JP2008012162A - Biological value measuring device and biological value measuring program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a biological value measuring device capable of improving the operability in switching a plurality of modes to use the device. <P>SOLUTION: If an ID identifying the personal information, the information of a person to be measured used in an already started first mode, is set when a second mode is started ("there is ID" in a step S201), and if there is no command to modify the information ("not pressed" in a step S215), the ID used in the first mode is continuously used again in the second mode (S219). If there is a command to modify the information ("pressed" in the step S215), the personal information used in the first mode is presented and modified (S217 and S209), and the modified personal information is used in the second mode (S219). <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a biological value measuring apparatus and a biological value measuring program, and more particularly to a biological value measuring apparatus and a biological value measuring program having a plurality of modes such as a measurement mode and a measured value browsing mode.

  In a biological value measuring device such as a pulse wave measuring device or a sphygmomanometer, personal information such as the age and sex of the person being measured may be registered and managed by a serial number or the like. Such personal information may be used as a parameter when diagnosing using measured biological values such as pulse wave and blood pressure, or when processing biological values.

  In the biological value measuring apparatus, such personal information is input at the time of measurement and stored in association with the measured value. If personal information has already been registered in the biometric measuring device, a serial number or the like for specifying the personal information corresponding to the time of measurement or reading of the measurement value is input.

As input of personal information, there is a method disclosed in Japanese Patent Laid-Open No. 2005-38265 (hereinafter referred to as Patent Document 1) for inputting information of a person to be measured using an ID card held by a patient before measurement. is there.
JP 2005-38265 A

  By the way, as one method of using such a biological value measuring apparatus, it is said that the measured value of the measurement subject is viewed in the measurement mode after the measured value of the measured subject is browsed. The method used is mentioned. In other words, the same subject may be used continuously in different first and second modes. In this case, it is necessary to input personal information or a serial number for identifying personal information in the first mode, then switch to the second mode and input the same data again, and the operation is complicated. is there. Such a complicated operation hinders quick measurement and leads to a problem that the examination is delayed when there are many persons to be measured such as a group examination or a medical examination at a university hospital. Also, complicated operations tend to cause erroneous input.

  Further, the method disclosed in Patent Document 1 has a problem that it is necessary to prepare a reading device for a recording medium such as a card, or to mount a reading function for the recording medium in the biological value measuring device. In addition, there is a problem that if the measured person loses the card, it becomes impossible to input.

  This invention is made in view of such a problem, Comprising: It aims at providing the biological value measuring apparatus and biological value measuring program which can improve the operativity at the time of switching and using a several mode. .

  In order to achieve the above object, according to one aspect of the present invention, a biological value measuring apparatus includes an operating means for accepting an operation input from an operator, a measuring means for measuring a biological value of the measured person, and the measured person. First storage means for storing personal information, which is information relating to the information, second storage means for storing the measurement value of the measurement means in association with the personal information, and generation means for generating a signal for displaying the measurement value A mode storage means for storing information relating to the activated mode, and a control means for controlling the measuring means and the generating means. The operating means accepts an operation for selecting a mode to be activated. When the two modes are selected, a determination process for determining whether or not information on the first mode is stored in the mode storage means, and information on the first mode is stored as a result of the determination process In the case of being refused, the mode storing means reads the ID for identifying the personal information set in the first mode, and uses the read ID as the ID for identifying the personal information set in the second mode. The storage processing stored in the storage means is executed.

  Further, the mode storage means stores information relating to the activated mode, and the control means performs the reading process when it is determined in the determination process that the second mode is selected when the first mode is activated. In this case, it is preferable to read out the ID, which is information relating to the first mode, from the mode storage means.

  The personal information includes first information and second information, and the biological value measuring apparatus further includes priority storage means for storing priorities of the first information and second information of the personal information, In the reading process, the control means preferably reads the first information and / or the second information from the first storage means according to the priority. The priority is more preferably determined according to the second mode to be activated.

  Further, the control means changes the at least part of the presented personal information in accordance with a display process for displaying a screen for presenting the personal information specified by the ID read in the reading process and an operation input from the operating means. It is preferable to further execute the changing process.

