TWI767943B - Living body information display device, living body information display control device and living body information processing device - Google Patents

Abstract

[Problem] To provide a biological information display device that simultaneously monitors a plurality of trend graphs in one graph display area. [Solution] A biological information display device is provided with a line generation unit (201), a numerical axis scale fitting unit (202), a fitting trend graph display unit (205), and a touch panel display (11). A line generating unit (201) generates an upper determination line or a lower determination line extending toward the time axis direction of the trend graph arranged in the page screen. The numerical axis scale fitting unit (202) is adapted to make each of the upper threshold value and the lower threshold value set in the plurality of living body information coincide with the upper judgment line and the lower judgment line, To fit the width of the scale width of each living body information value axis in the trend chart. A fitting trend graph display unit (205) is a touch panel display (11) that displays a page screen on which the upper judgment line or the lower judgment line and the trend graph are arranged.

Description

Living body information display device, living body information display control device and living body information processing device

[0001] The present invention relates to a living body information display device for monitoring vital signs, a living body information display control device for controlling the display thereof, and a living body information processing device for generating the displayed display data.

[0002] On the living body information screen, various information such as electrocardiogram, heart rate, SPO2, blood pressure, respiration, body temperature, etc. are displayed, and the doctor observes the display to grasp the state of the patient. As the information displayed on the living body information screen, for example, there is a trend graph related to the living body information. The trend graph is arranged in a graph display area in which the horizontal axis is formed by the time axis and the vertical axis is formed by the axis representing the size of the living body information. As a device for displaying a trend graph, for example, a biological information monitoring device is proposed, which displays a trend graph in a graph display area in which an upper judgment representing an upper limit value of biological information in the past is arranged. line, and a lower determination line representing the lower limit value of the past living body information (for example, refer to Patent Document 1). In the above-mentioned biological information monitoring apparatus, if the trend graph exceeds the upper judgment line or the lower judgment line, the part is displayed as an alarm generation section with a different color from other parts. [Prior Art Document] [Patent Document] [0003] [Patent Document 1] Japanese Patent Laid-Open No. 2011-147493

[Problems to be Solved by the Invention] [0004] In the above-mentioned biological information monitoring device, there is one trend graph arranged in one graph display area. Therefore, when plural trend graphs are simultaneously displayed on the display screen of the biological information monitoring apparatus, it is necessary to prepare plural graph display areas corresponding to each trend graph. When a plurality of graph display areas are prepared, the unit area of one graph display area that can be acquired on the display screen of the biological information monitoring device becomes smaller. If the display area of each trend graph is small, the visibility will be deteriorated, and the physician will not be able to fully grasp the state of the patient. [0005] In addition, it is necessary to check the trend graph for each of the living body information and monitor whether there is any abnormality in the respective values, and the burden on the doctor is great. The present invention, in view of such a situation, provides a living body information display device that simultaneously monitors a plurality of trend graphs in one graph display area, and a living body information display control that controls the display thereof. A device and a living body information processing device that generates the display data to be displayed are intended. [MEANS TO SOLVE THE PROBLEM] [0007] The present invention has been made in order to solve the above-mentioned problems, and the biological information display device of the present invention is characterized by comprising: a display; and a trend graph page screen generation unit, The trend chart page screen is generated. The trend chart page screen is a page screen with a trend chart area. The trend chart area is configured with a trend chart. The trend chart has a value axis related to living body information. a sum time axis; a sum line generating unit for generating an upper determination line or a lower determination line extending toward the time axis direction of the trend graph arranged in the trend graph area; and a numerical axis scale fitting unit for Each of the plurality of pieces of the biological body information is combined in such a manner that the upper threshold value and the lower threshold value set in each of the plurality of types of biological body information and the above-mentioned upper-side judgment line and the above-mentioned lower-side judgment line coincide with each other. Fitting the scale of the above-mentioned numerical axis; and the fitting trend chart generating section uses the trend chart of the above-mentioned living body information corresponding to the plural numbers corresponding to the scale of the above-mentioned numerical axis to be fitted as the fitting trend chart and a fitting trend graph display unit for causing the display to display the trend graph page screen in which the upper judgment line or the lower judgment line and the plurality of fitting trend graphs are arranged in the trend graph area . Also, in the living body information display device of the present invention, the system is provided with the following characteristics: that is, the above-mentioned numerical axis scale fitting part is adjusted for the width of the scale width of the above-mentioned numerical axis; or It is to adjust the value of the origin position of the above-mentioned numerical axis, and fit the scale of the above-mentioned numerical axis. In addition, in the living body information display device of the present invention, the following feature is provided: that is, the above-mentioned numerical axis scale fitting part is based on the above-mentioned upper threshold value of each of the plurality of types of living body information. Within the range between the above-mentioned lower threshold value, adjust the width of the scale width of the above-mentioned numerical axis. In addition, in the living body information display device of the present invention, the system is provided with the following characteristics: that is, the above-mentioned line generation part is to generate a plurality of the above-mentioned upper-side judgment lines and the above-mentioned lower-side judgment lines, and the above-mentioned numerical value axis scale. The fitting unit is configured to match each of the upper determination threshold value and the lower determination threshold value of the plural numbers set in the living body information corresponding to the trend graph with the upper determination line and the lower determination threshold value of the plurality of numbers. The way in which the lines coincide with each other is fitted to the scale of the respective above-mentioned numerical axes of the above-mentioned plurality of above-mentioned living body information. In addition, in the living body information display device of the present invention, the following feature is provided: that is, it is further provided with: a line position changing unit that accepts the above-mentioned upper determination line in the above-mentioned trend graph area And the operation of changing the position of the above-mentioned lower-side judgment line, and changing the positions of the above-mentioned upper-side judgment line and the above-mentioned lower-side judgment line in the above-mentioned trend graph area. In addition, in the living body information display device of the present invention, the system is provided with the following characteristics: that is, the system is provided with: a reporting unit, when the above-mentioned fitting trend graph exceeds the above-mentioned upper side judgment line or the above-mentioned lower side. When the condition of the line is judged, it will be reported to the outside. In addition, in the living body information display device of the present invention, the system is provided with the following characteristics: that is, the system is provided with: a numerical axis scale adjustment part, which accepts for the above-mentioned numerical value axis in the above-mentioned