JP2019097772A - Biological information measurement device - Google Patents

Abstract

To provide a biological information measurement device capable of shortening a time for measuring biological information on a plurality of subjects as a whole.SOLUTION: A biological information measurement device has: a connection part simultaneously connectable to a plurality of subjects; a measurement part simultaneously measuring biological information on the plurality of subjects simultaneously connected to the connection part; a display part displaying biological information on the subject to be displayed and recorded among the plurality of subjects; a recording part recording the displayed biological information; a storage part storing biological information on another subject during display of the biological information of the subject to be displayed and recorded; and a control part causing the display part to display the biological information on another subject stored in the storage part before switching as recorded biological information when the subject to be displayed and recorded is switched to the another subject.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a biological information measuring device.

  2. Description of the Related Art Conventionally, as a biological information measurement apparatus for measuring biological information such as electrocardiogram information, a biological information measurement apparatus having a connection portion that can be simultaneously connected to a plurality of subjects is known. Such a biological information measurement apparatus is configured to switch the measurement target to either the connection unit corresponding to the first subject or the connection unit corresponding to the second subject. Therefore, while carrying out the measurement of the biological information of the first subject, by putting on the connecting part such as the electrode to the second subject, the preparation for the next measurement is carried out, for example, as in the group examination. In the case where biological information of a large number of subjects is measured one after another, the measurement time of the biological information is shortened as a whole.

  For example, Patent Document 1 discloses a configuration in which the biological information of the first subject and the biological information of the second subject simultaneously measured are simultaneously displayed on the display unit.

JP 2014-128455 A

  By the way, the measurement of biological information such as an electrocardiogram is performed after confirming that the biological information displayed on the display unit is in a stable state where noise and the like are not superimposed. Therefore, in the biological information measurement apparatus capable of switching the measurement target in the biological information of a plurality of subjects, the living body of the second subject after switching from the measurement of the first subject to the measurement of the second subject If the information is not in a stable state, a waiting time may occur until the biological information becomes stable.

  Further, in the configuration described in Patent Document 1, since two pieces of biological information are displayed on the display unit, when the user misunderstood which of the subjects' biological information, it is about which correct information is. It takes time to check again. That is, in the configuration described in Patent Document 1, as a configuration capable of shortening the measurement time of the biological information of a plurality of subjects as a whole, the configuration has a certain limit.

  An object of the present invention is to provide a biological information measuring device capable of shortening the measurement time of biological information of a plurality of subjects as a whole.

The biological information measuring device according to the present invention is
A connection that can be connected to multiple subjects simultaneously;
A measurement unit configured to simultaneously measure biological information of the plurality of subjects simultaneously connected to the connection unit;
A display unit for displaying biological information of a subject who is to be displayed and recorded among the plurality of subjects;
A recording unit for recording the displayed biological information;
A storage unit that stores biological information of another subject during display of the biological information of the subject subjected to display recording;
When the subject to be displayed and recorded is switched to the other subject, the display unit displays the biological information of the other subject stored in the storage unit before switching as the stored biological information. A control unit,
Have.

  According to the present invention, the measurement time of the biological information of a plurality of subjects can be shortened as a whole.

It is a perspective view showing the appearance composition of the living body information measuring device in an embodiment of the invention. It is a block diagram showing an internal configuration of a living body information measuring device in this embodiment. It is a figure which shows the example of a display in a display part. It is a figure which shows the example of a display at the time of switching the display recording object of a display part. It is a figure which shows the example of a display after switching the display recording object of a display part. It is a figure which shows the example of a display at the time of the noise in a display part superimposing on biometric information. It is a figure which shows the example of a display at the time of displaying only the measurement biometric information in a display part. It is a figure which shows the example of a display at the time of displaying the content of the measurement defect in a display part. It is a figure which shows the example of a display at the time of displaying the content of the measurement defect in a display part. It is a flowchart which shows the operation example of the display control in a biometric information measuring apparatus. It is a figure which shows the example of a display at the time of switching a display recording object to other types of biometric information.

  Hereinafter, embodiments of the present invention will be described in detail based on the drawings. FIG. 1 is a perspective view showing an appearance configuration of a biological information measurement apparatus 100 according to an embodiment of the present invention. FIG. 2 is a block diagram showing an internal configuration of the biological information measuring device 100 in the present embodiment.

