JP2017167802A - Health management system, health management server, wearable device, health management method, program and recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a health management system and the like capable of continuously managing health of employees and the like by using a wearable device.SOLUTION: A wearable device 1 measures heart beat data related to a heart beat of each employee who wears the wearable device 1, and sends the heart beat data and a registration ID of the employee to a data collection terminal 6. The data collection terminal 6 sends the pieces of data to a health management server 3, and the health management server 3 calculates health management data related to a health state of each employee by using the heart beat data, then creates a health management page for displaying the health management data, then associates the health management data and the health management page with the registration ID of each employee and records them.SELECTED DRAWING: Figure 7

Description

  The present invention relates to a health management system, a health management server, a wearable device, and the like for managing mental and physical health of employees and the like.

  There are known wristband type and wristwatch type wearable devices that can be worn on the body and measure various biological data. A sensor for measuring biological data is provided inside the wearable device, and the user can grasp his / her own biological data based on the measurement data of the sensor (see Patent Documents 1 to 3, etc.).

JP 2013-146557 A Japanese Patent Laid-Open No. 2014-213071 JP-A-2015-126804

  In recent years, attention has been focused on fatigue, stress, etc. in the work environment, and in order to create a comfortable work environment, continuously manage the mental and physical health of employees and others to prevent overwork and mental health problems. Is required.

  Conventional wearable devices have not been used to continuously manage the mental and physical health of employees and the like as described above. For example, Patent Document 2 discloses a system in which biometric data measured by a wearable device is transmitted to a server, and a message obtained by the server analyzing biometric data is transmitted to the wearable device. Only the feature amount is transmitted to the server, and it is not suitable for the purpose as described above.

  The present invention has been made in view of the above problems, and an object thereof is to provide a health management system and the like that can continuously manage the health of employees and the like using a wearable device.

  1st invention for solving the subject mentioned above has a wearable device which measures heartbeat data about a user's heartbeat, and transmits a user's heartbeat data and identification information to a transmission target terminal, and a health management server. The health management server calculates health management data related to a user's health condition using the heart rate data of the user, creates a health management page for displaying the health management data, the health management data, and the health management And a means for recording a page in association with user identification information.

  In the present invention, continuous health management of a user such as an employee can be suitably performed using heartbeat data measured by the wearable device and user identification information, and an employee ID or the like is attached to the wearable device by the user identification information. It can have the function as. The health management server calculates health management data related to the user's health status from the user's heartbeat data, creates a health management page from the health management data, etc., records these data in association with the user's identification information, By displaying on a user terminal or the like as necessary, continuous physical and mental health management of employees and the like becomes possible.

When the wearable device receives a measurement instruction, the wearable device preferably measures heart rate data of a user wearing the wearable device at a sampling frequency of at least 250 Hz or more for a certain period of time. The wearable device blinks inspection light at the sampling frequency, for example, and measures a pulse wave as the heartbeat data using the inspection light.
The wearable device according to the present invention can obtain sufficiently accurate data by measuring heartbeat data at a sampling frequency of 250 Hz or higher. In addition, since the wearable device performs measurement only for a predetermined time after the measurement instruction is given, the battery consumption is small and the power is saved. In addition, by using a wearable device that measures pulse waves by blinking inspection light as described above, highly accurate heartbeat data can be easily obtained. However, it is not limited to this.

The wearable device preferably transmits user identification information for user authentication to an entrance gate for entering a predetermined area.
As described above, the wearable device can be used for entrance management to a company building or the like as an employee ID card.

It is preferable that the health management server calculates a fatigue level of the user as the health management data and displays it on the health management page. The degree of fatigue is preferably based on a difference between an index value indicating a user's fatigue state and a reference value for each user.
Thereby, a user's fatigue degree can be suitably managed and grasped | ascertained now as health management data. Further, by calculating the fatigue level as described above, the user's fatigue level can be suitably grasped from the personal data change even when the index value varies from user to user.

Moreover, it is desirable that the health management page displays a value of the health management data for each day and a value of the health management data for a predetermined period.
The user can see these changes in the daily health condition and the health condition for a predetermined period, and can easily grasp the tendency of his / her health condition.

The transmission target terminal may be a data collection terminal that can communicate with the wearable device, and the data collection terminal preferably transmits a user's heartbeat data and identification information to the health management server.
In the present invention, for example, heart rate data of employees and the like can be collected at a data collection terminal provided for each department, floor, building, etc., and transmitted from the data collection terminal to the health management server.

