JP4443335B2 - Portable health care device - Google Patents

Description

  The present invention relates to a portable health care apparatus equipped with a function as a sphygmomanometer and a function as a body fat meter. In particular, the present invention relates to measures for improving usability when measuring blood pressure and body fat.

  It is known that daily health management (prevention of high blood pressure and obesity) is important in preventing adult diseases. For this reason, blood pressure and body fat percentage are regularly measured. In recent years, electric blood pressure monitors and body fat scales for general households have become widespread.

  Conventional sphygmomanometers have arm bands (cuffs), and these cuffs are wound around the upper arm or wrist of a subject, and the cuff is pressurized and filled with air to measure blood pressure. (See, for example, Patent Document 1 below).

  However, conventional sphygmomanometers have problems such as the troublesomeness of wrapping cuffs, discomfort due to pressure when the cuffs are pressurized and filled with air, and concerns about human eyes.

  As a solution to this problem, pulse waves at two or more parts of the body are measured, a time difference to the second pulse wave is obtained with the first pulse wave as a reference, and a blood pressure value can be calculated from the value. The technique is disclosed in Patent Document 2 below.

On the other hand, a body fat meter (see, for example, Patent Document 3 below) that measures body fat percentage that has recently attracted attention as an index for prevention of adult diseases includes a plurality of electrodes that can be contacted from the outside by a subject. The body impedance can be measured by the contact of the subject. In addition, an arithmetic expression for calculating the body fat percentage from the measured impedance is stored. At the time of body fat measurement, the subject inputs height, weight, sex, age, etc. as the body data of the individual, and then performs the above impedance measurement operation, and the calculation based on these body data and body impedance The body fat percentage is determined by the treatment.
JP 2002-51993 A JP 2000-107141 A JP 2002-159461 A

  However, until now, the sphygmomanometer and the body fat scale have been configured as separate devices. For this reason, blood pressure measurement and body fat measurement need to be performed individually by different devices, and not only the measurement work is complicated, but also the time required for the measurement is long. Further, when it is desired to measure blood pressure and body fat at a travel destination or the like, it is necessary to bring both a sphygmomanometer and a body fat meter, which is very complicated.

  This invention is made | formed in view of this point, The place made into the objective is providing the portable health management apparatus which is excellent in portability and can measure a blood pressure and a body fat simultaneously.

-Summary of invention-
The solution of the present invention devised to achieve the above object is to mount a function as a sphygmomanometer and a function as a body fat meter on an information terminal device that is likely to be always carried, such as a mobile phone. ing. In this way, blood pressure measurement and body fat can be performed anytime and anywhere without worrying about human eyes as if operating a mobile phone or other information terminal device so that blood pressure and body fat percentage do not appear to be measured. Measurement is possible.

-Solution-
Specifically, the present invention includes a plurality of pulse wave sensing units configured by light emitting elements and light receiving elements, a plurality of impedance sensing units for measuring body impedance, and pulses from the plurality of pulse wave sensing units. A blood pressure measuring means that receives a wave signal and obtains a blood pressure value from a time difference between pulse waves detected at two or more locations, and a body that calculates a body fat percentage from impedance values between the impedance sensing units and previously input body data The fat percentage calculating means is configured to be housed in a portable casing, and a pair of the light emitting element and the light receiving element is used in combination with a light receiving element and a light emitting element that can communicate with an external device .

According to this specific matter, the blood pressure measurement means receives the pulse wave signal obtained by the light receiving element of one pulse wave sensing unit and the pulse wave signal obtained by the light receiving element of the other one pulse wave sensing unit. The blood pressure value is obtained from the time difference between these pulse waves. On the other hand, the body fat percentage calculating means calculates the body fat percentage based on the impedance values between the impedance sensing units and data such as the body weight, height, age, and sex of the subject. In this way, blood pressure and body fat can be measured simultaneously with a small (portable) health care device. In addition, the blood pressure measurement function can be mounted using the configuration as the conventional communication function as it is.

  In the present solution, the near-infrared region of 780 to 1000 nm or the use of 360 to 660 nm is used as the emission wavelength of the light emitting element and the sensitivity wavelength of the light receiving element.

  The one pulse wave sensing unit and the one impedance sensing unit are integrated so as to sense the same part of the body.

  One specific application form of the portable health care apparatus having such a configuration is that the blood pressure value and the body fat percentage are integrated into a two-fold type mobile phone and the mobile phone is folded. It is the structure which measures. As another application mode, the blood pressure value and the body fat percentage are measured in a state that the mobile phone is integrated into a two-fold type mobile phone and the mobile phone is deployed. Furthermore, it is good also as a structure integrated in a non-folding type mobile phone and measuring a blood pressure value and a body fat percentage.