  As shown in FIG. 1, the biological information measuring apparatus 100 is an electrocardiograph capable of measuring an electrocardiogram, a phonocardiogram, etc. of a subject as biological information of the subject, and includes a main body 110 and a display 120. Have. The biological information measurement device 100 is, for example, a measurement device corresponding to a medical examination that measures biological information of a large number of subjects, such as a group medical examination, one after another. The main body unit 110 is provided with a connector (not shown) for connecting the first electrode unit 130 and the second electrode unit 140 (also simply referred to as “electrode unit”) and the first heart sound microphone 131 and the second heart sound microphone 141.

  That is, the living body information measurement apparatus 100 is configured to be able to simultaneously connect two subjects among a large number of subjects. Furthermore, in other words, during measurement of one subject, the biological information measurement apparatus 100 is configured to be able to prepare for the next measurement such as attaching an electrode portion or the like to another subject. ing. Therefore, the biological information measurement apparatus 100 is configured to be able to perform measurement by sequentially replacing a large number of subjects. The first electrode unit 130 and the second electrode unit 140, and the first heart sound microphone 131 and the second heart sound microphone 141 correspond to the “connection portion” in the present invention.

  The first electrode unit 130 and the second electrode unit 140 input an electrocardiogram signal of the attached subject to the biological information measurement apparatus 100. The first heart sound microphone 131 and the second heart sound microphone 141 input the heart sound of the attached subject to the biological information measurement device 100. In the following description, an electrocardiogram based on an electrocardiogram signal input from the first electrode unit 130 and the second electrode unit 140 is a measurement target, and heart sounds input from the first heart sound microphone 131 and the second heart sound microphone 141 are used. About the phonocardiogram based on it, since it becomes the same explanation as the explanation concerning the electrocardiogram information, the explanation is omitted.

  The main body unit 110 includes an operation key 111 and a recording unit 112. The operation key 111 includes a first switching key 111A, a second switching key 111B, a recording start key 111C, and the like.

  The first switching key 111A is an operation key for switching the display recording target of the display unit 120 between the biological information obtained from the first electrode unit 130 and the biological information obtained from the second electrode unit 140. The first switching key 111 </ b> A has a key corresponding to the first electrode unit 130 and a key corresponding to the second electrode unit 140. By pressing any key, the display recording target of the display unit 120 is switched to the biological information of the corresponding electrode unit.

  The second switching key 111B is an operation key for switching the measurement object between the electrocardiogram and the phonocardiogram. The second switching key 111B has a key corresponding to an electrocardiogram and a key corresponding to a phonocardiogram. By pressing any key, the measurement target corresponding to the pressed key is switched.

  The recording start key 111 </ b> C is a key for starting a recording operation for recording the biological information to be displayed and displayed on the display unit 120 on a sheet. The recording unit 112 is a printer for printing biometric information on a sheet in the present embodiment. When the recording start key 111C is pressed, the biological information currently displayed on the display unit 120 is recorded on the sheet by the recording unit 112.

  The display unit 120 includes, for example, a display 121 having a touch panel function. The display 121 displays temporal changes in the biological information of the subject who is to be displayed and recorded among the plurality of subjects.

  As shown in FIG. 2, in addition to the operation key 111, the recording unit 112, and the display unit 120, the biological information measurement apparatus 100 includes a control unit 150 and a storage unit 160.

  The control unit 150 includes, for example, an arithmetic processing unit (CPU: Central Processing Unit), and controls the operation of each unit of the biological information measurement apparatus 100 by executing a program stored in the storage unit 160. The control unit 150 includes a first processing unit 151, a second processing unit 152, and a measurement failure detection unit 153.

  The first processing unit 151 and the second processing unit 152 (also simply referred to as “processing unit”) acquire biological information of the subject attached to any of the first electrode unit 130 and the second electrode unit 140 taking measurement. The first processing unit 151 and the second processing unit 152 correspond to the “measuring unit” in the present invention.

  The first processing unit 151 and the second processing unit 152 are configured to process the acquired biological information into information suitable for display on the display unit 120, that is, waveform data representing time change of the biological information. The first processing unit 151 acquires biological information from the first electrode unit 130, and the second processing unit 152 acquires biological information from the second electrode unit 140.

  Each of the first processing unit 151 and the second processing unit 152 can independently measure and process each piece of biological information. Therefore, for example, when each of the first electrode unit 130 and the second electrode unit 140 is attached to each of the two subjects, the respective biological information corresponds to the first processing unit 151 and the second processing unit. It is designed to be measured and processed simultaneously by 152.