It is desirable that the health management system of the first invention further includes a user terminal that displays the health management page.
As a result, the user can grasp his / her health condition at the user terminal.

  The second invention calculates the health management data related to the user's health condition using the heart rate data related to the user's heart rate measured by the wearable device, and creates a health management page for displaying the health management data; A health management server comprising: health management data and means for recording the health management page in association with user identification information.

  According to a third aspect of the present invention, it is possible to measure heartbeat data related to a user's heartbeat, transmit the user's heartbeat data and identification information to a transmission target terminal, and at least 250 Hz or more only for a predetermined time when a measurement instruction is received. It is a wearable device characterized by measuring heartbeat data of a user wearing the wearable device at a sampling frequency. The wearable device blinks inspection light at the sampling frequency, for example, and measures a pulse wave as the heartbeat data using the inspection light.

  According to a fourth aspect of the invention, the wearable device executes a step of measuring heartbeat data relating to a user's heartbeat, and a step of transmitting the user's heartbeat data and identification information to a transmission target terminal. Calculating health management data relating to a user's health condition using heartbeat data, creating a health management page for displaying the health management data, and linking the health management data and the health management page with identification information of the user; And a step of recording the health care method.

  According to a fifth aspect of the invention, the computer calculates health management data related to the user's health state using heartbeat data related to the user's heartbeat measured by the wearable device, and creates a health management page for displaying the health management data. And a program for functioning as means for recording the health management data and the health management page in association with user identification information.

  According to a sixth aspect of the invention, the computer calculates health management data related to the user's health state using heartbeat data related to the user's heart rate measured by the wearable device, and creates a health management page for displaying the health management data. And a program for causing the health management data and the health management page to function as means for recording the health management data and the health management page in association with user identification information.

  According to the present invention, it is possible to provide a health management system or the like that can continuously manage the health of employees or the like using a wearable device.

The figure which shows the health management system 100 The figure which shows the hardware constitutions of the health management server 3 Examples of data 300 and 400 stored in the storage unit of the health management server 3 and the employee management server 4 The figure which shows the external appearance of the wearable device 1 The figure which shows the hardware constitutions of the wearable device 1 Flow chart showing the procedure for entering the company building The flowchart which shows about the procedure of the data measurement by the wearable device 1, and the data recording by the health management server 3 Flow chart showing the browsing procedure of the health management page 305 Example of health management page 305

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

(1. Health management system 100)
FIG. 1 is a diagram showing a health management system 100 according to an embodiment of the present invention. This health management system 100 performs health management of employees (users). As shown in FIG. 1, the wearable device 1, entrance / exit gate 2, health management server 3, employee management server 4, employee terminal 5, It consists of a data collection terminal 6, various devices 7, and the like.

  The wearable device 1 is a wristband type or wristwatch type electronic device having an employee ID function, and measures activity amount data and heart rate data of an employee wearing the wearable device 1. Details of the wearable device 1, activity data and heart rate data will be described later. These activity data and heartbeat data may be collectively referred to as measurement data.

  The entrance / exit gate 2 is a gate for performing employee authentication (user authentication) when an employee enters or leaves the company building (predetermined area). As will be described later, the entrance / exit gate 2 includes a control unit and a communication unit in order to communicate with the wearable device 1 and the employee management server 4.

  The health management server 3 calculates health management data from the measurement data obtained by the wearable device 1, creates a health management page from the health management data, etc., and records and manages the measurement data, health management data, health management page, etc. Server to do. The health management data and health management page will be described later.

  FIG. 2 is a diagram illustrating a hardware configuration of the health management server 3. As shown in the figure, the health management server 3 can be realized by, for example, a computer configured by connecting a control unit 31, a storage unit 32, an input unit 33, a display unit 34, a communication unit 35, and the like through a bus 36. However, the present invention is not limited to this, and various configurations can be taken as appropriate.

  The control unit 31 includes a CPU, a ROM, a RAM, and the like. The CPU calls and executes a program related to processing described later of the health management server 3 stored in a storage medium such as the storage unit 32 and the ROM in a work area on the RAM. The ROM is a non-volatile memory, and permanently stores programs such as a computer boot program and BIOS, and data. The RAM is a volatile memory, and temporarily stores programs and data loaded from the storage unit 32, the ROM, and the like, and includes a work area used by the control unit 31 for performing various processes.