  According to this, blood pressure measurement and body fat measurement are performed anytime and anywhere without worrying about human eyes, just like operating a mobile phone so that it does not seem to measure blood pressure and body fat percentage be able to.

  In addition, if a display unit for displaying the blood pressure value and the measurement result of the body fat percentage is provided, the subject can easily and quickly confirm the measurement result, and the usability of the portable health management device is further enhanced. Can do.

  Also in this case, it is possible to adopt a configuration in which the blood pressure value and the body fat percentage are measured in a state that the mobile phone is integrated in a two-fold type mobile phone and the mobile phone is folded. Moreover, it is good also as a structure which integrates integrally in a two-fold type mobile phone and measures a blood pressure value and a body fat percentage in the state which this mobile phone was expand | deployed. Furthermore, it is good also as a structure integrated in a non-folding type mobile phone and measuring a blood pressure value and a body fat percentage.

  Even with these configurations, blood pressure and body fat percentage can be measured anytime and anywhere without worrying about human eyes, just like a cell phone operating so that it does not appear to measure blood pressure and body fat percentage. .

  In addition, by using the electrode of the impedance sensing unit also as the electrode of the sensor for fingerprint discrimination, it is possible to mount the body fat measurement function using the configuration as a conventional fingerprint discrimination function as it is.

  In addition, as a configuration that enables the portable health management device according to each of the above-described solutions to communicate with an external device, blood pressure values and body fat percentage information as measurement results are transmitted to the external device by IrDA, or the external device The body data of the subject can be acquired from the above.

  Furthermore, a blood glucose level sensor may be mounted on the portable health management device. Examples of the blood glucose level sensor in this case include a sensor that measures a blood glucose level by a chemical detection method and a sensor that measures a blood glucose level by an optical detection method.

  It is also possible to send the measured biological information to a medical institution using a communication function such as the Internet and receive a diagnosis result using the communication function such as the Internet after making a diagnosis of a doctor. It is.

  In addition, the application software may be executed by the application software execution function based on the measured biological information.

  If an alarm function for notifying the measurement time of blood pressure and body fat is provided, blood pressure and body fat can be measured periodically.

  In addition to mobile phones, the following are listed as devices that incorporate portable health care devices. First, it is built into a personal computer and configured to measure biological information. Further, the biometric information is measured by being incorporated in a mouse used in a personal computer.

  In the present invention, it is possible to measure anytime and anywhere by providing a biological information measurement function in an information terminal device that is always carried. In addition, by integrating the sensing unit, it can be mounted in a small space, so the posture to measure biological information can be as if operating a normal mobile phone, so measurement without worrying about human eyes Can do. Furthermore, if a storage function is installed, daily measurement results can be stored and changes in biological information can be confirmed. In addition, by installing a communication function, it is also possible to send measurement results to an external device, aggregate and measure the measurement results, send the measurement results to a medical institution, and make a doctor's diagnosis, appointment for medical examination, etc. . In addition, by installing an alarm function, you can measure without forgetting at a fixed time every day, and by installing an application software execution function, you can perform an application using changes in biological information at any time. You can manage your health everywhere.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The present invention describes a case where a portable health management apparatus is configured using a mobile phone as a portable information terminal device, a notebook personal computer, or a mouse connected to a personal computer.

-Basic system configuration of portable health management device-
Before explaining the specific configuration of a portable health management device (configuration integrated into a mobile phone or the like), the basic system configuration for performing blood pressure measurement and body fat measurement will be described with reference to the measurement block diagram of FIG. To do.

  As shown in FIG. 1, the portable health care apparatus includes a first pulse wave sensing unit 2 for measuring a pulse wave from the left hand and a second pulse wave sensing unit 3 for measuring a pulse wave from the right hand. I have.

  The first pulse wave sensing unit 2 includes a first light emitting element 2A and a first light receiving element 2B, while the second pulse wave sensing unit 3 includes a second light emitting element 3A and a second light receiving element 3B. ing. Further, a blood pressure value measuring unit 7 is provided for receiving the pulse wave signals obtained by the first light receiving element 2B and the second light receiving element 3B.

  With this configuration, the left-hand pulse wave signal obtained by the first light-receiving element 2B and the right-hand pulse wave signal obtained by the second light-receiving element 3B are transmitted to the blood pressure value measuring unit 7, and this blood pressure value measurement is performed. A blood pressure value is measured in the unit 7. That is, by obtaining the pulse wave propagation time obtained by the time difference between the pulse waves (pulses) of the two parts, the blood pressure value correlated with the pulse wave propagation time can be known. In addition, in order to sense the pulse of blood vessels, it is necessary to detect the movement of blood in the blood vessels. Sensing is performed using the characteristic that the amount of reflected light decreases due to absorption of oxyhemoglobin when irradiated with light of a wavelength of.

