputs the current year / month / date / time according to the screen. As another method, regardless of the value of FLAGerr, a method of always shifting to the date / time input process when the power is turned on for the first time after inserting the battery is also conceivable. In this case, the sum value and sum check functions are unnecessary. Further, by providing the radio timepiece, the sum value and sum check functions become unnecessary. In this way, the user can quickly and easily set the year, month, day, hour, and minute, and even if the current year, month, day and hour of the EEPROM is damaged, the subject P can quickly set the correct date. Yes. Thus, the set current time is displayed on the display unit 11 by the calendar function based on the clock function and the calendar. That is, while AM and PM indicating AM and PM are displayed, the current time is displayed, and the date is updated every time the time count by the clock function elapses 24 hours, and this date is displayed on the display unit 11 by the calendar function. Is done. In addition, “year” may be displayed on the display unit 11.

The present invention has been described according to the embodiments. However, the present invention is not limited to the embodiments, and the design can be changed as appropriate.

It is a block diagram which shows one Example of this invention. It is a block diagram of the IC tag which has the temperature measurement part which concerns on the Example of this invention. It is a figure which shows the measurement part which acquires the biometric information which concerns on the Example of this invention. It is a figure which shows the example of a display concerning the Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 ... Display part, 14 ... Input part, 16 ... ROM, 17 ... RAM, 50 ... Portable terminal, 100, 200 ... IC tag, 101, 201 ... RAM, 102, 202 ... EEPROM, 103 ... transmission / reception circuit, 103a ... antenna, 106, 206 ... temperature sensor

Claims (3)

A body temperature measuring device that stores body temperature obtained by a body temperature measuring unit as a trend and also stores and displays biological information such as pulse, blood pressure, blood oxygen saturation (SPO ₂ ), and the like. Body temperature measuring device. 2. The body temperature measuring device according to claim 1, further comprising a judging means for judging the state of the subject by comparing with normal body temperature data obtained in advance. The body temperature measuring device according to claim 1, wherein the information determined by the determining means is notified or displayed by voice, an alarm or the like.

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