  Alternatively, the control means performs a display process for displaying a screen for changing the personal information specified by the ID read in the read process in accordance with a specific operation input from the operation means, and an input according to the screen. It is preferable to further execute a change process for changing at least a part of the personal information based on the change.

  Moreover, it is preferable that ID specifies the personal information contained in another apparatus. Examples of the other device include a storage device such as a server that stores medical information such as an electronic medical record.

  Specifically, the first mode is a mode for browsing the measurement value stored in association with the personal information specified by the ID by the second storage means, and the second mode is the living body of the measurement subject. A mode for measuring values is preferred.

  According to another aspect of the present invention, the biological value measurement program is a program for causing a computer to execute a process using a biological value, the step of inputting a signal for selecting a mode to be activated, and the second mode to be activated. A determination step of accessing a mode storage means for storing information relating to the mode activated in the computer when the mode is selected, and determining whether or not the information relating to the first mode is stored in the mode storage means; And when the information on the first mode is determined to be stored, reading from the mode storage means an ID for identifying personal information, which is information on the measured person set in the first mode; The read ID is stored in the mode storage means as an ID for identifying personal information set in the second mode. And a step of paying.

  When the biological value measuring apparatus according to the present invention has the above-described configuration, when a plurality of modes are switched and used, at least a part of the data input in the previous mode is taken over, and data input is simplified in the next mode. can do. Thereby, the operability of the biological value measuring apparatus is enhanced, and erroneous input can be prevented.

  Embodiments of the present invention will be described below with reference to the drawings. In the following description, the same parts and components are denoted by the same reference numerals. Their names and functions are also the same.

  In the present embodiment, a pulse wave detection device will be described as an example of the biological value measurement device according to the present invention. However, the biological value measurement device according to the present invention is not limited to the pulse wave detection device, and a blood pressure monitor And body composition meters, devices for measuring physical function such as visual acuity, hearing, grip strength, back muscle strength, vital capacity, exercise quantity measuring devices such as pedometers, devices that combine two or more of these functions, etc. Any device for measuring other biological values may be used.

  FIG. 1 is a diagram illustrating a specific example of a functional configuration of the pulse wave detection device according to the present embodiment. FIG. 2 is a diagram showing a specific example of the connection relationship between the sensor unit and the fixed base. Moreover, FIG. 3 is a figure which shows the specific example of the state with which the pulse wave detection apparatus was mounted | worn with the biological body.

  2 and 3, the pulse wave detection device is a sensor unit 1 mounted on the wrist surface for detecting a pulse wave in an artery of the wrist, and a fixing base for fixing the wrist for pulse wave detection. 2 and a PC (Personal Computer) unit 3 (not shown) for executing various processes including calculations for pulse wave detection. In FIG. 2, the sensor unit 1 is housed in the housing, and in FIG. 3, the sensor unit 1 is slid from the housing to the outside via the slide groove 9 (see FIG. 2) and is located on the wrist. .

  The fixed base 2 includes a fixed base unit 7. The fixed base unit 7 and the PC unit 3 are communicably connected via a USB (Universal Serial Bus) cable 4. The fixed base unit 7 and the sensor unit 1 are connected via a communication cable 5 and an air pipe 6.

  When the pulse wave is detected, as shown in FIG. 3, the user places the sensor unit 1 on the surface of the wrist on the artery side by sliding and moving the sensor unit 1 with the wrist placed on the fixed base 2 at a predetermined position. The casing and the fixing base 2 are tightened through the belt 8 so as to prevent the sensor unit 1 on the wrist from being displaced.

  Referring to FIG. 1, a sensor unit 1 includes an LED unit 10 including a plurality of LEDs (Light Emitting Diodes) arranged in parallel so that the light emission state can be visually recognized from the outside when the wrist is worn. A pressure sensor array 11 in which a pressure sensor comprising a plurality of diaphragms for detecting pressure and a resistance bridge circuit is arranged in one direction on a pressing surface of a semiconductor chip made of single crystal silicon or the like. A multiplexer 12 that selectively derives a voltage signal output from each of the plurality of pressure sensors, and a pressure cuff 13 that includes an air bag that is pressurized to adjust the pressure sensor array 11 onto the wrist.