  In addition, the portable health management apparatus includes a first impedance sensing unit 4 and a second impedance sensing unit 5. The first impedance sensing unit 4 is in contact with the left hand and includes a current application electrode 4A and a voltage detection electrode 4B. On the other hand, the second impedance sensing unit 5 is in contact with the right hand and includes a current application electrode 5A and a voltage detection electrode 5B in the same manner as the first impedance sensing unit 4 described above. Furthermore, a numerical value input unit 9 is provided that can input data such as the weight, height, age, and sex of the subject.

  With this configuration, body impedance values measured by the impedance sensing units 4 and 5 and data such as the body weight, height, age, and sex of the subject input from the numerical value input unit 9 are measured. It is transmitted to the unit 6, and the body fat percentage measuring unit 6 is configured to calculate the body fat percentage.

  Information on the blood pressure value and the body fat percentage obtained in this manner is transmitted to the display unit 8 and displayed on the display unit 8 so as to be visible to the subject.

  Here, the first and second pulse wave sensing units 2 and 3 use 780 to 1000 nm which is a near infrared region as the emission wavelength of the first and second light emitting elements 2A and 3A, and the first and second The sensitivity wavelengths of the light receiving elements 2B and 3B are 780 to 1000 nm, which is also in the near infrared region.

  In place of this, 360 to 660 nm is used as the emission wavelength of the first and second light emitting elements 2A and 3A of the first and second pulse wave sensing units 2 and 3, and the first and second light receiving elements are used. You may use 360-660 nm as a sensitivity wavelength of element 2B, 3B. This utilizes the characteristic that absorption of wavelength component light of 360 to 660 nm is high in terms of absorption light characteristics of oxyhemoglobin in blood.

-Explanation of the configuration of the sensing unit-
Next, specific configurations of the pulse wave sensing units 2 and 3 and the impedance sensing units 4 and 5 will be described. The first pulse wave sensing unit 2 and the first impedance sensing unit 4 for the left hand are integrated into a first sensing unit 11, and similarly, the second pulse wave sensing unit 3 and the second impedance for the right hand are used. The sensing unit 5 is integrated and configured as a second sensing unit 12. Each of the sensing units 11 and 12 has the same configuration. For this reason, here, the first (left hand) first sensing unit 11 will be described as a representative.

  FIG. 2 shows the first sensing unit 11, FIG. 2 (a) is a front view, and FIG. 2 (b) is a side view. As shown in these drawings, the first pulse wave sensing unit 2 and the first impedance sensing unit 4 are integrated to form a first sensing unit 11, and a part of a human body (such as a finger of a hand) is formed. The pulse wave sensing and impedance sensing are possible at the same location. Specifically, the first sensing unit 11 has a substantially elliptical shape when viewed from the front, and the first light emitting element 2A and the first light receiving element 2B are accommodated in a recess formed in the center thereof. Further, the current application electrode 4 </ b> A and the voltage detection electrode 4 </ b> B are provided on the surface of the first sensing unit 11, respectively. The second sensing unit 12 has the same configuration.

-Built-in state of mobile phone-
Next, a configuration and measurement operation when the portable health care apparatus having the basic system configuration described above is incorporated into a mobile phone will be described.

(First embodiment)
FIG. 3 shows a measurement operation in the case where the portable health care apparatus is integrated into the folded mobile phone 16.

  As shown in FIG. 3, sensing units 11 and 12 are disposed at both ends in the longitudinal direction when the cellular phone 16 is closed. When measuring blood pressure and body fat percentage, with the mobile phone 16 closed, the left hand 20 thumb is brought into contact with the first sensing unit 11 and the right hand 21 thumb is brought into contact with the second sensing unit 12. Let Thereby, the pulse wave signal of the left hand obtained by the first light receiving element 2B of the first sensing unit 11 and the pulse wave signal of the right finger obtained by the second light receiving element 3B of the second sensing unit 12 are blood pressure. The blood pressure value is measured by being transmitted to the value measuring unit 7. In addition, the body impedance value measured between the first impedance sensing unit 4 of the first sensing unit 11 and the second impedance sensing unit 5 of the second sensing unit 12, Data such as the examiner's weight, height, age, and sex are transmitted to the body fat percentage measurement unit 6, and the body fat percentage measurement unit 6 calculates the body fat percentage. The blood pressure value and the body fat percentage obtained in this way are displayed on a display screen 81 of the mobile phone (sub-screen in the case of the half-folded mobile phone 16).

(Second Embodiment)
The present embodiment is a case where the portable health care apparatus is integrally incorporated in a half-foldable mobile phone 16, and the blood pressure value and the body fat percentage are measured in a state where the mobile phone 16 is expanded (opened). It is what I did. Since the basic system configuration for performing blood pressure measurement and body fat measurement and the configuration of the sensing units 11 and 12 in the present embodiment are the same as those described above, description thereof is omitted here.

