JP6774478B2 - Personal health assessment system - Google Patents

Description

The present invention relates to an aerosol supply device capable of detecting biological information data, and a personal health condition evaluation system including an aerosol supply device and an arithmetic unit.

In recent years, flavor aspirators (smoking articles) capable of tasting flavors without burning a flavor source such as cigarettes have become popular in place of cigarettes.
For example, Patent Document 1 describes an aerosol supply device including an aerosol-forming substrate that forms an aerosol by heating without combustion, and a cooling element that cools the aerosol (in the same document, aerosol generation). Described as an article.) Is disclosed.
Further, Patent Document 2 discloses an aerosol supply device containing nicotine but not tar (described as an aerosol generating rod in the same document).

In addition, Patent Document 3 discloses an electronic cigarette that senses smoking by a non-smoker by sensing a substance contained in exhaled breath or saliva.
Further, some biometric information data is known to have a correlation with psychological stress. For example, Non-Patent Document 1 discloses that there is a correlation between pulse and psychological stress.

International Publication No. 2013/120565 Special Table 2017-501676 Special Table 2018-523982

Japan Society of Autonomic Nervous System: Autonomic Nervous System Function Test (4th Edition) Bunkodo, 2007; Takatsu et al Examination of evaluation of psychological stress due to heart rate variability, IEICE C vol120, No1, pp.104-110, 2000

It is known that heartbeat and pulse, which are one of the biological information data, are closely related to diseases. For example, arrhythmia is a disease such as myocardial infarction, cardiomyopathy, proarrhythmic right ventricular cardiomyopathy, cardiac sarcoidosis, valvular disease and congenital heart disease, and tachycardia is atrial fibrillation, paroxysmal supraventricular tachycardia, ventricular. Diseases such as tachycardia, ventricular fibrillation and WPW syndrome, bradycardia are associated with diseases such as sinus failure syndrome, atrioventricular block and bradycardia atrial fibrillation.
Therefore, since it is important to detect the disease at an early stage before the disease worsens, it has been required to frequently measure the biometric information data. In addition, since biometric information data fluctuates greatly depending on the environment and individual differences such as gender and age differences are also large, it has been required to continuously and carefully measure biometric information data.

However, many biological information data, such as pulse and heart rate, have a large data difference between exercise and rest, and stable posture maintenance for a certain period of time is required for highly reliable data acquisition. For this reason, it has been difficult to acquire data frequently and continuously in daily life.

The present invention has been made in view of the above-mentioned problems, and is based on biometric information data that can detect biometric information data with high frequency when the body is in a stable state and is difficult to evaluate due to large individual differences. and it provides a number human health assessment system for that can be performed easily assess health status.

Personal health evaluation system of the present invention, the raw body information data, a system for measuring the health of use for users, and the aerosol supply device for supplying an aerosol to the user, prior Symbol user The aerosol supply device includes a generation unit that generates the aerosol, an aerosol flow path that supplies the aerosol generated by the generation unit to the outside, and an arithmetic device that calculates a parameter indicating a health condition of the above. A suction port provided on the aerosol flow path for the user to suck the aerosol, a pressure detection unit provided on the flow path of the air flow generated by the suction of the aerosol by the user, and a pressure detecting unit for detecting the pressure. The biometric information detection unit that detects the biometric information data of the user when using the aerosol supply device and the data transmission unit that transmits data to the arithmetic unit are provided, and the data transmission unit is the biological body. The biometric information data detected by the information detection unit and the suction amount data related to the suction amount including the pressure data related to the pressure detected by the pressure detection unit are transmitted to the calculation device, and the calculation device performs the data. A data receiving unit that receives the biometric information data transmitted from the transmitting unit, a biometric information storage unit that stores the biometric information data received by the data receiving unit, and a suction amount of the aerosol of the user in normal times. The biometric information storage unit includes a memory that stores related data indicating the relationship between the biometric information data and the biometric information data, and an analysis unit that analyzes the biometric information data and evaluates the health condition of the user. The biometric information data received by the data receiving unit and the suction amount data are stored, and the analysis unit stores the related data stored in the memory and the biometric information stored in the biometric information storage unit. compared with the data and the suction amount data, and characterized that you evaluate the health of the user.

According to the aerosol supply device and the personal health condition evaluation system of the present invention, biometric information data can be detected by using the aerosol supply device that is frequently used when the body is in a stable state, and there are individual differences. It is possible to easily evaluate the health condition based on biometric data, which is difficult to evaluate.