  As will be described later, the LED unit 10 is provided to notify the user of information (the position of an artery or the position of a solid object such as a tendon) for guiding the sliding direction of the sensor unit 1 by light emission. Therefore, the medium for notifying such information is not limited to the LED, but may be an LCD (Liquid Crystal Display).

  In addition, a well-known structure can be employ | adopted as a structure of the other sensor unit 1, and it is not limited to a specific structure in the pulse-wave detection apparatus concerning this Embodiment.

  The fixed base unit 7 includes a pressurizing pump 14 for pressurizing an internal pressure (hereinafter referred to as cuff pressure) of a press cuff (air bag) 13, a negative pressure pump 15 for depressurizing, a pressurizing pump 14, and a negative pressure pump 15. A switching valve 16 for selectively switching one of the air pipe 6 to the air pipe 6, a control circuit 17 for controlling them, a communication circuit 18 to which the USB cable 4 is connected, and an output derived from the sensor unit 1 An A / D (Analog / Digital) converter 19 for converting a signal into digital data is provided.

  The PC unit 3 includes a CPU (Central Processing Unit) 20 that executes various processes including calculation to centrally control the pulse wave detection device, and a ROM (Read that stores data and a program for controlling the pulse wave detection device. Only Memory (Random Access Memory) 21 and RAM (Random Access Memory) 22, an operation unit 23 that can be operated from the outside and operated to input various information, and an LCD for outputting various information such as pulse wave detection results to the outside A display unit 24, a communication unit 25 for outputting various information such as a pulse wave detection result to an external device via a wired or wireless network, and an I / F (interface) for connecting the USB cable 4 to the CPU 20 26. A well-known process can be adopted for the pulse wave detection process that proceeds when the CPU 20 reads and executes the program while referring to the data as appropriate, and the pulse wave detection apparatus according to the present embodiment is not limited to a specific process. .

  Here, the fixed base unit 7 and the PC unit 3 of the fixed base 2 are provided separately, but a configuration in which both functions are built in the fixed base 2 may be employed. The fixed base unit 7 also includes a CPU, and the CPU of the fixed base unit 7 executes various processes including calculation to centrally control the pulse wave detection device. The CPU 2 of the PC unit 3 Processing for displaying the processing result on the display 24, processing for transmitting the operation of the operation unit 23 to the CPU of the fixed base unit 7, and the like may be performed.

  Moreover, as said external apparatus with which the communication part 25 communicates, memory | storage devices, such as a server which memorize | stored medical information, such as an electronic medical record, correspond, for example.

  In the pulse wave detection device according to the present exemplary embodiment, processing in each mode is executed according to an operation by the operation unit 23 by the CPU 20 reading and executing a program. Here, the “mode” refers to a state in which (or is performing) a series of memory calling processes, a series of measurement processes, and the like for one person to be measured.

  FIG. 4 is a diagram for explaining state transition in the pulse wave detection device according to the present embodiment. Referring to FIG. 4, the modes of the pulse wave detection device according to the present embodiment include a measurement mode, a memory call mode, a personal information management mode, and a communication mode. It is possible to start processing in any other mode by accepting an operation by the operation unit 23 at a place where processing is being performed in a certain mode. After processing in a certain mode, starting processing in another mode following the operation by the operation unit 23 is referred to as “mode switching”. Note that even if a series of processes of the same type, such as a memory call, is performed in a different mode when the above series of processes are continuously performed on different subjects. That is, it is assumed that the measurement mode in which measurement is performed on the person A to be measured and the measurement mode in which measurement is performed on the person B to be measured are different modes even if performed continuously. When the measurement and the measurement of the person to be measured B are continuously performed, “mode switching” is performed.

  The measurement mode indicates a state in which a series of processes for measuring the biological value of the measurement subject is performed. In the pulse wave detection device according to the present embodiment, the measurement mode includes measurement of AI, which is a characteristic amount that reflects the reflection intensity of the pulse wave by detecting the pulse wave, blood pressure measurement, and body composition measurement. Shall. It is possible to start measurement of any other biological value by accepting an operation by the operation unit 23 when a certain biological value is being measured. In the measurement mode, after measurement of a certain biological value, starting measurement of another biological value following the operation by the operation unit 23 is referred to as “measurement switching”.