  FIG. 4 shows the front side of the cellular phone 16 according to the present embodiment in a state where the cellular phone 16 is unfolded. The first sensing unit 11 is arranged at a position where the left thumb comes naturally when a person holds the cellular phone with both hands. The second sensing unit 12 is disposed at a position where the right thumb comes naturally when a person holds the mobile phone with both hands.

  For this reason, when measuring blood pressure and body fat percentage, with the mobile phone 16 deployed, the first sensing unit 11 is brought into contact with the left thumb and the second sensing unit 12 is brought into contact with the right hand thumb. . Thereby, the pulse wave signal of the left hand obtained by the first light receiving element 2B of the first sensing unit 11 and the pulse wave signal of the right finger obtained by the second light receiving element 3B of the second sensing unit 12 are blood pressure. The blood pressure value is measured by being transmitted to the value measuring unit 7. Further, the body impedance value measured between the first impedance sensing unit 4 of the first sensing unit 11 and the second impedance sensing unit 5 of the second sensing unit 12, and the test input from the numerical value input unit 9 Data such as a person's weight, height, age, and sex is transmitted to the body fat percentage measuring unit 6, and the body fat percentage measuring unit 6 calculates the body fat percentage. The blood pressure value and the body fat percentage thus obtained are displayed on the display screen (main screen) 8 of the mobile phone.

(Third embodiment)
The present embodiment is a case where the portable health care apparatus is integrally incorporated in a half-foldable mobile phone 16, and the blood pressure value and the body fat percentage are measured in a state where the mobile phone 16 is expanded (opened). It is a modification in the case of doing so. Also in this embodiment, the basic system configuration for performing blood pressure measurement and body fat measurement and the configurations of the sensing units 11 and 12 are the same as those described above, so the description thereof is omitted here.

  FIG. 5 shows the back side of the cellular phone 16 according to the present embodiment in a state where the cellular phone 16 is unfolded. When the first sensing unit 11 holds the cellular phone with both hands (so as to face the front of the cellular phone 16). The second sensing unit 12 is arranged at a position where the right hand index finger comes naturally when the person holds the mobile phone with both hands.

  For this reason, when measuring the blood pressure and the body fat percentage, the left index finger is brought into contact with the first sensing unit 11 and the right index finger is brought into contact with the second sensing unit 12 with the mobile phone 16 being deployed. . Thereby, the pulse wave signal of the left hand obtained by the first light receiving element 2B of the first sensing unit 11 and the pulse wave signal of the right finger obtained by the second light receiving element 3B of the second sensing unit 12 are blood pressure. The blood pressure value is measured by being transmitted to the value measuring unit 7. Further, the body impedance value measured between the first impedance sensing unit 4 of the first sensing unit 11 and the second impedance sensing unit 5 of the second sensing unit 12, and the test input from the numerical value input unit 9 Data such as a person's weight, height, age, and sex is transmitted to the body fat percentage measuring unit 6, and the body fat percentage measuring unit 6 calculates the body fat percentage. The blood pressure value and body fat percentage obtained in this way are displayed on the display screen 8 of the mobile phone. The display screen 8 may be a display panel on the front side of the mobile phone or a display panel 81 (so-called sub-screen) on the back side.

(Fourth embodiment)
This embodiment is an embodiment in the case where the portable health care apparatus is integrally incorporated in a non-folding type (so-called straight type) mobile phone. Also in this embodiment, the basic system configuration for performing blood pressure measurement and body fat measurement and the configurations of the sensing units 11 and 12 are the same as those described above, so the description thereof is omitted here.

  FIG. 6 shows the front side of the mobile phone 26 according to the present embodiment, and the first sensing unit 11 is arranged at a position where the left thumb may naturally come when a person holds the mobile phone with both hands. Has been. Specifically, the first sensing unit 11 is disposed in the vicinity of the left edge of the center portion in the longitudinal direction (vertical direction in FIG. 6) of the mobile phone 26 or in the vicinity of the left edge of the upper end portion in the longitudinal direction.

  On the other hand, the second sensing unit 12 is disposed at a position where the right thumb may naturally come when a person holds the mobile phone with both hands. Specifically, the second sensing unit is located in the vicinity of the right edge of the center portion in the longitudinal direction (vertical direction in FIG. 6) of the mobile phone 26, the position near the right edge of the upper end portion in the longitudinal direction, or the center position in the left and right direction of the upper end portion in the longitudinal direction. 12 is arranged.