  The storage unit 32 is a recording medium such as a hard disk drive, and stores a program executed by the control unit 31, data necessary for program execution, an OS, and the like. These programs and data are read by the control unit 31 as necessary, transferred to the RAM, and executed.

The input unit 33 inputs data and includes an input device such as a keyboard, a pointing device such as a mouse, and a numeric keypad.
The display unit 34 includes a display device such as a liquid crystal panel.
The communication unit 35 is a communication interface that mediates communication via a network or the like, and performs communication with other devices.
The bus 36 is a path that mediates transmission / reception of control signals, data signals, and the like between the respective units.

  FIG. 3A is a diagram illustrating an example of data 300 stored in the storage unit 32 of the health management server 3. In the present embodiment, a registration ID 301, a password 302, measurement data 303, health management data 304, a health management page 305, and the like are associated and registered in the storage unit 32 of the health management server 3.

  These data are set so that only a specific person such as an employee who possesses the wearable device 1 or an industrial physician can view the data. The employee can browse these data using the employee terminal 5 as described later, and a specific person other than the employee can browse the data using a management terminal such as a PC, a tablet terminal, or a smartphone. The occupational physician can also conduct interviews using each data as desired by the employee.

The registration ID 301 is an ID (identification information) registered for each employee. The same ID is also stored in the memory of the wearable device 1 or the employee management server 4 as will be described later.
The password 302 is a password corresponding to the registration ID 301 and is used for restricting data browsing.

The measurement data 303 is data measured by the wearable device 1 and includes activity amount data and heart rate data, which will be described later.
The health management data 304 is data relating to the health condition of the employee, and is data calculated from the measurement data 303.
The health management page 305 is data of a page screen that displays the health management data 304 and the like, and is created using the health management data 304 and the like.

  In addition, the storage unit 32 of the health management server 3 stores the operating status of the wearable device 1 in the entire company, the statistical values of all employees of the measurement data 303 and the health management data 304, and the like. Other managers can also browse using their own management terminal. As the data 300, the age, sex, etc. of the employee can be registered as necessary, and can be used for calculating the health management data 304. Further, the measurement data 303 and the health management data 304 store values every working day (that is, every day) or every predetermined period.

  The employee management server 4 is a server that stores various data related to employees and performs employee authentication. The employee management server 4 includes a control unit, a storage unit, an input unit, a display unit, a communication unit, and the like that are substantially the same as those described with reference to FIG.

  FIG. 3B is a diagram illustrating an example of data 400 stored in the storage unit of the employee management server 4. As shown in FIG. 3B, an employee number 401, a registration ID 402, employee data 403, and the like are registered in the storage unit of the employee management server 4 in association with each other.

The employee number 401 is an identification number for identifying an employee.
The registration ID 402 is the same as the registration ID 301 described above.
The employee data 403 is data such as employee names and face photographs.

  Since the employee registration ID 402, employee number 401, and employee data 403 are linked to the employee management server 4, the registration ID 402 (registration ID 301) is used for these data and the data 300 of the health management server 3 as necessary. And matching on the system.

  The employee terminal 5 is a user terminal such as a PC, a tablet terminal, or a smartphone used by an employee for business or the like, and is also used for displaying the health management page 305 in the present embodiment.

  The data collection terminal 6 is a terminal that performs wireless communication with the wearable device 1 and receives measurement data and a registration ID from the wearable device 1. For example, a tablet terminal is used. The data collection terminal 6 is arranged, for example, for each department in the company, for each floor of the company building, or for each building.

  The employee terminal 5 and the data collection terminal 6 also have a control unit, a storage unit, an input unit, a display unit, a communication unit, and the like that are substantially the same as those described with reference to FIG. In addition, various devices 7 such as an office copy machine, a cafeteria and a cash register terminal are provided in the company.

(2. Wearable device 1)
FIG. 4A is a diagram illustrating an appearance of the wearable device 1. As shown in FIG. 4 (a), the wearable device 1 of this embodiment is a wristband type or wristwatch type in which a main body 10 is provided with a wristband 20, and is worn on the arm as shown in FIG. 4 (b). And use. Further, a display device 12 and a switch 13 are provided outside the main body 10.