trend graph area. The width of the scale width is adjusted, and in a manner corresponding to the adjustment operation, the width of the scale width of the above-mentioned numerical axis is changed. In addition, the living body information display device of the present invention is a living body information display control device for controlling the display of the display, and it is characterized in that it is provided with: a trend graph page screen generation unit that generates a trend graph page screen. , the trend chart page picture is a page picture with a trend chart area, the trend chart area is configured with a trend chart, and the trend chart has a numerical axis and a time axis related to living body information; and line a generating unit for generating an upper judgment line or a lower judgment line extending in the direction of the time axis of the trend graph arranged in the trend graph area; The upper-side threshold value and the lower-side threshold value set in each of the information are matched with the above-mentioned upper-side judgment line and the above-mentioned lower-side judgment line. a scale for fitting; and a fitting trend graph generating unit for generating, as a fitting trend graph, a trend graph corresponding to the plurality of the above-mentioned living body information corresponding to the scales of the above-mentioned numerical axis to be fitted; and The fitting trend graph display unit causes the display to display the trend graph page screen in which the upper judgment line or the lower judgment line and the plurality of fitting trend graphs are arranged in the trend graph area. In addition, the living body information processing device of the present invention is a living body information processing device that generates display data for displaying on a display, and is characterized in that it is provided with: a trend graph page screen generating unit that generates a trend graph page screen , the trend chart page picture is a page picture with a trend chart area, the trend chart area is configured with a trend chart, and the trend chart has a numerical axis and a time axis related to living body information; and line a generating unit for generating an upper judgment line or a lower judgment line extending in the direction of the time axis of the trend graph arranged in the trend graph area; The upper-side threshold value and the lower-side threshold value set in each of the information are matched with the above-mentioned upper-side judgment line and the above-mentioned lower-side judgment line. scales are fitted; and a fitting trend graph generating section generates, as a fitting trend graph, a trend graph corresponding to a plurality of the above-mentioned living body information corresponding to the scales of the above-mentioned numerical axis to be fitted; and displaying The data generating unit generates the display data of the trend graph page screen in which the upper judgment line or the lower judgment line and the plurality of fitting trend graphs are arranged in the trend graph area. [Effect of the Invention] [0016] According to the living body information display device and the living body information display control device of the present invention, it is possible to monitor the abnormality of a plurality of trend graphs simultaneously in one graph display area. effect. Furthermore, according to the living body information processing apparatus of the present invention, it is possible to exert an excellent effect of being able to generate display data related to the above-mentioned display.

Embodiments of the present invention are described below with reference to the attached drawings. In addition, in the following, as the biological information display device in the embodiment of the present invention, a biological information screen is taken as an example for description, but other devices for displaying biological information are also included in the present invention. within the scope of the invention. [0019] <1. Overall Outline of Living Body Information Screen> Referring to FIG. 1, the living body information screen 1 in the embodiment of the present invention will be described. The living body information screen 1, as shown in FIG. 1(a), is mainly composed of a tablet-type computer with a touch panel display. The living body information screen 1 , as shown in FIG. 1( b ), is mounted on and supported by the support table 3 . [0020] The detection device interface 2, for example, is connected to the living body information detection device through the connection joint portion 2a. The living body information detection device detects the state of the living body related to the subject, and outputs the living body signal corresponding to the state. Examples of living body information detection devices include electrocardiographic electrodes for detecting the active potential of the heart, blood pressure detection devices for detecting blood pressure, thermometers for detecting body temperature, and A SpO2 detection device (eg, a pulse oximeter) that detects SpO2, and the like. [0021] At each of the living body information screen 1 and the detection device interface 2, for example, USB (Universal Serial Bus) terminals 1b and 2b are provided, and are connected via USB cables. In addition, the connection between the detection device interface 2 and the living body information screen 1 can also be used as a serial bus method such as IEEE1394, SCSI (SCSI ( A wired communication connection such as a parallel bus system such as Small Computer System Interface), or a wireless communication connection using RFID (Radio Frequency Identifier), NFC (Near Field Communication), and Bluetooth (registered trademark). Also, the detection device interface 2, for example, as shown in FIG. [0022] Next, referring to FIG. 2, the configuration of the living body information screen 1 and the detection device interface 2 will be described. The living body information screen 1 includes, for example, a control unit 10 , a touch panel display 11 , a connection connector 12 , an antenna 13 , a speaker 14 , and a battery 15 . The control unit 10 is each controller in the living body information screen 1 . The control unit 10, for example, is provided with a CPU (Central Processing Unit) 101, a RAM (Random Access Memory) 102, a ROM (Read Only Memory) 103, a storage medium 104, a wireless communication interface 105, a wired communication interface 106, The operation input interface 107 , the display control unit 108 , the sound control unit 109 , and the light emission control unit 110 are operated. In addition, in FIG. 2, the interface is marked as I/F. [0024] The CPU 101 is a processor in charge of the entire body information screen 1, and uses the RAM 102 as a work area. In the ROM 103, for example, a program for activating the living body information screen 1 or other basic programs executed by the CPU 101 are written. The storage medium 104 is constituted by, for example, a solid state drive (SSD) or a flash memory. In the storage medium 104, for example, an operating system (OS) for realizing the basic operation of the living body information screen 1 and a program depending on the operating system are written. In addition, the storage medium 104 functions as a storage place for the supplied data. The wireless communication interface 105, for example, is used to perform conversion processing (modulation, demodulation), etc., of data sent and received by wireless communication between itself and an external device, and is connected to the antenna 13. connect. The antenna 13 receives the data sent from the outside and sends it to the wireless communication interface 105 . In addition, the antenna 13 transmits the data supplied from the wireless communication interface 105 to the outside. As the wireless communication interface 105 , for example, RFID, NFC, Bluetooth (registered trademark) or the like is used as an example. [0026] The wired communication interface 106, for example, is used to perform conversion processing and the like of data sent and received between itself and an external device through wired communication, and is connected to the connection connector 12. As the wired communication interface 106, for example, one using serial bus specifications such as USB can be cited, but it is not limited to this. The other wired communication interface 106 may be any interface using a serial bus method such as IEEE1394 or a parallel bus method such as SCSI. [0027] The operation input interface 107 is to transmit the operation from the outside to the CPU 101. The display control unit 108 is a display device that causes the touch panel display 11 to perform a display in accordance with a command from the CPU 101 . The sound control unit 109 is a device that causes the speaker 14 to output sound in accordance with a command from the CPU 101 . The light-emitting control unit 110 is one that turns on and off the light-emitting units 16 and 17 in accordance with a command from the CPU 101 . The light emission control unit 110, for