  For this reason, when measuring blood pressure and body fat percentage, the first sensing unit 11 is brought into contact with the thumb of the left hand, and the second sensing unit 12 is brought into contact with the thumb of the right hand. As a result, the blood pressure value and the body fat percentage are measured and the results are displayed on the display screen 8 of the mobile phone 26 as in the case of the above-described embodiments.

  In the case of the present embodiment, the arrangement locations of the first sensing unit 11 and the second sensing unit 12 are not limited to one each, and may be a plurality of locations (each location described above).

(Fifth embodiment)
This embodiment is a modification example in which the portable health care apparatus is integrated into a non-folding (so-called straight type) mobile phone 26. Also in this embodiment, the basic system configuration for performing blood pressure measurement and body fat measurement and the configurations of the sensing units 11 and 12 are the same as those described above, so the description thereof is omitted here.

  FIG. 7 shows the back surface of the mobile phone 26 according to this embodiment, and the first sensing unit 11 is arranged at a position where the left index finger may come naturally when a person holds the mobile phone with both hands. ing. Specifically, the first sensing unit 11 is located at a position in the vicinity of the right edge of the center portion in the longitudinal direction (vertical direction in FIG. 7) on the back surface, a position in the vicinity of the right edge of the upper end portion in the longitudinal direction, or a center position in the left and right direction of the upper end portion in the longitudinal direction. Has been placed.

  On the other hand, the second sensing unit 12 is disposed at a position where the right index finger may naturally come when a person holds the mobile phone with both hands. Specifically, the second sensing unit 12 is disposed in the vicinity of the left edge of the central portion in the longitudinal direction (vertical direction in FIG. 7) on the back surface or in the vicinity of the left edge of the upper end portion in the longitudinal direction.

  For this reason, when measuring blood pressure and body fat percentage, the first sensing unit 11 is brought into contact with the left index finger, and the second sensing unit 12 is brought into contact with the right index finger. As a result, the blood pressure value and the body fat percentage are measured and the results are displayed on the display screen 8 of the mobile phone 26 as in the case of the above-described embodiments.

  Also in this embodiment, the arrangement locations of the first sensing unit 11 and the second sensing unit 12 are not limited to one each, and may be a plurality of locations (each location described above).

(Sixth embodiment)
In this embodiment, an IrDA (Infrared Data Association) light-emitting element that is an infrared communication element mounted on a mobile phone is used as a light-emitting element of a sensing unit. That is, the IrDA light emitting element is used for both functions for communication and pulse wave detection. In this case, the light emission wavelength of the light emitting element and the sensitivity wavelength of the light receiving element are 940 nm, and have a light emission wavelength and a sensitivity wavelength capable of measuring a pulse wave. Further, the IrDA light emitting element can be integrated with an impedance sensing unit to form a sensing unit.

  Incidentally, in a mobile phone having only one IrDA light emitting element, there is a mobile phone using IrDA as the light emitting element of one of the pulse wave sensing units and having two IrDA light emitting elements. Uses IrDA as the light emitting elements 2A and 3A of both pulse wave sensing units 2 and 3.

  FIG. 8 shows a measurement operation in the case where the first sensing unit 11 integrated with the IrDA light emitting element and the impedance sensing unit is provided for the half-foldable mobile phone 16 incorporating the IrDA light emitting element. Yes.

  As shown in FIG. 8, sensing units 11 and 12 are disposed at both ends in the longitudinal direction when the cellular phone 16 is closed. When measuring blood pressure and body fat percentage, with the mobile phone 16 closed, the left hand 20 thumb is brought into contact with the first sensing unit 11 and the right hand 21 thumb is brought into contact with the second sensing unit 12. Let Thereby, the blood pressure value and the body fat percentage are measured in the same manner as in the above-described embodiments. The blood pressure value and the body fat percentage obtained in this way are displayed on a display screen 81 of the mobile phone (sub-screen in the case of the half-folded mobile phone 16).

(Seventh embodiment)
In this embodiment, a portable health care device that uses an IrDA light-emitting element as a light-emitting element of a pulse wave sensing unit and includes a sensing unit integrated with an impedance sensing unit is integrated into a folded mobile phone 16. In this case, the blood pressure value and the body fat percentage are measured with the cellular phone 16 being expanded (opened).

  FIG. 9 shows a state in which the cellular phone 16 according to the present embodiment is deployed. When the first sensing unit 11 in which the IrDA light emitting element and the impedance sensing unit are integrated, a person holds the cellular phone. The second sensing unit 12 is naturally placed at a position where the thumb or index finger of the remaining hand comes when the person holds the mobile phone (shown in FIG. 9). Any one of two locations).

  For this reason, when measuring the blood pressure and the body fat percentage, with the mobile phone 16 deployed, the first sensing unit 11 is brought into contact with the right hand or the left hand, and the second sensing unit 12 is brought into contact with the other hand. . Thereby, the blood pressure value and the body fat percentage are measured, and the results are displayed on the display screen 8 of the mobile phone, as in the case of each of the embodiments described above. Note that the second sensing unit 12 may be disposed at both of the two locations shown in FIG.