  FIG. 5 is a diagram illustrating a hardware configuration of the wearable device 1. As shown in FIG. 5, the wearable device 1 includes a main controller 11, a display device 12, a switch 13, a heart rate sensor 14, a triaxial acceleration sensor 15, a power supply unit 16, a wireless module 18, an employee ID chip 19, and the like.

  The main controller 11 is a control unit that controls the entire wearable device 1 and includes a CPU, a ROM, a RAM, a memory, and the like. The CPU, ROM, and RAM are substantially the same as described above. The memory stores various setting information of the wearable device 1, measurement data measured by the wearable device 1, registration ID of the employee wearing the wearable device 1, and the like.

The display device 12 is a simple display such as electronic paper or a small liquid crystal panel.
The switch 13 is a switch for instructing measurement of heartbeat data.

  The heart rate sensor 14 is a sensor for measuring heart rate data. Here, the heartbeat data refers to data relating to the heartbeat (heartbeat). The heart rate sensor 14 irradiates the blood vessel of the arm wearing the wearable device 1 with inspection light from a light source such as an LED (Light Emitting Diode), and measures a pulse wave as heart rate data based on the reflected light. From this pulse wave, it is possible to calculate the RR interval of the heartbeat described later or the aa interval of the acceleration pulse wave. Since such a pulse wave measurement method, the RR interval of the heartbeat, the aa interval of the acceleration pulse wave, and the calculation method thereof are known, detailed description thereof will be omitted.

  In the present embodiment, in order to perform high-precision measurement while reducing battery consumption, a frequency (sampling frequency) of 250 Hz or higher is applied only for a certain time (for example, 2 minutes) after the switch 13 is pressed and a measurement instruction is issued. Desirably, the pulse wave is measured by blinking the inspection light at a frequency of about 600 Hz, and then the measurement is automatically terminated. For such pulse waves, it is known that highly accurate data can be obtained by measuring at a sampling frequency of about 600 Hz, but sufficiently accurate data comparable to that can be obtained at 250 Hz or higher. Therefore, in this embodiment, the sampling frequency is set to a range of 250 Hz or more. Further, by performing the measurement for a certain period of time, the battery consumption can be reduced even when the highly accurate measurement is performed as described above.

  The triaxial acceleration sensor 15 is a sensor for measuring activity amount data indicating the physical activity of the employee. In the present embodiment, as the activity amount data, acceleration is continuously measured by the triaxial acceleration sensor 15, and the number of steps of employees, calories consumed, and the like are calculated (measured) by the wearable device 1 from the acceleration waveform. In addition, it is possible to calculate the movement speed and distance of the employee from the acceleration waveform. Since these calculation methods are known, a detailed description thereof will be omitted.

  The power supply unit 16 includes a power supply circuit, a charging circuit, a battery, and the like, and can perform wired power supply or wireless power supply.

  The wireless module 18 is a communication unit that performs wireless communication with the data collection terminal 6 and transmits measurement data and a terminal ID to the data collection terminal 6 (transmission target terminal), and includes a communication antenna 181. Prepare. In the present embodiment, communication by BLE, which is a low-power short-range wireless communication standard using Bluetooth (registered trademark), is performed.

  The employee ID chip 19 implements the employee ID function of the wearable device 1, and in addition to a controller for control, a memory for storing a registration ID used for authentication, an entrance gate 2 and various devices 7 and the like. And an antenna 191 for performing non-contact short-range wireless communication such as Felica (registered trademark). The employee ID chip 19 may be capable of other non-contact communication such as human body communication.

  In addition, it is desirable that the wearable device 1 is light and waterproof, and is easy to handle. Also, the wearable device 1 can be configured to automatically start by detecting attachment to the body by a sensor (not shown). is there.

(3. Health management method using wearable device 1)
Next, a health management method using the wearable device 1 will be described. Since the wearable device 1 of this embodiment also has a function as an employee ID card, here, a procedure at the time of entering a company building using the function will be described with reference to FIG.

(3-1. Admission to the company building)
FIG. 6 is a flowchart showing a procedure when entering a company building. 6 is a process executed by the employee ID chip 19 of the wearable device 1. S2, S3, and S7 to S10 are processes executed by the control unit of the entrance / exit gate 2, and S4 to S6 are processes executed by the control unit of the employee management server 4.