  The measurement failure detection unit 153 detects a measurement failure in biological information of the first electrode unit 130 and the second electrode unit 140. As a measurement defect, the case where noise is superimposed on the waveform data processed by a process part, the case where there is an attachment mistake of an electrode part, etc. are mentioned.

  In addition, when noise is superimposed on the waveform data, it is recognized that the waveform data processed by the processing unit continues to vibrate repeatedly (see, for example, FIG. 6). The measurement failure detection unit 153 determines that a measurement failure has occurred. In addition, for detection when there is an attachment error of the electrode unit, for example, the waveform data processed by the processing unit is not the desired waveform data, and the control unit 150 acquires the biological information from the electrode unit. When the unreadable condition is recognized, the measurement failure detection unit 153 determines that a measurement failure has occurred.

  Further, the detection of measurement failure in the measurement failure detection unit 153 may be separately set to the user's desired condition according to the detection target of the measurement failure from the function setting screen or the like on the display unit 120, for example. It may be possible to detect a measurement failure automatically according to the condition of

  The control unit 150 controls the display unit 120 to display one of the waveform data processed by the first processing unit 151 and the second processing unit 152. Specifically, the control unit 150 selects waveform data corresponding to the processing unit of the first processing unit 151 and the second processing unit 152 that is pressed by the operation key 111, that is, the first switching key 111A. It is displayed on the display unit 120. When the first setting is made to either the first processing unit 151 or the second processing unit 152 in the initial setting, the waveform data corresponding to the set processing unit is displayed on the display unit 120 at the time of the first measurement. Is displayed.

  As shown in FIG. 3, the display unit 120 displays waveform data relating to biological information of the subject on which the electrode unit of the selected processing unit is attached. In and after FIG. 3, in the display unit 120, the vertical axis represents the value of biological information (the measured potential in the case of an electrocardiogram), and the horizontal axis represents time. Further, on the display unit 120, waveform data relating to the latest biological information is displayed in the direction from the left to the right. Then, when the waveform data reaches the right end, the waveform data related to the latest biological information is updated and displayed from the left end (so-called stationary type).

  In addition, the storage unit 160 stores the biological information acquired from the first electrode unit 130 and the second electrode unit 140. That is, the storage unit 160 stores the biological information that is not the display recording target of the display unit 120 together with the biological information that is the display recording target of the display unit 120.

  That is, the storage unit 160 stores biological information of another subject for a predetermined time while displaying the biological information of the subject to be displayed and recorded. The storage unit 160 may store the value of the biological information or may store the waveform data processed by the processing unit.

  As shown in FIG. 4, the control unit 150 switches the display recording target of the display unit 120 based on the user's operation instruction. When the control unit 150 receives an instruction to switch the display recording target of the display unit 120 by the first switching key 111A and switches the subject to be displayed and displayed, the storage living body stored in the storage unit 160 before switching. Control is performed to display information on the display unit 120.

  The stored biometric information is waveform data that is stored in the storage unit 160 before switching of the display recording target, and indicates temporal change of the biometric information related to the display recording target after switching.

  As shown in FIG. 5, the control unit 150 performs control of causing the display unit 120 to display measurement biological information measured by the processing unit after switching along with stored biological information. The measurement biometric information is waveform data related to a time change of the biometric information to be processed by the processing unit after switching.

  Specifically, the control unit 150 causes waveform data before switching based on stored biological information to be displayed at the time of switching, and waveform data after switching based on measured biological information measured after switching is a waveform before switching. The display unit 120 is controlled so as to sweep the data successively in time.

  That is, the display unit 120 displays the stored biometric information and the measured biometric information so as to be temporally continuous. The measured biometric information may be displayed by being linked to the stored biometric information, or the measured biometric information may be displayed with a few seconds left from the stored biometric information.

  At the start of measurement of the biological information, some noise may be superimposed on the waveform data due to the attachment state of the electrode unit to the subject and the like. For example, when noise is superimposed on waveform data, as shown in FIG. 6, the display unit 120 displays the waveform data (particularly, the baseline portion) in a minutely vibrated state. Therefore, the recording of the biological information is performed after confirming that the waveform data (in particular, the base line portion) is in a stable state as shown in FIG.