example, receives a report signal related to the living body information from the CPU 101, and causes both or one of the light emission units 16 and 17 to emit light. In addition, the light emission control unit 110, for example, receives a report release signal related to the living body information from the CPU 101, and turns off both or one of the light emission units 16 and 17, or in a state different from the above. to shine. [0028] The touch panel display 11 is the receiver of display and operation input. The above-mentioned acceptance of the operation input is realized by directly touching the display surface of the touch panel display 11 with a finger or the like. Examples of touch operations include gesture operations such as tap, double tap, scroll, pinch in, pinch out, and slide. Contains all other gesture operations. If a touch operation is performed, the operation input interface 107 transmits an operation signal corresponding to the touch operation to the CPU 101 . The battery 15 is a rechargeable storage battery, and supplies power to each part in the living body information screen 1 . In addition, it is desirable that the battery 15 be connected to an external power source so as to be rechargeable. [0029] The detection device interface 2 is connected with the living body information screen 1 via the connecting line 2c. In addition, the detection device interface 2, for example, is provided with connectors adapted to the respective specifications of the plurality of living body information detection devices, and is connected with each of the living body information detection devices. On the other hand, the detection device interface 2 performs specific processing for the living body signal supplied from each of the plurality of living body information detection devices via the connecting line 2c, so that the living body information screen 1 can process the the role of the interface. Specifically, the detection device interface 2, for example, is based on the living body signal supplied from each of the plurality of living body information detection devices via the connecting line 2c to generate the information that can be processed by the living body information screen 1. The living body information is output to the living body information screen 1 . That is, the detection device interface 2 functions together with the living body information detection device as a measuring device for living body information. In addition, as the above-mentioned biological information that can be processed by the biological information screen 1, for example, an electrocardiographic signal corresponding to the active potential of the heart, heart rate, blood oxygen concentration, blood pressure, etc. can be listed as an example, However, the system is not limited to this, and other living body information is also included. The detection device interface 2 is connected to the living body information screen 1 through the wired communication connection mode or the wireless communication connection mode described above. The living body information detection device is as described above, for example, the electrocardiographic electrode for detecting the active potential of the heart, the blood pressure detecting device for detecting the blood pressure, and the A thermometer for detecting body temperature, a SpO2 detecting device for detecting SpO2, etc. In addition, the above living body information detection device is only one example. In the present invention, the living body information detection device can also detect other living body signals from the subject. [0031] <2. Device functional block> Next, with reference to FIG. 3 , the functional configuration of the living body information screen 1 will be described. The living body information screen 1 has a function of simultaneously displaying a plurality of trend graphs in one graph display area. The living body information screen 1 having the above-mentioned general functions includes a trend graph page screen generating unit 200, a sum line generating unit 201, a numerical axis scale fitting unit 202, a fitting trend graph generating unit 203, and a fitting unit 203. Trend graph holding unit 204, Fitted trend graph display unit 205, Report unit 206, Line number setting unit 207, Line position changing unit 208, Trend graph selection unit 209, Time axis scale adjustment unit 210, and The numerical axis scale adjustment unit 211 , the threshold value setting unit 212 , and the touch panel display 11 . [0032] The trend chart page screen generation unit 200 is for generating the trend chart page screen. The so-called trend graph page screen is a page screen with a trend graph area. The trend chart area is a specific area for displaying trend charts related to the living information in the trend chart page screen. As the trend graph area, for example, as an example, the trend graph area 301 in the trend graph page screen 300 shown in FIG. 4 can be listed. [0033] The horizontal axis in the trend chart area is the time axis, and the vertical axis in the trend chart area is the numerical axis representing the values related to the living body information (hereinafter, referred to as the living body information numerical axis). A value related to living body information, for example, if it is body temperature, it is temperature, if it is heartbeat, it is the number of times the heart beats in a certain period of time, and if it is SpO2 (transcutaneous arterial oxygen saturation), it is In order to represent the degree of binding of hemoglobin in arterial blood to oxygen in percentage, if it is NIBP (non-invasive blood pressure), it is the blood pressure value. Furthermore, in the trend graph page screen, in addition to the trend graph area, for example, digitized biometric information, electrocardiogram waveform, pulse wave, and other biometric information to be measured in real time may be added. Various types of living body information for waveform displayers, etc. As the trend graph page screen, for example, the trend graph page screen 300 shown in FIG. 4 can be listed as one example. The trend graph page screen generation unit 200 is mainly realized by causing the CPU 101 to execute a program stored in the ROM 103 or the storage medium 104 or the like. [0035] The line generating unit 201 generates an upper determination line or a lower determination line extending toward the time axis direction of the trend graph arranged in the trend graph area. The upper judgment line and the lower judgment line are lines extending parallel to the time axis in the trend graph area. The upper determination line is arranged above the biological information numerical value axis direction than the lower determination line. The upper side judgment line and the lower side judgment line may each be plural. As an example of the upper determination line and the lower determination line, the upper determination line 310 and the lower determination line 311 shown in FIG. 5 can be cited. [0036] The upper judgment line or the lower judgment line is added to correspond to the specific value of the biological information numerical axis in the trend graph, and is set on the specific value of the biological information numerical axis. Therefore, in each part of the functional block to be described later, if the width of the scale width of the numerical axis of the living body information or the value of the origin position of the numerical axis of the living body information is changed, the upper judgment line or the lower judgment line, There are cases where the position in the trend graph area is changed, however, there is no change regarding the specific value set on the value axis of the living body information. The numerical axis scale fitting unit 202 is such that each of the upper threshold value and the lower threshold value set in each of the plurality of living body information and the upper judgment line and the lower judgment line are mutually matched. A consistent way to fit the scale of the in vivo information value axis in the trend chart. As the process of fitting the scale of the above-mentioned value axis of living body information, for example, the processing of adjusting the width of the scale width of the numerical axis of living body information and the process of adjusting the value of the origin position of the numerical axis of living body information can be listed. Adjustment processing, etc. Also, the process of adjusting the width of the scale width of the numerical axis of the living body information is not limited to the process of expanding or narrowing the scale width by a certain proportion as a whole, but also It includes a form of partial emphasis (exaggeration) display, or a form of enlargement or reduction, which generally expands the scale width of a certain part and narrows the scale width of other parts. Furthermore, in the process of adjusting the width of the scale width of the value axis of the living body information, the process of adjusting the width of the scale width of the value axis of the living