  The memory call mode indicates a state in which a series of processes for calling and processing a memory such as a measurement result of the measurement subject is performed. In the memory recall mode, the memory of the measurement result of the person being measured is recalled and processed to display a list of all stored data, a list of individual data, and a specific subject. A screen for displaying a trend graph representing the tendency of the measurement value for the measurer and a screen for displaying the details thereof are displayed on the display 24. These screens can be displayed in the order described above by the operation of the operation unit 23. Changing the screen display in the order described above in accordance with the operation by the operation unit 23 in the memory call mode is referred to as “display switching”.

  The communication mode refers to a state in which a series of processes for transmitting data such as a measurement result of a measurement subject to a designated external device or receiving data from the external device is performed. The personal information management mode indicates a state in which a series of processes for managing correction or change of personal information, which will be described later, stored in a predetermined storage area is performed.

  When measuring the measured subject's biological value in the measurement mode or displaying the measured value, trend graph, etc. in the memory recall mode, information for identifying the measured person or information about the measured person to be used for calculation is required. Become. These pieces of information are referred to as “personal information”.

  When measuring a pulse wave in the measurement mode, at least the age and sex of the person to be measured are required. Moreover, when measuring a body composition, at least age, height, and sex of a to-be-measured person are needed. If these pieces of information are not stored in advance, they are input for measurement or in the personal information management mode. If it is already stored as personal information, the personal information including at least the above information is called for measurement.

  The input personal information and data obtained by measurement are stored in a predetermined storage area such as the RAM 22. Alternatively, when the communication unit 25 communicates with an external device such as a server that stores medical information such as an electronic medical record, personal information may be stored in the external device. FIG. 5 is a diagram showing a specific example of stored personal information (FIG. 5A) and a specific example of measured values (FIG. 5B). Referring to FIG. 5A, personal information includes, as an example, an ID uniquely assigned as information for specifying personal information together with the name, date of birth, and gender of the person being measured. As other information, the personal information may include a history of the subject, family structure, occupation, and the like. In addition, referring to FIG. 5B, the measurement value includes, for example, an ID for identifying corresponding personal information together with a blood pressure value, a pulse, an AI value, and the like. A storage area for storing personal information and / or a storage area for storing measurement values is specified by the ID. Even when personal information and measurement values are stored in the external device, the storage area on the external device is specified by the ID. The association between the measurement value and the personal information may be any method other than the method using the ID as in this specific example.

  In the memory call mode, when displaying a list of all data and displaying a screen for displaying a list of individual data related to a specific measured person, an ID for identifying at least the personal information of the measured target person Is input, the associated measurement value is called and displayed.

  FIG. 6 is a block diagram showing a specific example of a functional configuration for executing processing relating to handover of personal information between modes in the pulse wave detection device according to the present embodiment. The functions shown in FIG. 6 are mainly formed in the CPU 20 when the CPU 20 reads and executes the program, but at least a part thereof may be formed by the hardware shown in FIG.

  Referring to FIG. 6, pulse wave detection apparatus according to the present embodiment includes mode selection unit 101, mode switching unit 103, mode storage unit 105, determination unit 107, personal information reading unit 109, personal information presentation unit 111, A personal information input unit 113 and a personal information determination unit 115 are included.

  The mode selection unit 101 receives an operation signal from the operation unit 23, selects a mode to be activated, generates a signal for transmitting the result to the mode switching unit 103, and inputs the signal to the mode switching unit 103. The mode switching unit 103 generates and outputs a control signal for starting the selected mode in accordance with the signal. Further, the mode storage unit 105 stores information on the mode to be activated.

  The mode storage unit 105 stores a currently activated mode and an ID that identifies personal information input or specified in that mode. Note that the information stored in the mode storage unit 105 is not limited to information regarding the currently activated mode, but may be information regarding the mode until a predetermined time elapses after activation or after termination. Further, when the next second mode is activated by the following processing, the information related to the second mode may be stored by overwriting the information related to the first mode activated previously, or the second mode may be stored. Along with the information, information regarding the first mode may be stored until a predetermined time elapses.