  Here, if the stored biometric information is not displayed on the display unit 120, the measured biometric information will be displayed from the left end of the display unit 120 as shown in FIG. In such a case, it may be necessary to wait for the measurement biological information to be displayed to a certain extent in order to confirm that noise is not superimposed on the measurement biological information, so a waiting time for a predetermined time may occur. Will occur. The predetermined time is a time sufficient for the user to confirm that the waveform data related to the biological information is in a stable state, and is, for example, a time of about 5 seconds to 10 seconds.

  However, in the present embodiment, as shown in FIG. 4, the stored biological information is displayed on the display unit 120 at the timing at which the measurement biological information is displayed, that is, the timing at which the subject is switched. The stored stored biometric information can be displayed on the display unit 120. Therefore, by looking at the display of the display unit 120, it is possible to quickly determine whether or not the waveform data relating to the biometric information to be displayed and recorded after switching is in a stable state, so the subject was switched. It is possible to suppress the occurrence of the waiting time in the event.

  In addition, when the measurement defect is detected from the biological information acquired from the first electrode unit 130 and the second electrode unit 140 by the measurement defect detection unit 153, the control unit 150 relates to the display recording target in which the measurement defect is detected. When waveform data is displayed on the display unit 120, control is performed to output an alarm.

  Specifically, as shown in FIGS. 8 and 9, the control unit 150 causes the display unit 120 to display the content of the measurement failure. In the case of FIG. 8, the content 121A indicating that noise is superimposed on the waveform data is displayed, and a display such as "there is noise" is displayed as the content 121A. In the case of FIG. 9, the content 121B for prompting confirmation of the attachment error of the electrode unit is displayed, and a display such as "Check the attachment error of the electrode unit" is displayed, for example.

  By doing this, the content of the measurement failure is displayed on the display unit 120 at the timing when the display / recording target is switched, so that the occurrence of some measurement failure can be made faster compared to the configuration in which the content of the measurement failure is not displayed. It can be judged.

  In addition, as output control of an alarm, you may make it generate an alarm, a sound, etc., for example, and may make it light a lamp | ramp etc.

  Next, an operation example when executing display control in the biological information measurement device 100 will be described. FIG. 10 is a flowchart showing an operation example of display control in the biological information measurement device 100. The process in FIG. 10 is appropriately executed, for example, when an operation instruction on the operation key 111 is issued.

  As shown in FIG. 10, the control unit 150 determines whether or not the display recording target is the first electrode unit 130 (step S101). As a result of the determination, when the display / recording target is the first electrode unit 130 (step S101, YES), the control unit 150 causes the display unit 120 to display the waveform data related to the biological information of the first processing unit 151 (step S102). ). Here, when the subject subject to display and recording in the process of step S102 is the first subject, the display unit 120 sequentially displays the measurement biological information of the subject related to the first electrode unit 130. Go. In addition, the subject subject to display and recording in the process of step S102 receives the switching instruction in the process of step S104 described later, and the subject's biological information related to the second electrode unit 140 is displayed. When the user is a patient, the display biological information of the subject related to the first electrode unit 130 is read from the storage unit 160 and displayed while the measurement biological information is sequentially displayed on the display unit 120. In the second processing unit 152, the biological information from the second electrode unit 140 is processed and stored in the storage unit 160.

  On the other hand, when the display recording target is not the first electrode unit 130 (step S101, NO), that is, when the display recording target is the second electrode unit 140, the control unit 150 converts the biological information of the second processing unit 152 into The waveform data is displayed on the display unit 120 (step S103). Here, when the subject to be displayed and recorded in the process of step S103 is the first subject, the display unit 120 sequentially displays the measurement biological information of the subject related to the second electrode unit 140. Go. In addition, the subject subject to display and recording in the process of step S103 receives a switching instruction in the process of step S104 to be described later, and the subject's biological information related to the first electrode unit 130 is displayed. When the user is a patient, the display biological information of the subject related to the second electrode unit 140 is read from the storage unit 160 and displayed while the measurement biological information is sequentially displayed on the display unit 120. Further, in the first processing unit 151, the biological information from the first electrode unit 130 is processed and stored in the storage unit 160.

  After step S102 and step S103, the control unit 150 determines whether or not there is a switching instruction which is an operation instruction to switch the display / recording target (step S104). As a result of the determination, if there is a switching instruction (YES in step S104), the process returns to step S101. On the other hand, when there is no switching instruction (NO in step S104), the control unit 150 determines whether the power of the biological information measuring apparatus 100 is turned off (step S105).