body information also includes the processing of adjusting the width of the scale width of the numerical axis of the living body information, and also performing the processing of adjusting the width of the scale width of the numerical axis of the living body information. The value of the origin position is the complex processing of the adjustment processing. That is, the numerical axis scale fitting unit 202 is for expanding or reducing all the scale widths or a part of the scale widths, and changing the positions of all or a part of the scales. [0039] In addition, the upper threshold value and the lower threshold value set in each living body information can be set in plural by changing the reference by the threshold value setting unit 212 described later, for example. For example, the upper threshold value and the lower threshold value of the range in which the state of health is good, the upper threshold value and the lower threshold value of the range in which the state of health may become dangerous, etc. The definition of the upper and lower threshold values of the set complex number. In addition, the reference|standard of the plural number of the upper side threshold value and the lower side threshold value is not limited to the said reference|standard, and another reference|standard may exist further. [0040] The line generation unit 201 can generate a plurality of upper determination lines and lower determination lines, respectively, as described above. When the upper threshold value and the lower threshold value to be set in the living body information are plural, the line generation unit 201 generates an upper determination line corresponding to the complex upper threshold value of the complex number, And generate the lower side decision line of the complex number corresponding to the lower side threshold value of the complex number. As an example of generating a plurality of upper determination lines and lower determination lines, for example, upper determination lines 310 and 312 and lower determination lines 311 and 313 shown in FIG. 7 can be cited as an example. For example, in the trend graph area, a first upper determination line, a second upper determination line, a second lower determination line, and a first lower determination line are sequentially generated from the upper side toward the lower side in the direction of the biological information numerical value axis. Consider the case of the side judgment line. In this case, for example, the first upper judgment line corresponds to the "dangerous upper threshold value", the second upper judgment line corresponds to the "normal upper threshold value", and the second lower judgment line corresponds to " "Normal lower threshold value", the first lower determination line corresponds to "Dangerous lower threshold value", [0042] Above, although two upper threshold values and lower threshold values are respectively set However, it is not limited to this. When three or more upper threshold values and lower threshold values are respectively set, or the upper threshold value and the lower threshold value are set The case where different numbers are provided (for example, two upper threshold values and one lower threshold value are provided) are also included in the scope of the present invention. [0043] The fitting trend graph generating unit 203 generates a trend graph corresponding to the scale of the numerical axis of the living body information fitted in the numerical axis scale fitting unit 202. The trend graph generated by the fitting trend graph generating unit 203 is referred to as a fitting trend graph. In addition, the line generation unit 201, the numerical axis scale fitting unit 202, and the fitting trend graph generation unit 203 are mainly realized by causing the CPU 101 to execute a program stored in the ROM 103, the storage medium 104, or the like. . [0045] The fitting trend graph holding unit 204 is a trend graph generated by the fitting trend graph generating unit 203, for example, which is associated with the measurement date and time and holds it. The fitting trend graph holding unit 204, for example, processes the fitting trend graph and the measurement date and time by causing the CPU 101 to follow a program stored in the ROM 103 or the storage medium 104, and stores the results in the storage medium 104, to realize it. [0046] The fitting trend graph display unit 205 causes the touch panel display 11 to display the trend graph page screen in which the upper judgment line or the lower judgment line and the fitting trend graph are arranged in the trend graph area. The fitting trend graph display unit 205 can also obtain the fitting trend graph directly from the fitting trend graph generating unit 203 , for example. In addition, the fitting trend graph display unit 205 may acquire the fitting trend graph from, for example, the fitting trend graph holding unit 204 . In any case, the fitting trend graph display unit 205 acquires the biological information waveform generated by the fitting trend graph generating unit 203 . The fitting trend graph display unit 205 is mainly realized by causing the CPU 101 to execute a program stored in the storage medium 104 or the like and causing the display control unit 108 to execute the command issued as a result. [0047] The reporting unit 206 is a person who reports to the outside when the fitting trend graph exceeds the upper judgment line or the lower judgment line. Various aspects are exemplified as the aspect of reporting to the outside by the reporting unit 206 . When the fitting trend graph exceeds the upper judgment line or the lower judgment line, the reporting unit 206 may cause the touch panel display 11 to display a warning, for example. In addition, when the fitting trend graph exceeds the upper judgment line or the lower judgment line, the reporting unit 206 may emit a sound to the outside through, for example, the sound control unit 109 and the speaker 14 . In addition, when the fitting trend graph exceeds the upper judgment line or the lower judgment line, the reporting unit 206 may cause the light emitting unit 16 or the light emitting unit 17 to emit light, for example, through the light emission control unit 110 . The light-emitting aspect of the light-emitting portion 16 or the light-emitting portion 17 includes various aspects such as double lighting, double lighting, single lighting, and single lighting. The reporting unit 206 is mainly realized by causing the CPU 101 to execute a program stored in the storage medium 104 and the like, and causing the display control unit 108 , the sound control unit 109 , the light emission control unit 110 and the like to execute commands issued as a result thereof. Of. The number of lines setting unit 207 is for accepting the operation of setting the number of upper judgment lines or lower judgment lines arranged in the trend graph area, and for the upper side judgment lines or lower side judgment lines arranged in the trend graph area. The number of judgment lines is set by the setter. The line generation unit 201 generates the number of upper determination lines or lower determination lines in the trend graph area corresponding to the number of upper determination lines or lower determination lines set by the line number setting unit 207 . For example, by inputting the number of upper judgment lines or lower judgment lines in a page screen including a section for inputting the number of upper judgment lines or lower judgment lines, the line number setting unit 207 accepts the number of lines placed in the trend. The operation of setting the number of upper or lower judgment lines in the chart area. The line position changing unit 208 accepts an operation for changing the position of the upper judgment line or the lower judgment line in the trend graph area and determines the position of the upper judgment line or the lower judgment line in the trend graph area. changer. [0050] In addition, the upper judgment line and the lower judgment line are used as a common line representing the upper threshold value and the lower threshold value respectively set in the plurality of living body information. Therefore, if the position of the upper determination line and the lower determination line in the trend graph area is changed by the line position changing unit 208, the upper threshold value and the lower threshold are respectively set in each living body information. The position of the limit value in the trend graph area is also changed in parallel. In connection with this, there may be cases where it is necessary to change the scale of the scale of the value axis of the living body information. Adjust the width of the scale width of the numerical axis and adjust the value of the origin position of the living body information numerical axis to fit the scale of the living body information numerical axis. The trend graph selection unit 209 accepts an operation for selecting a plurality of trend graphs arranged in the trend graph area among the trend graphs related to the plurality of living body