  The determination unit 107 monitors the information stored in the mode storage unit 105, and when the mode to be activated is input by the mode switching unit 103, whether or not information on the already activated mode is stored. That is, it is determined whether the mode is newly activated or the mode is switched from the currently activated first mode to the second mode, and a control signal is generated based on the determination to generate the personal information reading unit 109 or the individual The information is input to the information input unit 113. Note that the determination here is not limited to the determination of switching from the currently activated first mode to the second mode, and the second mode activation is a predetermined time from the activation of the first mode or the end of the first mode. It may be a determination whether or not it is within.

  In accordance with the control signal from the determination unit 107, the personal information reading unit 109 reads the ID for identifying the personal information set in the first mode that has been activated from the mode storage unit 105, and is identified by the ID. The personal information is read from the predetermined storage area and input to the personal information presentation unit 111. The personal information presentation unit 111 generates and outputs a signal for causing the display 24 to display a screen for presenting means for correcting the personal information specified by the read ID (for example, a “correct” button). To do. Alternatively, a signal for causing the display 24 to display a presentation screen for presenting personal information specified by the read ID is generated and output. In addition, the personal information input unit 113 generates and outputs a signal for causing the display 24 to display an input screen for receiving input of personal information or a correction screen for receiving correction of personal information. The personal information input unit 113 receives an operation signal from the operation unit 23 according to the screen and inputs personal information.

  The personal information determination unit 115 receives an operation signal from the operation unit 23 and determines the presented personal information or the input personal information. The determined personal information is stored in the mode storage unit 105.

  FIG. 7 is a flowchart showing a flow of processing relating to handing over of personal information between modes in the pulse wave detection device according to the present embodiment. The processing shown in the flowchart of FIG. 7 is executed by the CPU 20 reading the program and controlling each unit of FIG.

  Referring to FIG. 7, first, mode selection unit 101 receives an operation signal from operation unit 23 and receives a mode selection (step S101). If the determination unit 107 determines that the mode selected in step S101 is a switch from the first mode currently activated to the new second mode (YES in step S103), the personal information reading unit 109 performs the first operation. The ID specifying the personal information input in the mode is read from the mode storage unit 105, and the corresponding personal information is read from a predetermined storage area (step S105). The personal information presentation unit 111 generates and presents a signal for causing the display 24 to display a presentation screen for presenting the personal information read in step S105 (step S107). On the presentation screen, changes in the presented personal information can be accepted. In step S107, the personal information presentation unit 111 receives an operation signal for a specific operation (for example, operation of a menu button not shown) from the operation unit 23, presents the presentation screen, and accepts the change of the personal information. May be. When the personal information presented on the presentation screen is changed (YES in step S109), the personal information input unit 113 receives an operation signal from the operation unit 23 and inputs the corresponding personal information (step S111). .

  On the other hand, when the determination unit 107 determines that the mode selected in step S101 is not switching from the first mode that is currently activated to the new second mode, that is, it is determined that the first mode is newly activated. Then (NO in step S103), the personal information input unit 113 generates and displays a signal for causing the display 24 to display an input screen for receiving the input of personal information, and receives the operation signal from the operation unit 23. Personal information is input (step S111).

  When the personal information determination unit 115 receives the operation signal from the operation unit 23 and determines the personal information presented on the presentation screen or the personal information changed on the presentation screen, or the input When the personal information input on the screen is determined, an ID for specifying the determined personal information is stored in the mode storage unit 105 as information on the currently activated mode, together with the mode selected in step S101 ( Step S113).

  As a specific example, the above processing will be described with reference to a flowchart for starting the measurement mode in FIG. 8 and specific examples of screens displayed on the display 24 in FIGS.

  Referring to FIG. 8, when the measurement mode is started, determination unit 107 first refers to mode storage unit 105 to determine whether there is an ID for identifying personal information set in the already activated mode. If not (ie, if the measurement mode to be activated is not switching from the first mode to the second mode (“No ID” in step S201)), the personal information input unit 113 Then, an “ID input button” for inputting an ID for specifying personal information is displayed on the initial screen of the measurement mode (not shown) (step S203). When it is detected that the “ID input button” has been pressed (“pressed” in step S205), the personal information input unit 113 displays the input screen shown in FIG. 9 and identifies the personal information. Is received (step S207). When the ID is input on the screen of FIG. 9, the personal information input unit 113 further displays the input screen shown in FIG. 10 and accepts the input of the corresponding personal information. When it is detected that the “confirm” button for instructing completion of input of personal information is pressed, the personal information determination unit 115 assumes that there is an ID for identifying personal information set in the measurement mode to be activated. Is stored in the mode storage unit 105 (step S209).