(Eighth embodiment)
In this embodiment, a portable health care apparatus that uses a light emitting element of IrDA as a light emitting element of a pulse wave sensing unit and includes a sensing unit integrated with an impedance sensing unit is applied to a non-folding type (so-called straight type) mobile phone 26. It is an embodiment in the case of integrating integrally.

  FIG. 10 shows a mobile phone 26 according to the present embodiment. The first sensing unit 11 in which an IrDA light emitting element and an impedance sensing unit are integrated is a natural right hand when a person holds the mobile phone. Alternatively, the second sensing unit 12 is disposed at a position where the thumb or index finger of the left hand comes and the second sensing unit 12 naturally receives the thumb or index finger of the remaining hand when the person holds the mobile phone (of the two locations shown in FIG. 9). 1).

  Therefore, when measuring blood pressure and body fat percentage, the first sensing unit 11 is brought into contact with the right hand or the left hand, and the second sensing unit 12 is brought into contact with the other hand. Thereby, the blood pressure value and the body fat percentage are measured, and the results are displayed on the display screen 8 of the mobile phone, as in the case of each of the embodiments described above. Even in this embodiment, the second sensing unit 12 may be disposed at both of the two locations shown in FIG.

(Ninth embodiment)
In this embodiment, the cellular phone 16 having a fingerprint sensor and an IrDA light emitting element is provided with a sensing unit that uses the IrDA light emitting element as the light emitting element of the pulse wave sensing unit and is integrated with the impedance sensing unit. A case where the portable health care apparatus is integrally incorporated in a folded-type mobile phone 16, and the blood pressure value and the body fat percentage are measured with the mobile phone 16 being expanded (opened). It is.

  FIG. 11 shows a state in which the mobile phone 16 according to the present embodiment is deployed. When the first sensing unit 11 formed by integrating the IrDA light emitting element and the impedance sensing unit has a person holding the mobile phone, FIG. The second sensing unit 12 which is naturally placed at the position where the right or left thumb or index finger comes and the electrode of the fingerprint sensor and the electrode of the impedance sensing unit is used naturally when the person holds the mobile phone. It is placed at the position where the thumb or forefinger comes.

  For this reason, when measuring the blood pressure and the body fat percentage, with the mobile phone 16 deployed, the first sensing unit 11 is brought into contact with the right hand or the left hand, and the second sensing unit 12 is brought into contact with the other hand. . Thereby, the blood pressure value and the body fat percentage are measured, and the results are displayed on the display screen 8 of the mobile phone, as in the case of each of the embodiments described above.

(10th Embodiment)
Next, a tenth embodiment will be described. In this embodiment, as shown in FIG. 12, a first sensing unit 11 that uses an IrDA light emitting element as a light emitting element of a pulse wave sensing unit and is integrated with an impedance sensing unit, and a second sensing unit 12 are incorporated. A mobile phone 16 capable of infrared communication is used. Then, infrared communication using IrDA is performed with an external device (personal computer) 60 having built-in IrDA 61 and capable of infrared communication, and sends the blood pressure value and body fat percentage measured by the mobile phone 16 to the external device 60. The daily health management is performed, and the height, weight, age, sex, and reference blood pressure are transmitted to the mobile phone 16 with information necessary for measuring the blood pressure value and the body fat percentage from the external device 60. .

(Eleventh embodiment)
In the present embodiment, a portable health care device having a sensing unit that uses an IrDA light emitting element as a light emitting element of a pulse wave sensing unit and is integrated with an impedance sensing unit, for a mobile phone 16 equipped with an IrDA light emitting element. This is a case where the device is integrally incorporated in a two-fold type mobile phone 16, and the blood pressure value, the body fat percentage, and the blood glucose level are measured in a state where the mobile phone 16 is expanded (opened). .

  FIG. 13 shows a state in which the mobile phone 16 according to the present embodiment is deployed. When the first sensing unit 11 formed by integrating the IrDA light emitting element and the impedance sensing unit has a person holding the mobile phone, FIG. The second sensing unit 12 that is naturally placed at the position where the right or left thumb or index finger comes and the electrode of the blood glucose level sensor and the impedance sensing unit is used naturally when the person holds the mobile phone. It is placed where the thumb or index finger comes.