It is a side view which shows typically the aerosol supply device which concerns on this embodiment. It is a block diagram which shows the function of the personal health condition evaluation system which consists of an aerosol supply device and an arithmetic unit. It is a block diagram which shows the function of the aerosol supply device which concerns on 1st modification. It is a block diagram which shows the function of the aerosol supply device which concerns on 2nd modification. It is a block diagram which shows the function of the arithmetic unit which concerns on 3rd modification. It is a block diagram which shows the function of the arithmetic unit which concerns on 4th modification. It is a figure which shows an example of the relationship between the puff number and the pulse rate in a normal state, and the relationship between a puff number and a pulse rate in an abnormal state. It is a block diagram which shows the function of the arithmetic unit which concerns on 5th modification, and the mobile terminal which has a display.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. It should be noted that the embodiments described below are merely examples for facilitating the understanding of the present invention, and do not limit the present invention. That is, the shapes, dimensions, arrangements, and the like of the members described below can be changed and improved without departing from the gist of the present invention, and it goes without saying that the present invention includes equivalents thereof.
Further, in all the drawings, similar components are designated by the same reference numerals, and duplicate description will be omitted as appropriate.

<Overview>
First, an outline of the aerosol supply device 1 and the personal health condition evaluation system S according to the present embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 is a side view schematically showing an aerosol supply device 1 according to the present embodiment, and FIG. 2 is a block showing a function of a personal health condition evaluation system S composed of an aerosol supply device 1 and an arithmetic unit 20. It is a figure.

The aerosol supply device 1 according to the present embodiment supplies the aerosol 3 to the user.
The aerosol supply device 1 is provided on the generation unit 2 that generates the aerosol 3, the aerosol flow path 4 that supplies the aerosol 3 generated by the generation unit 2 to the outside, and the aerosol flow path 4, and uses the aerosol 3. The suction port 5a for a person to inhale, the biometric information detection unit (pulse sensor 6) that detects the biometric information data (pulse) of the user when using the aerosol supply device 1, and the external device (calculation device 20). A data transmission unit 7 for transmitting data is provided.
The data transmission unit 7 is characterized in that the biometric information data (pulse) detected by the biometric information detection unit (pulse sensor 6) is transmitted to an external device (arithmetic unit 20).

According to the above configuration, the aerosol supply device 1 can be used to detect the biometric information data, and by transmitting the biometric information data to an external device, it is based on the biometric information data that is difficult to evaluate due to large individual differences. The health condition can be easily evaluated.
More specifically, the aerosol supply device 1 is often used when the body is in a stable state such as at rest, has a high carrying rate, and is frequently used. Therefore, by using the aerosol supply device 1, the aerosol supply device 1 can be used. Biological information data can be acquired continuously and stably.
As a result, highly reliable data indicating the normal state of the user can be obtained, which is useful for early detection of an abnormality in the health condition of the user.

As will be described later, the "biological information data" includes data such as heartbeat, sweating amount, sweating component, blood flow, vascular resistance, blood dissolved oxygen concentration, and blood glucose level, in addition to pulse.
Further, regarding "biological information data" and "pressure data related to pressure" described later, in addition to the detected data that has not been calculated, the data obtained by cutting noise by a filtering device (not shown) and averaging at predetermined time intervals. It may be data related to a value.
As the "biological information detection unit", in addition to the pulse sensor 6, there is a heart rate sensor, an electrode for measuring the amount of sweating, and a unit that irradiates light to detect blood components based on the amount of light absorbed by blood.

The personal health condition evaluation system S is a system for measuring the health condition of a user based on biometric information data.
The personal health condition evaluation system S includes the aerosol supply device 1 and an arithmetic unit 20 that calculates parameters indicating the health condition of the user based on the data transmitted from the data transmission unit 7.
The arithmetic unit 20 analyzes the biometric information data with the data receiving unit 21 that receives the biometric information data transmitted from the data transmitting unit 7, the biometric information storage unit 22 that stores the biometric information data received by the data receiving unit 21. It is characterized by including an analysis unit 23 for evaluating the health condition of the user.

According to the above configuration, the personal health condition evaluation system S including the aerosol supply device 1 having the biometric information detection unit capable of detecting the biometric information data during use of the device has a health based on the biometric information data which is difficult to evaluate due to large individual differences. The state can be easily evaluated.

<Structure of each part>
Next, with reference to FIGS. 1 and 2, the configuration of each part of the aerosol supply device 1 and the arithmetic unit 20 constituting the personal health condition evaluation system S will be described.

The aerosol supply device 1 according to the present embodiment is attached to the generation unit 2 that generates the aerosol 3, the housing 5 that covers the generation unit 2, the mouthpiece 5X that the user attaches to, and the side surface of the housing 5. It mainly includes a pulse sensor 6 that detects the pulse of the user.

The generation unit 2 includes, for example, a power supply device (not shown), a spray core component, and a liquid storage unit. As another configuration, the generator 2 may contain a powder containing tobacco leaves or nicotine.
As the spray core component, a known component having a mechanism capable of generating the aerosol 3 from the liquid storage unit can be used.