  On the other hand, when the determination unit 107 determines that the ID for specifying the personal information set in the already activated mode is stored in the mode storage unit 105, that is, the measurement mode to be activated is changed from the first mode. In the case of switching to the second mode (“ID present” in step S201), the personal information presentation unit 111 accepts the correction of the read personal information set in the first mode on a menu screen or the like (not shown). For this purpose, a “correct” button is displayed (step S213). The first mode activated first includes the measurement mode. For example, when measurement is interrupted in the measurement mode activated first, the measurement mode is switched to the second mode in step S201 even when measurement is performed again in the measurement mode. In step S213, the personal information set in the interrupted previous measurement mode is taken over as it is, and a “correction” button for accepting the correction is displayed.

  When it is detected that the “correct” button is pressed on the menu screen (“pressed” in step S215), the personal information input unit 113 displays a screen for correction, and the personal information is displayed on the screen. Is received (step S217). Alternatively, the personal information presenting unit 111 presents the read personal information set in the first mode, displays a presentation screen for accepting corrections, and displays a “correction” button for accepting corrections on the screen. May be. In this case, when it is detected that the “correction” button is pressed on the presentation screen, the personal information input unit 113 accepts the correction of the personal information on the presentation screen. At this time, if the personal information is corrected without correcting the ID, the personal information specified by the ID is corrected. When the ID is also corrected, the personal information is newly registered with the new ID. Alternatively, the personal information specified by the corrected ID is corrected. When it is detected that the “confirm” button for instructing the completion of input of personal information is detected, the personal information determination unit 115 has an ID for specifying personal information set in the measurement mode to be activated. The data is stored in the mode storage unit 105 (step S209). When it is detected that the “fix” button is pressed without pressing the “correct” button on the presenting screen, or when it is not detected that the “correct” button is pressed within a predetermined time ( In step S215, “not pressed”), the personal information determination unit 115 assumes that the measurement mode is started by taking over the personal information set in the first mode that was previously started and presented in step S213. For example, a message such as “I will measure with the same ID” is displayed (step S219), and it is set in the first mode as having an ID for specifying personal information set in the measurement mode to be activated. The ID is stored in the mode storage unit 105 (step S209).

  If it is detected that the “clear” button has been pressed (“pressed” in step S211), the process returns to step S203 to accept the input of the ID again. In step S205, when it is detected that the “ID input button” is not pressed on the initial screen of the measurement mode (not shown), or the “ID input button” is pressed within a predetermined time. Even if it is not detected (“not pressed” in step S205), the personal information determination unit 115 assumes that there is no ID for specifying personal information set in the measurement mode to be activated (step S221). Then, the process returns to step S203 to accept the input of ID again. Alternatively, when it is detected that a button other than the “Confirm” button is pressed without pressing the “Clear” button on the input screen or the presentation screen, or the “Clear” button is pressed within a predetermined time. If it is not detected (“not pressed” in step S211), the process returns to step S213 to accept correction of personal information again.

  The measured values thus measured are stored in a predetermined storage area in association with the set personal information as shown in FIG. 5B.

  FIG. 11 is a diagram showing a specific example of a screen for displaying a list of all data displayed in the memory call mode. By selecting specific data on the list display screen of FIG. 11, the personal information of the measurement subject to be browsed is specified, the data associated with the personal information is called up, and the individual data shown in FIG. A list display will be displayed. Further, when it is detected on the screen of FIG. 12 that the button for instructing the detailed display of the selected data is pressed, the screen showing the details shown in FIG. 13 is displayed. At this time, in the pulse wave detection device according to the present embodiment, the personal information is set and the memory call mode is activated, and the mode storage unit 105 stores the memory call mode and the personal An ID for specifying information is stored.