  In this embodiment, when an employee wearing the wearable device 1 holds the wearable device 1 over the entrance / exit gate 2 (entrance gate), the wearable device 1 transmits a registration ID as authentication information to the entrance / exit gate 2 (S1).

  When the entrance / exit gate 2 receives the registration ID (S2), the entrance / exit gate 2 transmits the registration ID to the employee management server 4 to make an authentication request (S3).

  Upon receiving the registration ID (S4), the employee management server 4 compares the registration ID with the registration ID 402 registered in the employee management server 4 and performs an authentication process (S5). The employee management server 4 transmits the authentication result to the entrance / exit gate 2 if the registration ID 402 that matches the registration ID received in S4 is registered, and if not, the authentication is determined as NG (S6).

  The entrance / exit gate 2 receives the authentication result (S7). If the authentication result is OK (S8; OK), the gate is opened (S9), and the employee enters the company building through the entrance / exit gate 2. If the authentication result is NG (S8; NG), an alarm is output (S10) and the process is terminated. In S 10, an audible or visual alarm such as a sound alarm or lamp lighting is output from the entrance / exit gate 2.

  If the authentication result is OK, the employee number 401 and the employee data 403 corresponding to the registration ID received in S4 are transmitted from the employee management server 4 to a guard terminal (not shown) in the vicinity of the entrance / exit gate 2 and sent to the terminal. It may be displayed.

  Employees who enter the company building always wear the wearable device 1 during normal working hours and perform normal work. In-house, in addition to the above-mentioned gate authentication, the wearable device 1 is held over various devices 7 such as a copy machine and a cash register terminal at the time of authentication at a copy machine or at a settlement in a cafeteria or shop, etc. Is sent. For example, the menu calories and nutrients ordered by the employee at the cafeteria can be transmitted to the health management server 3 together with the registration ID from the cash register terminal (various devices 7) that received the employee registration ID at the time of settlement. Even when an employee leaves the company building, employee authentication can be performed at the entrance / exit gate 2 (exit gate) in the same manner as in FIG.

(3-2. Data measurement by wearable device 1 and data recording by health management server 3)
Next, the procedure of data measurement by the wearable device 1 and data recording by the health management server 3 will be described with reference to FIG. FIG. 7 is a flowchart showing a procedure of data measurement by the wearable device 1 and data recording by the health management server 3. 7 are processes executed by the main controller 11 of the wearable device 1. S16 and S17 are processes executed by the control unit of the data collection terminal 6, and S18 to S20 are processes executed by the control unit 31 of the health management server 3.

  In the present embodiment, as described above, employees always wear the wearable device 1 during working hours. The wearable device 1 continuously measures acceleration as activity amount data by the three-axis acceleration sensor 15, and calculates the number of steps, calorie consumption, etc. as activity amount data from the acceleration waveform (S11).

  The employee presses the switch 13 of the wearable device 1 and measures heart rate data once a day, for example, when the user is calm within working hours. When the wearable device 1 detects that the switch 13 is pressed and a measurement instruction is made (S12; YES), the wearable device 1 accepts this measurement instruction and measures the pulse wave as heartbeat data for a certain period of time as described above ( S13) The measurement is automatically terminated after a predetermined time has elapsed, and the process returns to S11.

  Measurement data such as activity data and heart rate data is temporarily stored in the memory of the main controller 11. These data are deleted from the memory when they are transmitted to the data collection terminal 6 as will be described later, and untransmitted data is retained for at least a certain period (for example, one week).

  For example, when the employee leaves the company, the employee holds the wearable device 1 over the data collection terminal 6. When the wearable device 1 detects a communicable data collection terminal 6 (S12; NO, S14; YES), the wearable device 1 transmits measurement data (activity data and heart rate data) and a registration ID to the data collection terminal 6 (transmission target terminal). (S15). The wearable device 1 measures activity amount data and the like (S11, etc.) when the communicable data collection terminal 6 is not detected (S12; NO, S14; NO).

  Upon receiving the measurement data and the registration ID (S16), the data collection terminal 6 transmits the received measurement data and registration ID and its own terminal ID stored in the storage unit of the data collection terminal 6 to the health management server 3. (S17).

  Upon receiving these data (S18), the health management server 3 calculates health management data from the received measurement data, and creates a health management page using the health management data and the like (S19). The received measurement data and the above health management data and health management page are recorded as measurement data 303, health management data 304, and health management page 305 associated with the registration ID (registration ID 301) received in S18 (S20). .