For example, the spray core may have an electric heater (not shown) or may have a component that generates an aerosol 3 by another mechanism.
The liquid contained in the liquid storage unit, that is, the aerosol substrate may have any component and can be appropriately set by those skilled in the art, but preferably contains a fragrance component. Further, the aerosol substrate may contain nicotine or a nicotine salt. It may also contain components such as vitamins, caffeine, GABA and other active components.

The housing 5 according to the present embodiment contains two light emitting elements 5b whose part is exposed to the outside. The light emitting element 5b functions, for example, to notify the electric capacity of the built-in battery, and as described later, functions as a notification unit indicating the health state of the user. The light emitting element 5b is, for example, a light source such as an LED or an electric lamp, and is provided so that the light at the time of light emission can be visually recognized by the user.

The biological information data according to this embodiment is a pulse.
Since the data is a pulse, it is easy to detect it, it is easy to estimate the health state including the stress state related to the sympathetic nerve and the sympathetic nerve of the user, and it is easy to transmit it as data.
Then, the installation position of the pulse sensor 6 for detecting the pulse is such that when the aerosol supply device 1 is used to inhale the aerosol 3, the fingertip touches the pulse sensor 6 when the aerosol supply device 1 is held by the fingertip. It is preferable that it is set as such. Specifically, it is desirable that the housing 5 is arranged closer to the mouthpiece 5X side than the central portion in the longitudinal direction.
With such a configuration, when the aerosol supply device 1 is used, the pulse can be measured without difficulty, and simple and stable measurement becomes possible. In addition, stress recovery by using the aerosol supply device 1 can be confirmed with a parameter called pulse.

The biological information data is data derived from the living body and may be measured invasively, but any data that can be measured (obtained) non-invasively is suitable without burdening the user. Is. In this way, it is easy to detect and transmit non-invasive data in the normal state of the user.

For example, biometric data is selected from the group consisting of heart rate, pulse, sweating (sweating amount or sweating component), blood flow, vascular resistance, blood pressure or blood component (blood dissolved oxygen concentration or blood glucose level, etc.). It may be one or more types of data.
When the biological information data is one or more types of data selected from the group consisting of heartbeat, pulse, sweating, blood pressure or blood components, the health condition of the user can be suitably determined.

The device is not limited to the pulse sensor 6 as long as it is a device capable of non-invasively measuring biological information data. For example, it is preferable that the pulse sensor 6 uses a photointerruptor that emits / receives infrared rays or the like.
Further, as a device for detecting biological information data related to sweating, an electrode for measuring the amount of sweating (not shown) may be used. The electrode outputs a response value corresponding to skin conductance based on the resistance value when a weak sweating amount measuring current is applied to the skin of the user's finger.
In addition, a pulse oximeter or the like that detects the blood oxygen saturation as biological information data may be used.

The aerosol supply device 1 includes a data transmission unit 7 for transferring data to an arithmetic unit 20 for storing and / or analyzing biometric information data and determining a user's health condition. The data transmission unit 7 may be either a wired or wireless communication device.
The data transmission unit 7 may include one or more ports such as a USB port or a Firewire port for connecting the aerosol supply device 1 to another arithmetic unit such as a smartphone or a computer as a wired communication device. Further, the data transmission unit 7 may include a telemetry, Bluetooth (registered trademark), infrared ray or wireless transmitter for connecting the aerosol supply device 1 to another arithmetic unit such as a smartphone or a computer as a wireless output communication device.

The arithmetic unit 20 is a device for calculating biometric information data transmitted from the data transmission unit 7 of the aerosol supply device 1 in order to determine the health condition of the user and displaying the information according to the determination. , Smartphones and other arithmetic units.
The arithmetic unit 20 according to the present embodiment includes an arithmetic unit 40 having a data receiving unit 21 and an analysis unit 23, a biological information storage unit 22, and a display 24 for displaying information analyzed by the analysis unit 23. Have.

According to the arithmetic unit 20, the stress level of the user is evaluated from the biometric information data (pulse value) transmitted from the data transmission unit 7, the type of aerosol substrate corresponding to the value, the method of sucking the aerosol supply device 1, etc. Can be presented on the display 24 of a smartphone or the like as the arithmetic unit 20. As a result, the user can efficiently recover the stress by effectively using the aerosol supply device 1.

The analysis of the biological information data by the analysis unit 23 can be appropriately set by those skilled in the art depending on the type of the biological information data.
For example, by accumulating and analyzing personal biometric information data, it is possible to obtain data in a normal state of an individual. By using the normal state data obtained in this way as a reference, for example, when data that is significantly different (significantly different) from the normal state is acquired, it is considered that there is some abnormality and the abnormal state is possible. Gender can be evaluated.
For example, in the case of pulse, analysis can be performed from the pulse rate per minute, pulsation width, noise (aperiodic fluctuation), and the like.