information, and selects the operation corresponding to the selection. Multiple trend charts are placed in the trend chart area. The fitting trend graph display unit 205 displays the plurality of trend graphs selected by the trend graph selection unit 209 in the trend graph area. [0052] The time axis scale adjustment unit 210 accepts an operation for adjusting the scale of the time axis in the trend graph area, and adjusts the scale of the time axis in a manner corresponding to the operation. The time axis scale adjustment unit 210, for example, accepts an operation to adjust the width of the scale width of the time axis in the trend graph area or to adjust the value of the origin position of the time axis in the trend graph area. operation, and adjust the scale of the time axis in a manner corresponding to the operation. The numerical axis scale adjustment part 211 is to accept the operation of adjusting the width of the scale width of the numerical axis of the living body information in the trend chart area, and in a manner corresponding to the operation, and for the living body information The width of the scale width of the value axis is changed. [0054] The threshold value setting unit 212 accepts input operations for setting the upper threshold value and the lower threshold value respectively set in the plurality of biological information and performs the setting. Based on the upper threshold value and the lower threshold value in the plurality of living body information set by the threshold value setting unit 212, the numerical axis scale fitting unit 202 matches the living body information numerical axis in the trend graph Scale for fitting. [0055] In addition, in the initial state, a specific predetermined value may be set as the upper threshold value and the lower threshold value of a plurality of biological information. In the state where the setting by the threshold value setting unit 212 has not been performed, the specific predetermined value in the above-mentioned initial state functions as the upper threshold value and the lower threshold value of the plurality of living body information. Each part of the block is processed. For example, when the upper determination line or the lower determination line is generated, the line generation unit 201 generates the biological information value axis corresponding to the upper threshold value and the lower threshold value of the biological information in the initial state at the location. In addition, if the upper threshold value and the lower threshold value of the biological information are separately set by the threshold value setting unit 212, the line generating unit 201 is at the position of the corresponding biological information numerical axis, An upper judgment line or a lower judgment line is generated. The line number setting unit 207, the line position changing unit 208, the trend graph selection unit 209, the time axis scale adjustment unit 210, the value axis scale adjustment unit 211, and the threshold value setting unit 212 are, for example, by touch The panel display 11 and the operation input interface 107 receive an operation, and are mainly realized by causing the CPU 101 to execute a process corresponding to the operation based on a program stored in the ROM 103 or the storage medium 104 or the like. [0057] <3. Trend graph page screen> Referring to FIG. 4 , an example of the trend graph page screen 300 will be described. The trend graph page screen 300 , as shown in FIG. 4 , has a trend graph area 301 . In addition, the trend graph page screen 300 includes an electrocardiogram waveform display area 302 and a heart rate display area 303, and menu keys A to E arranged directly below these. In addition, the trend graph page screen 300 only needs to have at least the trend graph area 301, and other information about the living body to be arranged is not particularly limited, and any information may be used. [0058] The length in the width direction of the trend graph area 301, as shown in FIG. 4, is ideally approximately the same as the length in the width direction of the trend graph page screen 300. Also, the length of the trend graph area 301 in the up-down direction is, for example, as shown in FIG. This is because, from the viewpoint of the visibility of the trend graph, the larger the proportion occupied by the trend graph area 301 in the trend graph page screen 300, the better. [0059] <4. Trend graph area> An example of the trend graph area 301 will be described with reference to FIGS. 5 and 6 . In the trend graph area 301, as shown in FIG. 5, the horizontal axis is set as the time axis 304, and the vertical axis is set as the living body information value axis 305 representing the magnitude of the numerical value related to the living body information. In the trend graph area 301, as shown in FIG. 5, a trend graph 320 related to non-invasive blood pressure (NIBP) and a trend graph 321 related to percutaneous arterial oxygen saturation (SpO2) are arranged , a trend graph 322 related to heart rate (HR), and a trend graph 323 related to body temperature (TEMP). In addition, the trend graph arranged in the trend graph area 301 is not limited to the above configuration, and may include trend graphs related to other living body information. In addition, the trend graphs arranged in the trend graph area 301 only need to be plural, and the types of the biological information are not limited. In addition, the trend graph arranged in the trend graph area 301 can be selected. [0060] The upper determination line 310 and the lower determination line 311, as shown in FIG. 5 , extend parallel to the time axis 304 in the trend chart area 301 toward the time axis 304 of the trend chart. In addition, it is used in such a way that each of the upper threshold value and the lower threshold value and the upper determination line 310 and the lower determination line 311 of the above-mentioned plural pieces of living body information are matched with each other. The scale widths at the biological information numerical axes 305 a to 305 d of each trend graph are fitted by the numerical axis scale fitting unit 202 . In addition, the area between the upper determination line 310 and the lower determination line 311 is preferably, for example, a highlight display with a color display or the like added thereto. This is because the part of the trend graph that exceeds the upper determination line 310 and the lower determination line 311 can be easily grasped at a glance. For example, at the value axis 305a of the living body information of the trend graph 320 related to the non-invasive blood pressure (NIBP), as shown in FIG. The length, the length of the section in the range of 100 to 200 (mmHg), and the length of the section in the range of 200 to 300 (mmHg) are different from each other. This is performed by the numerical axis scale fitting unit 202 . That is, for example, if the scale width of the interval in the range of 100 to 200 (mmHg) is used as a reference, the value of 0 to 100 ( The width of the scale width in the interval of the range of mmHg) is set to be larger (expanded) than the reference, and the scale width in the interval of the range of 200 to 300 (mmHg) of the value of the value axis 305a of the living body information is set. is set to be smaller (reduced) than the reference. Then, the non-invasive blood pressure first upper limit value 307a and the non-invasive blood pressure first lower limit value 307b are set by fitting the scale of the biological information numerical axis by the numerical axis scale fitting unit 202 The upper determination line 310 and the lower determination line 311 agree with each other. Thereby, all numerical values can be displayed within a limited range in the vertical direction. Also, for example, the in vivo information value axis 305b of the trend graph 321 related to the percutaneous arterial oxygen saturation (SpO2) is as shown in FIG. 6(b), and the origin position is not " 0", but becomes "70". In addition, the length of the interval in the range of 70 to 80 (%) is the same as the range of 80 to 90 (%) at the value axis 305b of the living body information in the trend graph of the percutaneous arterial oxygen saturation (SpO2). The length of the interval is slightly the same. On the other hand, the length of the interval in the range of 90 to 100 (%) is the same as that of 70 to 80 (%) at the value axis 305b of the living body information in the trend graph of the percutaneous arterial oxygen saturation (SpO2). The length of the interval in the range is different from the length of the interval in the range of 80 to 90 (%). That is, for example, if the scale width of the interval in the range of 70 to 80 (%) is used as a reference, 80 to 90 (%) of the biological information numerical axis 305b is adjusted by the numerical axis scale fitting unit 202. ), the width of the scale width in the interval of the range is set to be the same as the reference, and the width of the scale width in the interval of the range of 90 to 100 (%) of the living body information