  Therefore, when measuring blood pressure, body fat percentage, and blood glucose level, with the mobile phone 16 deployed, the first sensing unit 11 is brought into contact with the right hand or the left hand, and the second sensing unit 12 is brought into contact with the other hand. Contact. Thereby, the blood pressure value and the body fat percentage are measured as in the case of the above-described embodiments. In addition, the blood glucose level is also measured, and the result is displayed on the display screen 8 of the mobile phone. Furthermore, by infrared communication using the IrDA light emitting element, the measured blood pressure value, body fat percentage, and blood sugar level are sent to the external device 60 for daily health management. Further, the blood pressure value and body fat percentage are obtained from the external device 60. The height, weight, age, sex, and reference blood pressure can be sent to the mobile phone 16 with information necessary for measurement.

  The blood glucose level sensor in the present embodiment may be a known chemical blood glucose level sensor or an optical blood glucose level sensor.

  In the present embodiment, the measured blood glucose level, blood pressure value, body fat percentage, and other biological information is transmitted to a medical institution or the like using a communication function such as the Internet built in the mobile phone 16, and the doctor makes a diagnosis. After performing the above, it is possible to return the diagnosis result to the mobile phone 16 using a communication function such as the Internet. Furthermore, it is possible to make a diagnosis reservation of a medical institution.

  Furthermore, it is also possible to execute an application based on the measured biological information such as blood glucose level, blood pressure value, pulse rate, body fat percentage, etc. in a mobile phone with a built-in application software execution function. For example, it is possible to change the progress of the game depending on fluctuations in blood pressure value and pulse, or to perform compatibility diagnosis with the other party during the videophone call based on fluctuations in blood pressure value and pulse. An application such as diagnosing the degree of stress based on the blood pressure value and the pulse can also be executed. These are applicable not only to the mobile phone 16 according to the present embodiment, but also to the mobile phone according to each of the embodiments described above.

(Twelfth embodiment)
Next, a twelfth embodiment will be described. In this embodiment, the mobile phone 16 (FIG. 14) incorporating the alarm function is incorporated with the portable health management device according to the present invention, and the time for measuring the biological information is set in the alarm function, which is determined every day. Measurements can be made without forgetting at the time.

(13th Embodiment)
Next, a thirteenth embodiment will be described. In this embodiment, a portable health management device is integrated into a notebook personal computer as a portable information terminal device.

  As shown in FIG. 15, in the personal computer 70, the first sensing unit 11 is arranged at a position where the left hand naturally comes when the person hits the keyboard, and the right hand comes naturally when the person hits the keyboard. The 2nd sensing unit 12 is arrange | positioned.

  Therefore, when measuring blood pressure and body fat percentage, the first sensing unit 11 is in contact with the left thumb, index finger, palm, etc., and the second sensing unit 12 is in contact with the right thumb, index finger, palm, etc. Let As a result, the blood pressure value and the body fat percentage are measured and the results are displayed on the liquid crystal display panel 71 of the personal computer 70, as in the case of the above-described embodiments.

(14th Embodiment)
Next, a fourteenth embodiment will be described. In this embodiment, a portable health care apparatus is integrally incorporated in a mouse connected to a personal computer as a portable information terminal device.

  As shown in FIG. 16, the second sensing unit 12 is disposed near the upper portion of the mouse 80, and the first sensing unit 11 is disposed on the side surface of the mouse 80.

  For this reason, when measuring blood pressure and body fat percentage, the second sensing unit 12 is brought into contact with the palm, thumb, index finger, etc. of the right hand and the first sensing unit 11 is brought into contact with the thumb, index finger, etc. of the left hand. As a result, the blood pressure value and the body fat percentage are measured and the results are displayed on the liquid crystal display panel 72 of the personal computer 70 as in the case of the above-described embodiments.

It is a measurement block diagram which shows the basic system structure for performing a blood pressure measurement and a body fat measurement. A sensing unit is shown, (a) is a front view, (b) is a side view. It is a figure which shows the state at the time of the measurement in 1st Embodiment. It is a figure which shows the front side of the state which expand | deployed the mobile telephone which concerns on 2nd Embodiment. It is a figure which shows the back side of the state which expand | deployed the mobile telephone which concerns on 3rd Embodiment. It is a figure which shows the front side of the mobile telephone which concerns on 4th Embodiment. It is a figure which shows the back side of the mobile telephone which concerns on 5th Embodiment. FIG. 10 is a view corresponding to FIG. 3 in the sixth embodiment. FIG. 10 is a view corresponding to FIG. 4 in the seventh embodiment. FIG. 10 is a diagram corresponding to FIG. 6 in an eighth embodiment. FIG. 10 is a diagram corresponding to FIG. 4 in the ninth embodiment. It is a figure which shows the mobile telephone and external device in 10th Embodiment. It is FIG. 4 equivalent figure in 11th Embodiment. It is FIG. 4 equivalent figure in 12th Embodiment. It is a perspective view of the personal computer which concerns on 13th Embodiment. It is a perspective view of the mouse concerning a 14th embodiment.