  In S <b> 19, the health management server 3 calculates the heart rate, autonomic balance, functional age, and fatigue level as the health management data 304 from the heart rate data (pulse wave) in the measurement data 303. The measurement data 303 and the health management data 304 are registered in the health management server 3 for each working day or every predetermined period, and can be stored for a long time as big data.

  Since the calculation method of the health management data 304 listed above is known, detailed description thereof will be omitted. For example, the balance of the autonomic nerve and the functional age are index values indicating the fatigue state of the employee, but the autonomic nerve balance is an index indicating the function of the sympathetic nerve as disclosed in JP 2010-201113. It can be calculated by the ratio LF / HF of the HF value which is an index indicating the value and the function of the parasympathetic nerve. The LF value and the HF value can be obtained by performing frequency analysis of the RR interval of the heartbeat calculated from the pulse wave or the aa interval of the acceleration pulse wave. In addition, as shown in JP 2012-147879 A, the functional age is obtained by using the curve data indicating the relationship between the functional age and the sum of the LF value and the HF value, and the LF value and the HF value obtained from the pulse wave. Can be calculated.

  In the present embodiment, the degree of fatigue is based on the difference in the balance or functional age of the autonomic nerve from the reference value for each employee (for example, the balance of the autonomic nerve in the predetermined period of the employee or the average value of the functional age). Calculated. As a result, even when the balance of the autonomic nerves and the functional age itself vary among employees, it is possible to determine the degree of fatigue based on data changes of individual employees.

(3-3. Browsing of health management page 305)
The health management page 305 created in S19 can be viewed by the employee from the employee terminal 5 or the like, so that the employee can grasp his / her health condition. Therefore, a procedure when browsing the health management page 305 will be described with reference to FIG. FIG. 8 is a flowchart showing a procedure when browsing the health management page 305. 8 are processes executed by the control unit of the employee terminal 5, and S22 to 23 are processes executed by the control unit 31 of the health management server 3.

  The employee accesses the health management server 3 from the employee terminal 5 by inputting the registration ID 301 and the password 302 into his / her employee terminal 5, and transmits a browsing request for the health management page 305 to the health management server 3 together with the registration ID 301. (S21).

  When the health management server 3 receives the browsing request for the health management page 305 (S22), the health management server 3 transmits the data of the health management page 305 corresponding to the registration ID 301 to the employee terminal 5 (S23). The employee terminal 5 receives the data of the health management page 305 and displays it on the display unit (S24).

  FIG. 9 is an example of the health management page 305. In this example, the health management data 304 such as the above-described fatigue level 3052, autonomic nerve balance 3053, functional age 3054, etc. is displayed every working day 3051. The health management page 305 is a list of these data arranged in a predetermined format. For example, the fatigue level 3052 represents the size of the fatigue level with facial expressions. The screen configuration is such that an abnormality can be determined immediately. In addition, in the example of the figure, the value for every work day 3051 (every day) is displayed, and as shown by 3056 in the figure, the degree of fatigue 3052 calculated from the heart rate data in a predetermined period (for example, the previous five days), the autonomic nerve The values of balance 3053 and functional age 3054 are also displayed.

  On the health management page 305, a comment 3055 corresponding to values such as employee fatigue 3052, autonomic balance 3053, functional age 3054, and the like is also displayed. A comment 3055 corresponding to these values is obtained in advance as text data by obtaining advice from a doctor or the like, and is registered in the storage unit 32 of the health management server 3 so that the fatigue level 3052 of each employee, the autonomic nerve Items according to values such as balance 3053 and functional age 3054 are displayed.

  In addition, as the health management page 305, general advice 3057 for life improvement is displayed in common for each employee, and this advice 3057 can be changed periodically. Furthermore, in this example, the employee's age and gender are registered as the data 300 as described above, and the employee's (actual) age / sex 3058 is also displayed on the health management page 305. The functional age 3054 and the like are compared with the actual age. It can be done. In addition, the activity data such as the number of steps of employees and calorie consumption, and the heart rate obtained from the heart rate data are also easy to understand by using the marks, figures, and graphs for each working day or the value for a predetermined period as above. Can be displayed.