Furthermore, the RR interval variation (heart rate interval variation) obtained from the pulse is divided into periodic variation and aperiodic variation. It is known that atrial fibrillation can be detected by detecting pulse turbulence by heart rate variability analysis and clustering both.
For example, when the pulse rate is normally 70 to 90 times per minute and the individual has a regular cycle, the pulse rate suddenly drops to about 50 times, or a significant increase in aperiodic fluctuation is measured. The possibility of illness can be evaluated by a significant difference from the normal state and the degree of pulsation irregularity.

Further, the analysis by the analysis unit 23 can be used for the evaluation of the psychological state.
For example, it is known that the value of LF / HF is generally called a stress index and can be used for detecting a stress state.
The LF value is called Low Frequency, and it is known that it mainly contains a sympathetic nerve component. The LF value is a value obtained by integrating the power value obtained from the analysis of pulse fluctuation in the frequency band 0.04 to 0.15 Hz.
The HF value is called High Frequency and is known to contain parasympathetic nerve components. The HF value is a value obtained by integrating the power value obtained from the analysis of pulse fluctuation in the frequency band 0.15 to 0.4 Hz.
When a higher value is obtained as compared with the LF / HF in the normal state, it can be evaluated that the stress is high and the result can be presented to the user.

The arithmetic unit 20 may further include a notification unit (display 24) for notifying the evaluation result data of the health state by the analysis unit 23.
When the arithmetic unit 20 includes the display 24, the user or a person who monitors the health condition of the user and who is in the vicinity of the arithmetic unit 20 can confirm the evaluation result on the display 24. ..
The result notified to the user by the display 24 or the like may be the value of the biological information data itself or the data after the analysis, and the disease or psychology calculated by the analysis by the analysis unit 23. It may be an evaluation value of physical stress.
Further, from the analysis data or the evaluation value, a proposal such as a suction time and a suction method of the aerosol supply device 1 and a type of the aerosol substrate may be included. In addition, it may be possible to propose products and services according to the evaluation value.
For example, an advertisement or a discount coupon for relaxation goods, travel, a nearby salon or hospital, or a relaxation service may be presented on the display 24 to a user who has a higher evaluation of psychological stress than usual.
Inhalation of additional aerosol 3 or another type of aerosol substrate may be recommended, alerts may be given, for example, of a disease of arrhythmia, or notification that stress has been relieved.

<First modification>
Next, the aerosol supply device 1A according to the first modification will be described mainly with reference to FIG. FIG. 3 is a block diagram showing the function of the aerosol supply device 1A according to the first modification.
The aerosol supply device 1A is provided on the air flow path (air flow path 8 shown in FIG. 1) generated by the suction of the aerosol supply device 1A by the user, and further includes a pressure detection unit (atmospheric pressure sensor 9) for detecting the pressure. Be prepared.
The data transmission unit 7 transmits the biometric information data detected by the biometric information detection unit (pulse sensor 6) and the pressure data related to the pressure detected by the pressure detection unit (barometric pressure sensor 9) to an external device (calculation device 20). Send to.

The atmospheric pressure sensor 9 is provided inside the housing 5 (see FIG. 1) and is a sensor that detects the atmospheric pressure inside the housing 5. The pressure sensor 9 is, for example, a condenser microphone sensor, and may output, for example, a voltage value indicating the electric capacity of the condenser as pressure data to the data transmission unit 7. In the barometric pressure sensor 9, the air in the housing 5 is sucked by the user through the suction port 5a, and the air taken into the housing 5 from the ventilation hole (not shown) is sent to the suction port 5a. The air pressure in the housing 5 that changes when flowing through the air flow path 8 is output to the data transmission unit 7.
The data receiving unit 21 acquires the air pressure inside the housing 5 based on the output signal of the data transmitting unit 7.

The above "pressure data" refers to a measured pressure value and its converted value, and the count value (number of times) that the pressure value is above (or below) a predetermined value and the pressure value is above (or below) a predetermined value. Refers to all data acquired based on pressure, such as the count value (number of times) that is continued for a predetermined time or longer.
For example, the analysis unit 23 performs a suction operation (puff operation) via the suction port 5a by the user based on the pressure data in the housing 5 received by the data reception unit 21 (that is, by detecting a negative pressure). ) Is detected by analysis. For example, the analysis unit 23 detects a suction state (suction section) in which the user is sucking the gas inside the housing 5 through the suction port 5a and a non-suction state (non-suction section) in which the user is not sucking. .. As a result, the analysis unit 23 can specify the number of suction operations (number of puffs) of the user.

With the above configuration, the aerosol supply device 1A can transmit pulse data and pressure data to the arithmetic unit 20 to the arithmetic unit 20, and the arithmetic unit 20 makes various proposals related to the pressure change (number of puffs) to the user. Can be presented.
Specifically, the health condition of the user can be estimated from the difference between the biometric information data of the user per number of puffs calculated from the pressure data and the biometric information data of the user at normal times per number of puffs. You will be able to make various proposals such as suggesting the number of puffs and displaying travel suggestions.
For example, when the number of puffs exceeds a predetermined number and it is assumed that the normal state is normally reached, an alert can be issued if the biometric information data is abnormal.
Except for the above description, the aerosol supply device 1 and the aerosol supply device 1A are common to each other, and thus the description thereof will be omitted. The same applies to the following modified examples.