Explanation of symbols

2 1st pulse wave sensing part 2A 1st light emitting element 2B 1st light receiving element 3 2nd pulse wave sensing part 3A 2nd light emitting element 3B 2nd light receiving element 4 1st impedance sensing part 5 2nd impedance sensing part 6 body fat percentage Measuring unit (body fat percentage calculation means)
7 Blood pressure value measurement unit (blood pressure measurement means)
8 Display unit 16, 26 Mobile phone 60 External device 70 Personal computer 80 Mouse

Claims (21)

A plurality of pulse wave sensing units composed of a light emitting element and a light receiving element;
A plurality of impedance sensing units for measuring body impedance;
A blood pressure measuring means for receiving a pulse wave signal from the plurality of pulse wave sensing units and obtaining a blood pressure value from a time difference between pulse waves detected at two or more locations;
The body fat percentage calculating means for calculating the body fat percentage from the impedance values between the impedance sensing units and the previously input body data is housed in a portable casing, and is configured .
A portable health care apparatus characterized in that a pair of the light emitting element and the light receiving element is used in combination with a light receiving element or a light emitting element capable of communicating with an external device. In the portable health care device according to claim 1,
A portable health care apparatus characterized by using a near-infrared region in which a light emission wavelength of a light emitting element and a sensitivity wavelength of a light receiving element are 780 to 1000 nm. In the portable health care device according to claim 1,
A portable health care apparatus characterized in that 360 to 660 nm is used as the light emission wavelength of the light emitting element and the sensitivity wavelength of the light receiving element. In the portable health management device according to claim 1, 2, or 3,
A portable health management device, wherein one pulse wave sensing unit and one impedance sensing unit are integrated to sense the same part of the body. In the portable health care device according to any one of claims 1 to 4,
A portable health care apparatus that is integrally incorporated in a two-fold type mobile phone and that is configured to measure a blood pressure value and a body fat percentage when the mobile phone is folded. In the portable health care device according to any one of claims 1 to 4,
A portable health management device, which is integrally incorporated in a two-fold type mobile phone and is configured to measure a blood pressure value and a body fat percentage in a state where the mobile phone is deployed. In the portable health care device according to any one of claims 1 to 4,
A portable health management device that is integrated into a non-foldable mobile phone and measures blood pressure and body fat percentage. In the portable health care device according to any one of claims 1 to 7,
A portable health management device comprising a display unit for displaying blood pressure values and body fat percentage measurement results. In the portable health care device according to any one of claims 1 to 8 ,
A portable health care apparatus that is integrally incorporated in a two-fold type mobile phone and that is configured to measure a blood pressure value and a body fat percentage when the mobile phone is folded. In the portable health care device according to any one of claims 1 to 8 ,
A portable health management device, which is integrally incorporated in a two-fold type mobile phone and is configured to measure a blood pressure value and a body fat percentage in a state where the mobile phone is deployed. In the portable health care device according to any one of claims 1 to 8 ,
A portable health management device that is integrated into a non-foldable mobile phone and measures blood pressure and body fat percentage. In the portable health care device according to any one of claims 1 to 11 ,
A portable health care apparatus characterized in that an electrode of an impedance sensing unit is also used as an electrode of a sensor for fingerprint discrimination. In the portable health care device according to any one of claims 1 to 12 ,
The blood pressure value and body fat percentage information, which are measurement results, can be transmitted to an external device using a light receiving element or light emitting element that can communicate with an external device, or the body data of a subject can be acquired from the external device A portable health care device characterized by that. In the portable health care device according to any one of claims 1 to 13 ,
A portable health management device equipped with a blood glucose level sensor. In the portable health care device according to claim 14 ,
A portable health care apparatus characterized in that the blood sugar level sensor is configured to measure blood sugar levels by a chemical detection method. In the portable health care device according to claim 14 ,
A portable health care apparatus, wherein the blood glucose level sensor is configured to measure a blood glucose level by an optical detection method. In the portable health care device according to any one of claims 1 to 16 ,
The measured biological information is transmitted to medical institutions using a communication function such as the Internet, diagnosed by a doctor, and then the diagnosis result is received using the communication function such as the Internet. A portable health management device. In the portable health care device according to any one of claims 1 to 17 ,
A portable health management apparatus characterized in that application software is executed by an application software execution function based on measured biological information. In the portable health care device according to any one of claims 1 to 18 ,
A portable health management device having an alarm function for notifying the measurement time of blood pressure and body fat. In the portable health care device according to any one of claims 1 to 4, 8 , 12 to 19 ,
In a personal computer, a portable health management device configured to measure biological information. In the portable health care device according to any one of claims 1 to 4, 8 , 12 to 19 ,
A portable health management device characterized in that it is configured to measure biological information in a mouse used in a personal computer.

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