  Furthermore, the above-mentioned employee's order menu calories and the like can be recorded as health management data 304 and displayed on the health management page 305. Similarly, the employee's self-report fatigue feeling is input at the employee terminal 5 or the like every working day, and the self-report value is transmitted to the health management server 3 and recorded as health management data 304 and displayed on the health management page 305. It is also possible to make it.

  In addition, the health management server 3 collects the measurement data 303 and the health management data 304 of each employee, and stores each of the accumulated measurement data 303 and health management data 304 by, for example, linking the DB (not shown) of an external specialized institution and the health management server 3. Data indicating the correspondence relationship may be calculated by comparing a questionnaire regarding the health condition of the employee or a result of hearing of the health condition by a doctor. The health management server 3 can also acquire the health status and advice of the employees from the measurement data 303 and health management data 304 of each employee based on the correspondence relationship, and can automatically display them as the health management page 305. It is also possible to accumulate measurement data 303 and health management data 304 for each terminal ID of the data collection terminal 6 and check the health status of employees for each department, for each floor, or for each building.

  As described above, according to the present embodiment, continuous health management can be suitably performed using the heart rate data measured by the wearable device 1 and the employee's registration ID, and the wearable device 1 can be registered using the registration ID. It can have a function as an employee ID. The health management server 3 calculates health management data 304 relating to the employee's health condition from the heartbeat data of the employee, creates a health management page 305 from the health management data 304, and associates these data with the employee registration ID 301. By recording and displaying on the employee terminal 5 or the like as necessary, it becomes possible to continuously manage the physical and mental health of the employee. The wearable device 1 can be used as an employee ID card for entrance management to a company building as described above, for example.

  The wearable device 1 can easily obtain sufficiently accurate data by blinking the inspection light at a frequency of 250 Hz or more and measuring the pulse wave. Further, since the wearable device 1 blinks the inspection light for a certain time after the measurement instruction is given, the battery consumption is small and the power is saved.

  The heart rate sensor 14 of the wearable device 1 may be any device that can measure heart rate data so that the RR interval of the heart rate or the aa interval of the acceleration pulse wave can be obtained. It is not limited to one that blinks and measures the pulse wave using the inspection light. For example, an electrocardiographic sensor that can measure an electrocardiogram waveform as heartbeat data based on a potential difference between two electrodes can be used. In this case, for example, one electrode is disposed at a position that comes into contact with the body when the wearable device 1 is worn, such as the back surface of the main body 10, and the other electrode is the wearable device 1 such as a surface on which the display device 12 of the main body 10 is provided. Place it in a position that will be exposed to the outside when it is installed. When the electrocardiogram waveform is measured, a part of the body such as a finger of the hand not wearing the wearable device 1 is brought into contact with the other electrode, and a measurement instruction is given to the wearable device 1. As described above, when the wearable device 1 receives a measurement instruction, the wearable device 1 measures an electrocardiogram waveform due to a potential difference between both electrodes at a sampling frequency of at least 250 Hz only for a certain period of time. The heart rate RR interval can be calculated from this electrocardiogram waveform by a known method.

  The health management server 3 can appropriately manage and grasp the fatigue level by calculating the fatigue level of the employee as the health management data 304. In addition, by calculating the degree of fatigue based on the difference between the index value of functional age and the like for each employee, even if the index value of functional age itself varies from employee to employee, The degree can be suitably grasped.

  Further, since the value of the health management data 304 for each day and the value of the health management data 304 for a predetermined period are displayed on the health management page 305, the employee can see these changes in daily health conditions and health for a predetermined period. It is possible to grasp the condition, and it becomes possible to easily grasp the tendency of own health condition.

  Further, the wearable device 1 transmits measurement data and a registration ID to the data collection terminal 6 to collect measurement data and the like in the data collection terminal 6 provided for each department, floor, building, etc., for example. The data can be transmitted from the collection terminal 6 to the health management server 3.

  Further, the employee can grasp his / her health condition on the employee terminal 5 by displaying the health management page 305 on the employee terminal 5.

  However, the present invention is not limited to this. For example, a biological sensor other than the heart rate sensor 14 can be provided in the wearable device 1. For example, a sensor for measuring body temperature, blood pressure, blood oxygen level, or the like can be provided.

  The wearable device 1 is a wristband type or a wristwatch type, but is not limited thereto. For example, it may be a ring type. It is also possible to display activity amount data such as the number of steps calculated by the wearable device 1 and calorie consumption on the display device 12.