numerical axis 305b is set to be higher than the reference. bigger. After that, by fitting the scale of the biological information numerical axis by the numerical axis scale fitting unit 202, the SpO2 first upper limit value 307c and the SpO2 first lower limit value 307d are set to meet the upper determination line 310 and the lower determination line 311 coincide with each other. Thereby, all numerical values can be displayed within a limited range in the vertical direction. Also, for example, the biological information value axis 305c of the trend graph 322 related to the heart rate (HR), as shown in FIG. The living body information numerical axis 305a has substantially the same structure, and the above description of the living body information numerical axis 305a can be applied to the living body information numerical axis 305c. In addition, the trend graph 323 related to body temperature (TEMP), as shown in FIG. 5 , the origin position is not “0” but “34”, and the scale is in the range of 34°C to 41°C. The width system becomes slightly equal. Then, by fitting the scale of the living body information numerical axis by the numerical axis scale fitting unit 202, the first upper limit value of the heart rate, the first upper limit value of the body temperature, the first lower limit value of the heart rate, and the first upper limit value of the heart rate and the first 1 The lower limit value, as shown in FIG. 5 , is set so that the upper determination line 310 and the lower determination line 311 coincide with each other. Thereby, all numerical values can be displayed within a limited range in the vertical direction. As described above, each of the upper threshold value and the lower threshold value of the living body information is scaled by the numerical axis in such a way that the upper judgment line 310 and the lower judgment line 311 coincide with each other. The fitting unit 202 adjusts the width of the scale width of the living body information numerical axis 305 or adjusts the value of the origin position of the living body information numerical axis 305 to fit the scale of the living body information numerical axis 305 . [0065] Furthermore, in order to observe changes in the trend chart, it is ideal if the scale width of the time axis 304 can also be adjusted. In addition, regarding the width of the scale width of the time axis 304, it is ideal to be the same scale width as a whole, but it is not limited to this, and may be partially different. In addition, the value at the origin position of the time axis 304 is not particularly limited. In addition, in the trend graph area 301 in the trend graph page screen 300, for example, as shown in FIG. To perform a scrolling operation, the trend graph and the time display 304a arranged in the trend graph area 301 are scrolled and moved temporally to the left and right. <5. Plural Upper Judgment Line and Lower Judgment Line> Next, with reference to FIG. 7 , the case where the upper judgment line and the lower judgment line are plural will be described. The upper judgment line and the lower judgment line are the same as the above, and may be plural. For example, as shown in FIG. 7 , in addition to the upper determination line 310 and the lower determination line 311 , an upper determination line 312 and a lower determination line 313 may be arranged in the trend graph area. [0067] The upper determination line 312 extends parallel to the time axis 304 toward the direction of the time axis 304, and is disposed above the direction of the living body information value axis 305 compared to the upper determination line 310. The lower determination line 313 extends parallel to the time axis 304 toward the direction of the time axis 304 , and is disposed lower in the direction of the biological information value axis 305 than the lower determination line 311 . [0068] The upper threshold value and the lower threshold value set in each living body information can be changed and set in plural for the reference. For example, the upper threshold value and the lower threshold value of the range in which the state of health is good, the upper threshold value and the lower threshold value of the range in which the state of health may become dangerous, etc. The definition of the upper and lower threshold values of the set complex number. After that, by the threshold value setting unit 212, the upper threshold value and the lower threshold value in the range in which the health state is good are made to coincide with the upper determination line 310 and the lower determination line 311, respectively. . In addition, the upper threshold value and the lower threshold value in the range where the health state may become dangerous are made to coincide with the upper determination line 312 and the lower determination line 313 by the threshold value setting unit 212, respectively. In this case, when the upper threshold value and the lower threshold value of the plurality of living body information and the common line (upper determination lines 310 and 312 and lower determination lines 311 and 313 ) are made to coincide with each other, it is determined by This is achieved by mutually changing the scales of the regions A, B, and C by the numerical axis scale fitting unit 202 . Even if it is impossible to grasp the precise numerical values related to the living body information at a glance on the living body information screen 1, if it is set as the above configuration, it is possible to see the living body information screen 1 at a glance. The type of living body information is in the range where the health state is good or the range where the health state may become dangerous. [0071] The above description has been made with respect to the case where there are two upper determination lines and two lower determination lines, but the present invention is not limited to this. That is, each of the upper determination line and the lower determination line may be three or more. In addition, each of the upper determination line and the lower determination line only needs to be at least one. In addition, for example, the number of upper determination lines and lower determination lines may not be the same as in the case of two upper determination lines and one lower determination line. From the viewpoint of visibility, the upper and lower determination lines may be arranged so that the monitor of the living body information screen 1 can easily grasp the state of the patient at a glance. In addition, the area between the upper determination line 312 and the lower determination line 313 is displayed without being colored except for the area between the upper determination line 310 and the lower determination line 311 in FIG. 7 . , however, it is not limited to this, and an accent display such as a color display may be added. [0073] <6. Reporting aspect> Preferably, if the living body information exceeds a specific upper-side threshold value and a lower-side threshold value, the matter is reported to the outside. Referring to Fig. 8, a description will be given of the reporting aspect. As explained above, the upper determination line 310 represents the upper threshold value of the living body information within the range where the health state is good, and the lower determination line 311 represents the living body information within the range where the health state is good The lower threshold value of the in vivo information. If the living body information exceeds the upper threshold value and the lower threshold value, as shown in FIG. 8(a), the trend graph is displayed beyond the upper determination line 310 and the lower determination line 311. . In addition, the parts D, E, F, and G exceeding the trend in the trend graph are, for example, displayed by the reporting unit 206 as thick lines as shown in FIG. 8( a ). As described above, if the living body information exceeds the specific upper-side threshold value and lower-side threshold value, in order to report the matter to the outside, the corresponding part of the trend graph is configured to be easily visually recognized and highlighted, as the The form of reporting by the reporting section 206 is ideal. The highlight display is not limited to the bold line display, and may be other highlight display such as color display and light-off display. In addition, if the living body information exceeds the upper threshold value and the lower threshold value in the range where the health state of the living body information is good, it can also be configured as a borrowing method as shown in FIG. 8(a). The light-emitting unit 16 is caused to emit light as a warning lamp by the notification unit 206 . With such a configuration, even if the living body information screen 1 is observed from a distance, it is possible to detect that the living body information exceeds the upper limit value/lower limit value. Also, as shown in FIG. 8(b), in addition to the first upper determination line 310 and the first lower determination line 311, the trend graph area 301 is further arranged with more In the case of