  When it is detected that the button for instructing measurement is pressed on the screen of FIG. 13, the processing shown in the flowchart of FIG. 7 is started and the mode is switched from the memory call mode to the measurement mode, and in step S107. The personal information specified by the ID is input in advance and presented.

  By performing the above-described processing in the pulse wave detection device according to the present embodiment, it is possible to reduce operations for inputting personal information when switching the activation mode, and to improve operability. Further, it is possible to prevent erroneous operation and input. In particular, in a device for measuring a biological value, such as a pulse wave detection device, the measurement mode is changed from the memory call mode in which the biological value of the measurement subject is remeasured while browsing personal information as described above. There are many uses to switch to. In such a case, it is possible to quickly switch to measurement without requiring input of personal information or an ID for identifying personal information again. In addition, as described above, it is possible to correct the personal information presented by a simple operation, so that operations such as correcting personal information or using different IDs for statistical purposes are facilitated. .

[Modification]
Referring to FIG. 6, the pulse wave detection device according to the modification of the present embodiment further includes a priority storage unit 117 as a functional configuration for executing processing related to the handover of personal information between modes, For each information included in the personal information, the priority read by the personal information reading unit 109 is stored. The priority stored in the priority storage unit 117 may be set in advance, or may be set by a user such as an administrator or an operator. More preferably, it is set according to the mode to be activated. Specifically, when the mode to be activated is the memory call mode, the priority of the ID for specifying the storage area for storing the measurement value is the highest, and the priority of the other information is not particularly limited. Moreover, when the mode to start is the measurement mode which measures a pulse wave, the priority of ID, a to-be-measured person's age, and sex is high in this order, and the priority of other information is not specifically limited. Further, when the mode to be activated is a measurement mode for measuring blood pressure, the priority of ID is the highest, and the priority of other information is not particularly limited. Moreover, when the mode to start is the measurement mode which measures a body composition, priority of ID, a to-be-measured person's age, height, and sex is high in this order, and the priority of other information is not specifically limited. .

  In this case, in step S105, the personal information reading unit 109 is based on the ID specifying the personal information input in the first mode read from the mode storage unit 105 according to the priority stored in the priority storage unit 117. The corresponding personal information is read from a high priority to a predetermined priority. The predetermined priority may be set in advance or may be set by a user such as an administrator or an operator. More preferably, the personal information reading unit 109 includes the personal information specified by the ID read from the mode storage unit 105 according to the priority set according to the second mode to be activated selected in step S101. Read from a high priority to a predetermined priority.

  Since the pulse wave detection device according to the modification performs the above-described processing, the personal information necessary in the switched mode is inherited from the personal information previously set. Therefore, when switching the mode, the personal information is input again. No operation is required. Thereby, operability can be improved. Further, it is possible to prevent erroneous operation and input.

  Furthermore, a program for controlling the above-described pulse wave detection device can be provided as a biological value measurement program. Such a program is recorded on a computer-readable recording medium such as a flexible disk attached to the computer, a CD-ROM (Compact Disk-Read Only Memory), a ROM, a RAM, and a memory card, and provided as a program product. You can also. Alternatively, the program can be provided by being recorded on a recording medium such as a hard disk built in the computer. A program can also be provided by downloading via a network.

  The program according to the present invention is a program module that is provided as a part of a computer operating system (OS) and calls necessary modules in a predetermined arrangement at a predetermined timing to execute processing. Also good. In that case, the program itself does not include the module, and the process is executed in cooperation with the OS. A program that does not include such a module can also be included in the program according to the present invention.

  The program according to the present invention may be provided by being incorporated in a part of another program. Even in this case, the program itself does not include the module included in the other program, and the process is executed in cooperation with the other program. Such a program incorporated in another program can also be included in the program according to the present invention.