  Furthermore, in the present embodiment, measurement data and the like are transmitted from the wearable device 1 to the data collection terminal 6, but the transmission target terminal is not limited to this. For example, the measurement data or the like may be transmitted from the wearable device 1 to the employee terminal 5 in a wired or wireless manner, and the measurement data or the like may be transmitted from the employee terminal 5 to the health management server 3. It is also possible to directly transmit measurement data or the like from the wearable device 1 to the health management server 3.

  Moreover, although the example which performs health management of an employee was demonstrated in this embodiment, the health management system 100 of this invention can be utilized for the health management of various employees, students, and other users. It is.

  The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to such examples. It will be apparent to those skilled in the art that various changes or modifications can be conceived within the scope of the technical idea disclosed in the present application, and these are naturally within the technical scope of the present invention. Understood.

DESCRIPTION OF SYMBOLS 1; Wearable device 2; Entrance / exit gate 3; Health management server 4; Employee management server 5; Employee terminal 6; Data collection terminal 7: Various apparatus 100; Health management system 300, 400;
302; password 303; measurement data 304; health management data 305; health management page 401; employee number 403;

Claims (15)

A wearable device that measures heartbeat data related to a user's heartbeat and transmits the user's heartbeat data and identification information to a transmission target terminal;
A health management server;
Have
The health management server
Means for calculating health management data relating to the health condition of the user using the heart rate data of the user and creating a health management page for displaying the health management data;
Means for recording the health management data and the health management page in association with user identification information;
A health management system comprising:   The health management system according to claim 1, wherein the wearable device measures heart rate data of a user wearing the wearable device at a sampling frequency of at least 250 Hz or more only for a predetermined time when receiving the measurement instruction.   The health management system according to claim 2, wherein the wearable device blinks examination light at the sampling frequency and measures a pulse wave as the heartbeat data using the examination light.   The health management system according to any one of claims 1 to 3, wherein the wearable device transmits user identification information for user authentication to an entrance gate for entering a predetermined area.   The health management system according to any one of claims 1 to 4, wherein the health management server calculates a fatigue level of a user as the health management data and displays it on the health management page.   The health management system according to claim 5, wherein the fatigue level is based on a difference from a reference value for each user of an index value indicating a fatigue state of the user.   The health management system according to any one of claims 1 to 6, wherein a value of the health management data for each day and a value of the health management data for a predetermined period are displayed on the health management page. . The transmission target terminal is a data collection terminal capable of communicating with the wearable device,
The health management system according to any one of claims 1 to 7, wherein the data collection terminal transmits heartbeat data and identification information of a user to the health management server.   The health management system according to any one of claims 1 to 8, further comprising a user terminal that displays the health management page. Means for calculating health management data relating to a user's health condition using heartbeat data relating to the user's heartbeat measured by the wearable device, and creating a health management page for displaying the health management data;
Means for recording the health management data and the health management page in association with user identification information;
A health management server comprising: It is possible to measure heart rate data related to the user's heart rate and send the user's heart rate data and identification information to the transmission target terminal,
In addition, a wearable device that measures heartbeat data of a user wearing the wearable device at a sampling frequency of at least 250 Hz or more only for a predetermined time when a measurement instruction is received.   The wearable device according to claim 11, wherein the inspection light blinks at the sampling frequency, and the pulse wave is measured as the heartbeat data using the inspection light. Wearable device
Measuring heart rate data relating to the user's heart rate;
Transmitting the user's heartbeat data and identification information to the transmission target terminal;
Run
Health management server
Calculating health management data related to the user's health status using the user's heartbeat data, and creating a health management page for displaying the health management data;
Recording the health management data and the health management page in association with user identification information;
A health care method characterized by executing. Computer
Means for calculating health management data relating to a user's health condition using heartbeat data relating to the user's heartbeat measured by the wearable device, and creating a health management page for displaying the health management data;
A program for functioning as means for recording the health management data and the health management page in association with user identification information. Computer
Means for calculating health management data relating to a user's health condition using heartbeat data relating to the user's heartbeat measured by the wearable device, and creating a health management page for displaying the health management data;
A recording medium storing a program for causing the health management data and the health management page to function as means for recording the health management data and the health management page in association with user identification information.