<Second modification>
Next, the aerosol supply device 1B according to the second modification will be described mainly with reference to FIG. FIG. 4 is a block diagram of the aerosol supply device 1B according to the second modification.
The aerosol supply device 1B according to the second modification is further provided with a memory 10 connected to a biometric information detection unit (pulse sensor 6) and storing biometric information data detected by the biometric information detection unit (pulse sensor 6).
The data transmission unit 7 transmits biometric information data (pulse) stored in a memory 10 such as a RAM to an external device (arithmetic unit 20).
According to the above configuration, the biometric information data continuously acquired by the aerosol supply device 1B can be accumulated, and the accumulated biometric information data can be transmitted to the arithmetic unit 20. Therefore, when the external device receives the accumulated data of the biometric information data that deviates greatly from the average value as an individual, it is possible to accurately determine the abnormality of the health condition.

<Third modification example>
Next, the arithmetic unit 20A according to the third modification will be described mainly with reference to FIG. FIG. 5 is a block diagram showing a function of the arithmetic unit 20A according to the third modification.
The arithmetic unit 40A of the arithmetic unit 20A further includes a selection unit 25 that selects a method of using the aerosol supply device 1 based on the evaluation result data of the health condition analyzed by the analysis unit 23. Then, the notification unit (display 24) notifies the usage method selected by the selection unit 25.

According to the above configuration, it is possible to propose a method of using the aerosol supply device 1 (type of aerosol substrate to be used, use time, etc.) based on the evaluation result regarding the stress level and the like, and to promptly improve the health condition. For example, when the user determines that he / she is in a tense state, the display 24 may display text recommending a type of aerosol substrate capable of reducing stress. In addition, the use of means capable of reducing a specific stress level, such as a comment recommending an extension of the break time or a massage, may be displayed on the display 24 by evaluating the psychological stress.
The selection unit 25 may be selected from the data regarding the selection candidates such as the usage method of the aerosol supply device 1 described in advance in the memory 26 described later.

<Fourth modification>
Next, the arithmetic unit 20B according to the fourth modification will be described with reference mainly to FIGS. 6 and 7 in addition to FIG. FIG. 6 is a block diagram showing the function of the arithmetic unit 20B according to the fourth modification, and FIG. 7 shows an example of the relationship between the number of puffs and the pulse rate in normal times and the relationship between the number of puffs and the pulse rate in an abnormal state. It is a figure.

The aerosol supply device 1A according to this example is provided on the air flow path (air flow flow path 8) generated by the suction of the aerosol 3 by the user, similarly to the one described with reference to FIG. 3 in the first modification. , A pressure detection unit (air pressure sensor 9) for detecting pressure is further provided.
The data transmission unit 7 transmits the suction amount data related to the suction amount including the biometric information data detected by the biometric information detection unit (pulse sensor 6) and the pressure data related to the pressure detected by the pressure detection unit (pressure sensor 9). It is transmitted to the arithmetic unit 20B.
The biometric information storage unit 22 of the arithmetic unit 20B stores the biometric information data and the suction amount data received by the data receiving unit 21.
The arithmetic unit 20B further includes a memory 26 such as a RAM that stores related data indicating the relationship between the suction amount of the user's aerosol 3 and the biometric information data in normal times.
The analysis unit 23 included in the calculation unit 40B evaluates the health condition of the user by comparing the related data stored in the memory 26 with the biometric information data and the suction amount data stored in the biometric information storage unit. To do.

According to the above configuration, the processing by the analysis unit 23 can be speeded up by using the related data that shows the relationship between the suction amount of the user's aerosol 3 and the biometric information data stored in the memory 26 in normal times. It is possible to accurately evaluate the health condition of the user based on the relationship between the suction amount data and the biometric information data.
In the example shown in FIG. 7, the relationship between the user's puff number (suction amount) and the pulse rate stored in the memory 26 in normal times is shown by a broken line, and the biometric information actually obtained from the biometric information storage unit 22 is shown. The relationship between the data (pulse rate) and suction volume data (puff number) is shown by the solid line.

In the case shown in FIG. 7, the analysis unit 23 evaluates that the pulse rate of the user is higher than that of the reference in normal times, and displays that fact on the display 24. The "reference" here refers to a function of the number of puffs (other suction times) as suction amount data for biological information data (pulse rate). When the analysis unit 23 determines that the state of the user at that time is abnormal based on the magnitude of the discrepancy between the reference and the actual measurement result, the analysis unit 23 transmits a signal to the display 24 to give an alert.