  As a result of the determination, when the power is not turned off (step S105, NO), the process returns to step S104. On the other hand, when the power is turned off (YES in step S105), the control ends.

  According to the present embodiment configured as described above, when the display recording target of the display unit 120 is switched, the stored biometric information is displayed on the display unit 120, so that the display of the display unit 120 can be viewed at first glance. It is possible to quickly determine whether or not the waveform data relating to the biometric information to be displayed and recorded after switching is in a stable state. Therefore, it is possible to suppress the occurrence of the waiting time when switching the subject, and as a result, it is possible to shorten the measurement time of the biological information of a plurality of subjects as a whole.

  Further, since the waveform data relating to the biological information to be measured is displayed on the display unit 120, it is possible to prevent the user from misidentifying the information displayed on the display unit 120. As a result, it is possible to save time and effort for the user to confirm again which subject is the biological information, and as a result, it is possible to shorten overall measurement time of the biological information of a plurality of subjects.

  By the way, for example, after the waveform data of the first subject currently displayed on the display unit 120 is recorded, when there is a measurement failure in the waveform data of the first subject, the living body of the first subject The information needs to be remeasured. However, if the waveform data of the first subject is recorded, then it is automatically switched to the waveform data of the second subject and recorded, the second measurement is completed until the second subject's measurement is completed. 1 Subject will be kept waiting.

  However, in the present embodiment, since the display recording target of the display unit 120 is switched based on the user's operation instruction, after confirming the waveform data relating to the biological information recorded by the recording unit 112, the display recording target is switched. be able to.

  Thereby, when waveform data relating to the biological information of the first subject currently displayed on the display unit 120 is recorded, even if there is any measurement failure, the measurement of the biological information is performed again. Then, biological information of the next second subject can be measured. As a result, the biological information of the first subject can be remeasured quickly without waiting for the first subject to wait until the measurement of the second subject is completed. The measurement efficiency of information can be improved.

  In addition, after the display recording target is switched, the stored biological information and the measured biological information are displayed on the display unit 120 so as to be temporally continuous, so that the waveform data displayed on the display unit 120 can be easily confirmed by the user. It can be

  In the above embodiment, in the measurement of one type of biological information (electrocardiogram), it is possible to simultaneously measure the biological information of the subject to be displayed and recorded and the biological information of the subject not to be displayed and recorded. Although the configuration is illustrated, the present invention is not limited thereto. For example, two or more types of biological information may be simultaneously measured.

  Specifically, when the first electrode unit 130 and the first heart sound microphone 131 corresponding to a plurality of different pieces of biological information are attached to the same first subject, the biological information measurement apparatus 100 generates an electrocardiogram signal. And heart sounds are simultaneously measured and processed by the first processing unit 151.

  On the other hand, when the second electrode unit 140 and the second heart sound microphone 141 are attached to a second subject different from the first subject, the biological information measuring apparatus 100 includes the first processing unit 151. In parallel with the processing of the second processing unit 152, both the electrocardiogram signal and the heart sound are simultaneously measured and processed by the second processing unit 152.

  Here, when the key corresponding to the electrocardiogram is pressed by the second switching key 111B, or when the electrocardiogram is set by initial setting or the like, the control unit 150 causes the display unit 120 to display the first electrode unit 130. The biological information (biometric information to be displayed and recorded) based on the above is displayed (for example, see FIG. 3). At this time, biological information (other types of biological information) based on the first heart sound microphone 131 is stored in the storage unit 160. Then, when the key corresponding to the phonocardiogram is pressed by the second switching key 111B, as shown in FIG. 11, the biological information related to the phonocardiogram stored in the storage unit 160 is displayed on the display unit 120 as stored biological information. Is displayed.

  As described above, the measurement efficiency of the biological information measurement device 100 can be further improved by simultaneously measuring two or more types of biological information with respect to the same first subject.

  In addition, while the biological information of the first subject is being measured, the second electrode unit 140 and the second heart sound microphone 141 process the electrocardiogram and phonocardiogram of the second subject and are stored in the storage unit 160. Ru. When the recording of the first subject is completed and the display recording target is switched to the second subject, the biological information of the second subject stored in the storage unit 160 is displayed on the display unit 120. .

  As described above, by storing plural types of biological information in the second subject during measurement of plural types of biological information in the first subject, after the end of the recording of the first subject, The biological information of the second subject can be displayed on the display unit 120 quickly. As a result, the measurement time of biological information of a plurality of subjects can be further shortened as a whole.