  The provided program product is installed in a program storage unit such as a hard disk and executed. The program product includes the program itself and a recording medium on which the program is recorded.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a figure which shows the specific example of a function structure of a pulse-wave detection apparatus. It is a figure which shows the specific example of the connection relation of a sensor unit and a fixed base. It is a figure which shows the specific example of the state with which the pulse wave detection apparatus was mounted | worn with the biological body. It is a figure explaining the state transition in a pulse wave detection apparatus. It is a figure which shows the specific example (A) of the stored personal information, and the specific example (B) of a measured value. It is a block diagram which shows the specific example of a function structure for performing the process regarding the taking over of the personal information between modes in a pulse-wave detection apparatus. It is a flowchart which shows the flow of the process regarding the taking over of the personal information between modes. It is a flowchart about the case where measurement mode is started. It is a figure which shows the specific example of the screen which inputs ID. It is a figure which shows the specific example of the screen which inputs personal information. It is a figure which shows the specific example of the screen which displays a list of all the data. It is a figure which shows the specific example of the screen which displays a list of data according to an individual. It is a figure which shows the specific example of the screen which displays the detail of data.

Explanation of symbols

  1 sensor unit, 2 fixing base, 3 PC unit, 4 USB cable, 5 communication cable, 6 air tube, 7 fixing base unit, 8 belt, 9 slide, 10 LED section, 11 pressure sensor array, 12 multiplexer, 13 pressure cuff , 14 Pressure pump, 15 Negative pressure pump, 16 Switching valve, 17 Control circuit, 18 Communication circuit, 19 A / D converter, 20 CPU, 21 ROM, 22 RAM, 23 Operation unit, 24 Display, 25 Communication unit, 26 I / F, 101 mode selection unit, 103 mode switching unit, 105 mode storage unit, 107 determination unit, 109 personal information reading unit, 111 personal information presentation unit, 113 personal information input unit, 115 personal information determination unit, 117 priority Degree storage unit.

Claims (9)

An operation means for receiving an operation input from an operator;
A measuring means for measuring the biological value of the measurement subject;
First storage means for storing personal information, which is information about the subject,
Second storage means for storing the measurement value of the measurement means in association with the personal information;
Generating means for generating a signal for displaying the measured value;
Mode storage means for storing information about the activated mode;
Control means for controlling the measuring means and the generating means,
The operation means receives an operation for selecting a mode to be activated,
The control means includes
A determination process for determining whether or not information related to the first mode is stored in the mode storage unit when the second mode is selected by the operation unit;
As a result of the determination process, when it is determined that information on the first mode is stored, a read process for reading an ID for identifying the personal information set in the first mode from the mode storage unit; ,
A biological value measuring apparatus that executes a storing process in which the ID is stored in the mode storage means as an ID for identifying personal information set in the second mode. The mode storage means stores information on the activated mode,
The control means uses the information related to the first mode from the mode storage means in the reading process when it is determined that the second mode is selected when the first mode is activated in the determination process. The biological value measuring apparatus according to claim 1, wherein the certain ID is read out. The personal information includes first information and second information,
Priority storage means for storing priorities of the first information and the second information of the personal information;
2. The biological value measuring apparatus according to claim 1, wherein the control unit reads the first information and / or the second information from the first storage unit according to the priority in the reading process.   The biological value measuring apparatus according to claim 3, wherein the priority is determined according to the second mode. The control means includes
A display process for displaying a screen for presenting the personal information specified by the ID read in the read process;
The biological value measuring apparatus according to claim 1, further comprising a change process for changing at least a part of the personal information in response to an operation input from the operation means. The control means includes
A display process for displaying a screen for changing the personal information specified by the ID read in the read process in response to a specific operation input from the operation means;
The biological value measuring apparatus according to claim 1, further executing a changing process for changing at least a part of the personal information based on an input according to the screen.   The biological value measuring apparatus according to claim 1, wherein the ID specifies the personal information included in another apparatus.   The first mode is a mode for browsing the measurement value stored in association with the personal information specified by the ID by the second storage means, and the second mode is a biological value of the measurement subject. The biological value measuring apparatus according to claim 1, which is a measurement mode. A program for causing a computer to execute processing using biometric values,
Inputting a signal for selecting a mode to be activated;
When the second mode is selected as the mode to be activated, access is made to mode storage means for storing information relating to the mode activated in the computer, and whether or not information relating to the first mode is stored in the mode storage means. A determination step for determining
In the determination step, when it is determined that information related to the first mode is stored, an ID for identifying personal information that is information related to the measured person set in the first mode from the mode storage means A step of reading
And a step of storing the ID in the mode storage means as an ID for identifying personal information set in the second mode.

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