The biological information data in normal times may be heart rate data as well as pulse rate, or may be user reactivity for each type of aerosol 3 (for example, the degree of stress reduction for each number of puffs). ..
As described above, in the analysis by the analysis unit 23, it is optimal to use personal biometric information data as a reference, but it is also possible to use externally known data. In addition, the biometric information data thus obtained from externally known data may be corrected for analysis depending on age, gender, race, presence or absence of genetic background, and the like.
As the "suction amount data", in addition to the number of puffs, a timer (not shown) may be used to measure the elapsed time from the end of the suction (puff) operation by the user, for example.

<Fifth modification>
In the above example, the devices provided with the display 24 are the arithmetic units 20, 20A, and 20B, but other devices may be used.
Next, the arithmetic unit 20C according to the fifth modification will be described mainly with reference to FIG. FIG. 8 is a block diagram showing the functions of the arithmetic unit 20C and the mobile terminal 30 having the display 24 according to the fifth modification.

The arithmetic unit 40C of the arithmetic unit 20C according to the present embodiment further includes an evaluation result transmission unit 27 that transmits the evaluation result data of the health condition by the analysis unit 23 to the device (mobile terminal 30) including the notification unit (display 24). ..
When the arithmetic unit 20C includes the evaluation result transmission unit 27 for transmitting to the device (mobile terminal 30) including the display 24, the evaluation result can be confirmed by the display 24 of another device (including the aerosol supply device). .. The arithmetic unit 20C according to the present embodiment is, for example, a device on the cloud.

The device provided with the notification unit (display 24) is preferably a mobile terminal 30 such as a smartphone or a smart watch.
Since the device provided with the display 24 is the mobile terminal 30, a remote device can check the mobile terminal 30 to grasp the health condition of the user of the aerosol supply device 1.

The device including the notification unit (display 24) may be the aerosol supply device 1.
With such a configuration, even if the aerosol supply device 1 is not provided with the arithmetic unit 40C for weight reduction or the like, the evaluation result is obtained by providing the display 24 and receiving data from the external arithmetic unit 20C. Can be displayed.

Further, the light emitting element 5b shown in FIG. 1 may be turned on or blinked, and may function as a notification unit indicating the health condition of the user by the light.
Further, a vibration motor (not shown) as a notification unit may be used to notify an abnormality of the health condition. For example, the vibration motor is a motor that is driven (operated) by receiving power supplied from a battery (not shown), and is of a different type than usual for notifying an abnormality in response to a drive instruction from the evaluation result transmission unit 27. The vibration motor may be driven by vibration (for example, those having different vibration frequencies).
Further, it may be notified by a sound by a buzzer, or may be notified by a voice output device that outputs voice.

Further, as the arithmetic units 40, 40A, 40B, and 40C, the program for executing each of the above processes may be recorded on a recording medium readable by a computer. For the recording medium on which the program is recorded, the above-mentioned processing can be performed by causing a computer to read and execute the program of the recording medium.

Here, the computer-readable recording medium means a recording medium in which information such as data and programs is stored by electrical, magnetic, optical, mechanical, or chemical action and can be read from a computer. Among such recording media, those that can be removed from a computer include flexible disks, magneto-optical disks, optical disks, magnetic tapes, memory cards, and the like. Further, examples of the recording medium fixed to the computer include a hard disk drive and a ROM.

Further, a chip composed of a memory for storing a program for executing each process performed by the aspirator according to the above-described embodiment and a processor for executing the program stored in the memory may be provided.

It should be noted that the various components related to the transport device of the present invention do not have to be individually independent. A plurality of components are formed as one member, one component is formed of a plurality of members, one component is a part of another component, and one of the components. Allows overlaps between parts and some of the other components, etc.