  In the above embodiment, the first processing unit 151 and the second processing unit 152 are incorporated in the control unit 150. However, the present invention is not limited to this, and the processing unit is different from the control unit. It may be configured to operate on a CPU of Also, in this case, a plurality of processing units may be provided corresponding to each of a plurality of subjects.

  In the above embodiment, the measurement failure detection unit 153 is provided. However, the present invention is not limited to this. The measurement failure detection unit 153 may not be provided. In this case, the measurement failure detection unit may be configured to operate with a CPU different from the control unit.

  Moreover, in the said embodiment, although it was comprised so that connection to two subjects was possible by two electrode parts, this invention is not limited to this, It is comprised so that connection to three or more subjects is possible. It may be done.

  Moreover, although the electrocardiograph was illustrated as a biological information measurement apparatus 100 in the said embodiment, this invention is not limited to this, You may be apparatuses other than an electrocardiograph.

  Further, in the above embodiment, the biological information of the subject is acquired from the electrode unit, but the present invention is not limited to this, and the biological information may be acquired from an attachment other than the electrode unit. .

  In the above embodiment, the waveform data of the biological information is displayed on the display unit 120, but the present invention is not limited to this. For example, the value of the biological information is displayed on the display unit 120 every time Also good.

  In the above embodiment, the display recording target in the display unit 120 is switched based on the user's operation instruction, but the present invention is not limited to this. For example, display is automatically performed at the recording end timing in the recording unit 112 The recording target may be switched. However, from the viewpoint of improving measurement efficiency, it is preferable to switch the display recording target based on the user's operation instruction.

  In addition, any of the above-described embodiments is merely an example of embodying the present invention, and the technical scope of the present invention should not be interpreted in a limited manner by these. That is, the present invention can be implemented in various forms without departing from the scope or main features of the present invention.

  The biological information measuring device according to the present invention is useful as a biological information measuring device capable of shortening the measurement time of biological information of a plurality of subjects as a whole, and, for example, a cardiac sound electrocardiograph such as a school child check, a group It is suitable as a biological information measuring device for medical checkup.

DESCRIPTION OF SYMBOLS 100 biological information measuring apparatus 110 main-body part 111 operation key 112 recording part 120 display part 121 display 130 1st electrode part 131 1st heart sound microphone 140 2nd electrode part 141 2nd heart sound microphone 150 control part 151 1st processing part 152 2nd Processing unit 153 Measurement failure detection unit 160 Storage unit

Claims (6)

A connection that can be connected to multiple subjects simultaneously;
A measurement unit configured to simultaneously measure biological information of the plurality of subjects simultaneously connected to the connection unit;
A display unit for displaying biological information of a subject who is to be displayed and recorded among the plurality of subjects;
A recording unit for recording the displayed biological information;
A storage unit that stores biological information of another subject during display of the biological information of the subject subjected to display recording;
When the subject to be displayed and recorded is switched to the other subject, the display unit displays the biological information of the other subject stored in the storage unit before switching as the stored biological information. A control unit,
Biometric information measuring device having. The measurement unit simultaneously measures two or more types of biological information for at least one subject connected to the connection unit,
The display unit displays biological information to be displayed and recorded among the two or more types of biological information,
The storage unit stores other types of biological information while displaying the biological information to be displayed and recorded.
The control unit displays the other type of biological information stored in the storage unit before the switching as the stored biological information when the biological information to be displayed and recorded is switched to the other type of biological information. Display in the department,
The biological information measuring device according to claim 1. The control unit switches the display recording target on the display unit based on a user's operation instruction.
The biological information measuring device according to claim 1 or 2. The control unit performs control to display the biological information measured after the switching on the display unit together with the stored biological information after switching the display recording target.
The biological information measuring device according to any one of claims 1 to 3. The control unit causes the waveform before switching based on the stored biological information to be displayed at the time of switching before switching, and the waveform after switching based on biological information measured after switching is temporally continued to the waveform before switching Control the display unit to sweep
The biological information measuring device according to claim 4. A measurement failure detection unit configured to detect a measurement failure in the biological information;
The control unit performs control to output an alarm when the display recording target in which the measurement failure is detected is displayed on the display unit when the measurement failure is detected by the measurement failure detection unit.
The biological information measuring device according to any one of claims 1 to 5.