the second upper determination line 312 and the second lower determination line 313 on the upper and lower sides in the direction of the biological information numerical axis 305, it is preferable that the reporting unit 206 exceeds the upper determination line 312 and the lower determination line 313. The time zone of the trend graph section is highlighted with a color display or the like. Furthermore, as shown in FIG. 8( b ), the light-emitting portion 17 may be configured to emit light as a warning light in a color different from that of the light-emitting portion 16 by the notification portion 206 . With such a configuration, even if the living body information screen 1 is observed from a distance, it can be easily recognized that the living body information system does not only exceed the first upper judgment line 310 and the first lower judgment line 311 and also exceeds the second upper determination line 312 and the second lower determination line 313 . In addition, the light-emitting form of the light-emitting parts 16 and 17 is not limited to the above description, but also includes the use of the reporting part 206 to make both or one of the light-emitting parts 16 and 17 use the same color or the same color. Different colors come to light up, light up, etc. [0078] <7. Number of Lines Input> Next, with reference to FIGS. 9 and 10 , a description will be given of an operation when setting the number of upper determination lines and lower determination lines. For example, if the menu key C shown in FIG. 4 is selected by a touch operation (for example, a click operation such as a single click, a double click, etc.), as one of the specific examples of the number of lines setting section 207 is related to The input screen for setting the number of upper judgment lines and lower judgment lines is called and appears on the display screen. As a specific input screen, for example, as shown in FIG. 9( a ), there is a line number input window 340 that accepts input of the number of lines related to the upper judgment line and the lower judgment line. The number of lines input window 340, for example, may appear as a pop-up window as an example, but it is not limited to this, and may appear as a dedicated other page screen manner. [0079] The line number input window 340, for example, as shown in FIG. 9(a), is provided with an upper side determination line number input area 341 as an area where the number of upper determination lines can be input, and an upper side determination line number input area 341 as an input area The lower side determination line number area is the lower side determination line number input area 342 . In the upper determination line number input area 341 and the lower determination line number input area 342 , for example, each of the numbers "0 to 5" is provided with a number row arranged in sequence in a row. After that, by scrolling the number row, the number row moves in the direction of the arrow shown in FIG. 9( a ), and is displayed in the upper determination line number input area 341 and the lower determination line number input area 342 The number system changes. As described above, by changing the numbers displayed in the upper judgment line number input area 341 and the lower judgment line number input area 342 to desired numbers, the number of upper judgment lines and the number of lower judgment lines are determined by enter. [0080] After the desired number is displayed in the upper determination line number input area 341 and the lower determination line number input area 342, if the "OK" key 343 is selected by a touch operation, the transition is as follows: The line threshold input window 345 is shown in FIG. 9(b). On the other hand, if the "Cancel" key 344 is selected by a touch operation, the number of upper judgment lines and the number of lower judgment lines will not be changed, and it will return to before the menu key C was selected. status. [0081] The line threshold value input window 345 is one specific example of the threshold value setting unit 212. In the online threshold value input window 345, the threshold value of each living body information corresponding to each of the upper judgment line and the lower judgment line set in the online quantity input window 340 is input. For example, in the above case, as one example, consider the following case: that is, in the line number input window 340, two upper limit determination lines are set, and two lower limit determination lines are set , however, for the two upper limit judgment lines, those corresponding to the "normal upper threshold value" (the first upper judgment line) and the "dangerous upper threshold value" (the second upper judgment line) are input, respectively. For each of the lower limit judgment lines, those corresponding to the "normal lower threshold value" (first lower judgment line) and the "dangerous lower threshold value" (second lower judgment line) are respectively input. [0082] In addition, "normal upper threshold value" and "normal lower threshold value" correspond to the upper threshold value and the lower threshold value of the living body information in the normal state, respectively. In addition, the "dangerous upper threshold value" and the "dangerous lower threshold value" correspond to the upper threshold value and the lower threshold value of the living body information that exceeds the normal state and becomes a dangerous state, respectively. In the above-mentioned general case, in the line threshold value input window 345, there are two chances of inputting biological information for the upper limit determination line, and there are two opportunities for inputting biological information for the lower limit determination line. opportunity to enter. For example, as shown in FIG. 9( a ), initially, in the line threshold value input window 345, a line threshold value input area 348a to which a title “first upper judgment line threshold value” is added is displayed is displayed . "The first upper judgment line threshold value" is a term representing the first upper limit judgment line, and in the line threshold value input area 348a, the living body information corresponding to the first upper limit judgment line is input. Upper threshold value. In the line threshold value input area 348a, for example, "normal upper threshold value" is input. As an example, consider the following case: that is, the corresponding non-invasive blood pressure ( In the "normal upper threshold value" of NIBP), for example, "120" is input, and "120" corresponding to the percutaneous arterial oxygen saturation (SpO2) is added to the first upper limit judgment line. In the "normal upper threshold value", for example, "100" is input, and in the "normal upper threshold value" in which the heart rate (HR) corresponding to the first upper limit judgment line is added to each other, for example, "100" is input, and "37.5" is input in the "normal upper threshold value" to which the body temperature (TEMP) corresponding to the first upper limit determination line is added to each other. In addition, for the input performed by the threshold value input area 348a, for example, as one example, a series of actions are called on the display screen (not shown) of the touch panel display 11 by a specific method. However, it is not limited to this, and the input may be performed by other methods (eg, voice input). [0086] After the input is performed as described above, if the "OK" key 346 is selected, then, as shown in FIG. There is a line threshold value input area 348b with a title of "the first lower side judgment line threshold value". "The first lower limit judgment line threshold value" is a term representing the first lower limit judgment line, and the biological information corresponding to the first lower limit judgment line is input in the line threshold value input area 348b lower threshold value of . In the line threshold value input area 348b, for example, "normal lower threshold value" is input. As one example, consider the following case: that is, the non-invasive blood pressure ( In the "normal lower threshold value" of NIBP), for example, "80" is input, and the corresponding percutaneous arterial oxygen saturation (SpO2) is added to the first lower determination line. In the "normal lower threshold value", for example, "90" is input, and the "normal lower threshold value" corresponding to the heart rate (HR) is added to the first lower limit judgment line. In, for example, "60" is input, and "35.8" is input in "Lower normal threshold value" to which the body temperature (TEMP) corresponding to the first lower limit judgment line is added to each other. ". [0088] After inputting as described above, if the "OK" key 346 is selected, then, as shown in FIG. 10(b), in the line threshold value input window 345, a system display is added There is a line threshold value input area 348c titled "2nd upper judgment line threshold value". In the line threshold value input area 348c, for example, "dangerous upper side threshold value" is input. After inputting in the