The above embodiment includes the following technical ideas.
(1) An aerosol supply device that supplies an aerosol to the user.
The generator that produces the aerosol and
An aerosol flow path that supplies the aerosol generated by the generation unit to the outside,
A suction port provided on the aerosol flow path for the user to suck the aerosol, and
A biometric information detection unit that detects biometric information data of the user when using the aerosol supply device, and
Equipped with a data transmitter that transmits data to an external device
The data transmission unit is an aerosol supply device characterized by transmitting the biometric information data detected by the biometric information detection unit to the external device.
(2) Further provided with a pressure detecting unit provided on the flow path of the air flow generated by the suction of the aerosol by the user and detecting the pressure.
The aerosol according to (1), wherein the data transmission unit transmits the biometric information data detected by the biometric information detection unit and the pressure data related to the pressure detected by the pressure detection unit to the external device. Supply device.
(3) Further provided with a memory connected to the biometric information detection unit and storing the biometric information data detected from the biometric information detection unit.
The aerosol supply device according to (1) or (2), wherein the data transmission unit transmits the biometric information data stored in the memory to the external device.
(4) The aerosol supply device according to any one of (1) to (3), wherein the biometric information data is non-invasively obtained data.
(5) The aerosol according to any one of (1) to (4), wherein the biometric information data is one or more types of data selected from the group consisting of heartbeat, pulse, sweating, blood pressure or blood components. Supply device.
(6) The aerosol supply device according to (5), wherein the biometric information data is a pulse.
(7) A system for measuring the health condition of the user based on the biometric information data.
The aerosol supply device according to any one of (1) to (6) and
A computing device that calculates a parameter indicating the health condition of the user based on the data transmitted from the data transmitting unit is provided.
The arithmetic unit includes a data receiving unit that receives the biometric information data transmitted from the data transmitting unit, and a data receiving unit.
A biometric information storage unit that stores the biometric information data received by the data receiving unit,
A personal health condition evaluation system including an analysis unit that analyzes the biological information data and evaluates the health condition of the user.
(8) The personal health condition evaluation system according to (7), wherein the arithmetic unit further includes a notification unit that notifies the evaluation result data of the health condition by the analysis unit.
(9) The personal health condition evaluation system according to (7), wherein the arithmetic unit further includes an evaluation result transmission unit that transmits the evaluation result data of the health condition by the analysis unit to an apparatus including the notification unit.
(10) The personal health condition evaluation system according to (9), wherein the device including the notification unit is the aerosol supply device.
(11) The personal health condition evaluation system according to (9), wherein the device including the notification unit is a mobile terminal.
(12) The arithmetic unit further includes a selection unit that selects a method of using the aerosol supply device based on the evaluation result data of the health condition.
The personal health condition evaluation system according to any one of (8) to (11), wherein the notification unit notifies the usage method selected by the selection unit.
(13) The aerosol supply device is provided on the flow path of the air flow generated by the suction of the aerosol by the user, and further includes a pressure detecting unit for detecting the pressure.
The data transmission unit transmits the suction amount data related to the suction amount including the biometric information data detected by the biometric information detection unit and the pressure data related to the pressure detected by the pressure detection unit to the calculation device. ,
The biometric information storage unit stores the biometric information data and the suction amount data received by the data receiving unit.
The arithmetic unit further includes a memory for storing related data indicating the relationship between the suction amount of the aerosol of the user and the biometric information data in normal times.
The analysis unit evaluates the health condition of the user by comparing the related data stored in the memory with the biometric information data and the suction amount data stored in the biometric information storage unit. The personal health condition evaluation system according to any one of (7) to (12).

S Personal health condition evaluation system 1, 1A, 1B Aerosol supply device 2 Generation unit 3 Aerosol 4 Aerosol flow path 5 Housing 5a Suction port 5b Light emitting element 5X Mouthpiece 6 Pulse sensor (Biological information detection unit)
7 Data transmitter 8 Airflow channel 9 Barometric pressure sensor (pressure detector)
10 Memory 20, 20A, 20B, 20C Arithmetic logic unit (external device)
21 Data receiving unit 22 Biological information storage unit 23 Analysis unit 24 Display (notification unit)
25 Selection unit 26 Memory 27 Evaluation result transmission unit 30 Mobile terminal 40, 40A, 40B, 40C Calculation unit

Claims (13)

It is a system for measuring the health condition of a user using biometric information data.
An aerosol supply device that supplies an aerosol to the user ,
And a calculation unit for calculating a parameter indicative of the health condition before Symbol user,
The aerosol supply device is
The generator that produces the aerosol and
An aerosol flow path that supplies the aerosol generated by the generation unit to the outside,
A suction port provided on the aerosol flow path for the user to suck the aerosol, and
A pressure detection unit provided on the flow path of the air flow generated by the suction of the aerosol by the user and detecting the pressure,
A biometric information detection unit that detects the biometric information data of the user when using the aerosol supply device, and
A data transmission unit that transmits data to the arithmetic unit is provided.
The data transmission unit transmits the suction amount data related to the suction amount including the biometric information data detected by the biometric information detection unit and the pressure data related to the pressure detected by the pressure detection unit to the calculation device. ,
The arithmetic unit
A data receiving unit that receives the biometric information data transmitted from the data transmitting unit, and
A biometric information storage unit that stores the biometric information data received by the data receiving unit,
A memory that stores related data indicating the relationship between the amount of the aerosol sucked by the user and the biometric information data in normal times, and
It is provided with an analysis unit that analyzes the biometric information data and evaluates the health condition of the user.
The biometric information storage unit stores the biometric information data and the suction amount data received by the data receiving unit.
The analysis unit evaluates the health condition of the user by comparing the related data stored in the memory with the biometric information data and the suction amount data stored in the biometric information storage unit. personal health condition evaluation system according to claim to Rukoto. It is a system for measuring the health condition of a user using biometric information data.
An aerosol supply device that supplies an aerosol to the user ,
And a calculation unit for calculating a parameter indicative of the health condition before Symbol user,
The aerosol supply device is
The generator that produces the aerosol and
An aerosol flow path that supplies the aerosol generated by the generation unit to the outside,
A suction port provided on the aerosol flow path for the user to suck the aerosol, and
A pressure detection unit provided on the flow path of the air flow generated by the suction of the aerosol by the user and detecting the pressure,
A biometric information detection unit that detects the biometric information data of the user when using the aerosol supply device, and
A data transmission unit that transmits data to the arithmetic unit is provided.
The data transmission unit transmits the suction amount data related to the suction amount including the biometric information data detected by the biometric information detection unit and the pressure data related to the pressure detected by the pressure detection unit to the calculation device. ,
The arithmetic unit
A data receiving unit that receives the biometric information data transmitted from the data transmitting unit, and
A biometric information storage unit that stores the biometric information data received by the data receiving unit,
It is provided with an analysis unit that analyzes the biometric information data and evaluates the health condition of the user.
The biometric information storage unit stores the biometric information data and the suction amount data received by the data receiving unit.
The analysis unit, personal health assessment system characterized that you assess the health status of the user from the biometric information data and the suction amount data and the biometric information storage unit has stored. The personal health condition evaluation system according to claim 1 or 2 , wherein the arithmetic unit further includes a notification unit that notifies the evaluation result data of the health condition by the analysis unit. The arithmetic unit further includes a selection unit that selects a method of using the aerosol supply device based on the evaluation result data of the health condition.
The personal health condition evaluation system according to claim 3 , wherein the notification unit notifies the usage method selected by the selection unit. It is a system for measuring the health condition of a user using biometric information data.
And the aerosol supply device for supplying the aerosol to the user,
And a calculation unit for calculating a parameter indicative of the health condition before Symbol user,
The aerosol supply device is
A generator having an aerosol substrate and producing the aerosol,
An aerosol flow path that supplies the aerosol generated by the generation unit to the outside,
A suction port provided on the aerosol flow path for the user to suck the aerosol, and
A biometric information detection unit that detects the biometric information data of the user when using the aerosol supply device, and
A data transmission unit that transmits data to the arithmetic unit is provided.
The data transmission unit transmits the biometric information data detected by the biometric information detection unit to the arithmetic unit.
The arithmetic unit
A data receiving unit that receives the biometric information data transmitted from the data transmitting unit, and
A biometric information storage unit that stores the biometric information data received by the data receiving unit,
An analysis unit that analyzes the biometric information data and evaluates the health condition of the user,
A notification unit that notifies the evaluation result data of the health condition by the analysis unit,
A selection unit for selecting a method of using the aerosol supply device based on the evaluation result data of the health condition is provided .
The selection unit can select an aerosol substrate of a different type from the aerosol substrate used.
Personal health assessment system the aerosol base, which is selected by the selection unit, wherein that you notification by the notification unit. The aerosol supply device is provided on the flow path of the air flow generated by the suction of the aerosol by the user, and further includes a pressure detecting unit for detecting the pressure.
Any of claims 1 to 5, wherein the data transmission unit transmits the biometric information data detected by the biometric information detection unit and the pressure data related to the pressure detected by the pressure detection unit to the arithmetic unit. The personal health condition evaluation system described in item 1 . The aerosol supply device further includes a memory connected to the biometric information detection unit and storing the biometric information data detected from the biometric information detection unit.
The personal health condition evaluation system according to any one of claims 1 to 6, wherein the data transmission unit transmits the biometric information data stored in the memory to the arithmetic unit . The personal health condition evaluation system according to any one of claims 1 to 7 , wherein the biometric information data is non-invasively obtained data. The personal health condition evaluation system according to any one of claims 1 to 8 , wherein the biological information data is one or more types of data selected from the group consisting of heartbeat, pulse, sweating, blood pressure or blood components. .. The personal health condition according to any one of claims 1 to 9, wherein the arithmetic unit further includes an evaluation result transmission unit that transmits the evaluation result data of the health condition by the analysis unit to an apparatus including the notification unit. Evaluation system . The personal health condition evaluation system according to claim 10 , wherein the device including the notification unit is the aerosol supply device. The personal health condition evaluation system according to claim 10 , wherein the device including the notification unit is a mobile terminal. The aerosol supply device is provided on the flow path of the air flow generated by the suction of the aerosol by the user, and further includes a pressure detecting unit for detecting the pressure.
The data transmission unit transmits the suction amount data related to the suction amount including the biometric information data detected by the biometric information detection unit and the pressure data related to the pressure detected by the pressure detection unit to the calculation device. ,
The biometric information storage unit stores the biometric information data and the suction amount data received by the data receiving unit.
The arithmetic unit further includes a memory for storing related data indicating the relationship between the suction amount of the aerosol of the user and the biometric information data in normal times.
The analysis unit evaluates the health condition of the user by comparing the related data stored in the memory with the biometric information data and the suction amount data stored in the biometric information storage unit. The personal health condition evaluation system according to claim 5 .

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