same manner as above, if the "OK" key 346 is selected, then (not shown) the line threshold value to which the title "Second lower judgment line threshold value" is added is displayed. input area. In this line threshold value input area, for example, "dangerous lower threshold value" is input. After inputting in the same manner as above, when the "OK" key 346 is selected, the two upper limit judgment lines and the two lower limit judgment lines are determined, and in the trend graph area 301, a display corresponding to the input is displayed. The value axis of the living body information corresponding to the information that has been adjusted by the width of the scale width, the corresponding trend graph, the first upper judgment line, the second upper judgment line, the first lower judgment line, The second lower judgment line. [0089] In addition, even when the number of the upper determination line and the lower determination line is different from the above description, the corresponding upper limit threshold is performed by the same aspect and processing procedure as the above description. Input of value, lower limit threshold value. After that, if the input is confirmed, the trend graph area 301 displays the value axis of the living body information in which the width of the scale width is adjusted according to the input information, and the corresponding trend. Graph, the first upper judgment line, the second upper judgment line, the first lower judgment line, and the second lower judgment line. <8. Line Position Setting> Next, with reference to FIGS. 11 and 12 , the change of the positions of the upper determination line 310 and the lower determination line 311 in the trend graph area 301 will be described. When the position of the upper determination line 310 is changed, for example, as shown in FIG. 11( a ), the upper determination line 310 is moved to the upper side of the living body information numerical value axis, for example, as shown in FIG. 11( a ). The upper side of the display 11 determines the display surface of the line 310 to perform a drag operation with a finger. This operation is accepted by the line position changing unit 208, and the upper determination line 310 is moved to a position corresponding to the operation. Thereby, the positions of the upper determination line 310 and the lower determination line 311 are changed. However, if the position of the upper determination line 310 is changed toward the upper side of the living body information value axis 305, then accompanying this, as shown in FIG. 11(b), the living body information numerical axis in each living body information The scale width of 305 is expanded by the numerical axis scale fitting part 202 . In this case, among the scale widths of the living body information numerical axis 305 in each living body information, at least the scale width of the region H between the upper judgment line 310 and the lower judgment line 311 may be expanded. On the other hand, if the position of the upper determination line 310 is changed toward the lower side of the living body information value axis 305, then the scale width of the living body information numerical axis 305 in each living body information is simulated by the numerical axis scale. The joint portion 202 is narrowed. In this case, among the scale widths of the living body information numerical axis 305 in each living body information, at least the scale width of the region H may be narrowed. However, if the scale width of the living body information value axis 305 is expanded or narrowed, the trend graph is updated to correspond to the scale width by fitting the trend graph generation unit 203 . In addition, the expanded aspect and the narrowed aspect of the scale width of the living body information value axis 305 of each living body information are not limited to expanding and shrinking all the scale widths in the same proportion. If it is narrower, depending on the distribution of the values of the living body information corresponding to the trend chart, there may be a part that greatly expands the scale width, a part that slightly expands the scale width, and a part that expands the scale width greatly. The part where the width is narrowed, and the part where the width of the scale is narrowed slightly. For example, as an example, in the range where the values of the biological information are concentrated, the width of the scale is greatly expanded, and in the range where the value of the biological information does not exist, the width of the scale is reduced. Narrow is small, [0093] Furthermore, when the position of the upper determination line and the lower determination line is changed, for example, as shown in FIG. This is achieved by performing a pinch-in operation or a pull-out operation with a finger on the display surface of the trend graph area 301 at the location. These operations are accepted by the line position changing unit 208, the upper determination line and the lower determination line are moved, and the arrangement is changed. Also, at the same time, by a pinch-in operation or a pull-out operation, the numerical axis scale fitting unit 202 and the fitting trend graph generating unit 203 function as shown in FIG. 12(b) , the trend graph and the living body information value axis 305 arranged in the trend graph area 301 are displayed in an enlarged or reduced manner. Also, at the same time, the time axis 304 can also be displayed in an enlarged or reduced manner. [0095] <9. Value axis scale adjustment> Next, with reference to FIG. 13 , the adjustment operation of the living body information value axis 305 in the trend graph in the trend graph area 301 will be described. In the case of changing the scale width at the value axis 305 of the living body information, for example, as shown in FIG. To achieve this, you can use your fingers to pinch-in or pull-out. These operations are accepted by the numerical axis scale adjustment unit 211, and the width of the scale width at the living body information numerical axis 305 is changed. That is, by the above-mentioned pinch-in operation or the pull-out operation, the numerical axis scale adjustment part 211 functions, as shown in FIG. 13(b), in response to the above-mentioned pinch-in operation or During the stroke of the pull-out operation, the living body information value axis 305 arranged in the trend graph area 301 is displayed in an enlarged or reduced manner. Also, at the same time, the position of the upper judgment line 310 , the position of the lower judgment line 311 , and the state of the trend graph are also updated according to the change of the scale width of the biological information numerical axis 305 . In the above living body information screen 1, the touch panel display 11 constitutes a display, and various operations are performed on the touch panel display 11 by touch operations, however, it is not Limited to this, other aspects of the operation can also be used. For example, the use of external input devices such as a mouse and a keyboard to implement the above-described operator is also included in the present invention. [0098] The living body information display control device that controls the display of the living body information displayed on the display of the living body information display device related to the living body information screen 1 and the like above is also included in the present invention. That is, the living body information display control device is connected to the display and controls the above-mentioned display on the display. [0099] Also, a biological information processing device that generates display data related to biological information displayed on the display of the biological information display device such as the biological information screen 1 is also included in the scope of the present invention. In this living body information processing device, it is only necessary to replace the fitting trend graph display unit in the living body information display device with a display data generating unit. In addition, the display data generating unit generates display data on the trend graph page screen in which the upper judgment line and the lower judgment line and plural fitting trend graphs are arranged in the trend graph area. In addition, the living body information display device, the living body information display control device, and the living body information processing device of the present invention are not limited to the above-mentioned embodiments, of course, within the scope of not departing from the gist of the present invention, Various changes can be applied.

[0101] 1‧‧‧ Living body information screen 11‧‧‧Touch panel display 200‧‧‧Trend chart page screen generating part 201‧‧‧Line generating part 202‧‧‧Numerical axis scale fitting part 203‧‧‧Simulation Combined trend graph generation unit 204‧‧‧fitted trend graph retention unit 205‧‧‧fitted trend graph display unit 206‧‧‧reporting unit 207‧‧‧line number setting unit 208‧‧‧line position changing unit 209‧‧ ‧Trend graph selection part 210‧‧‧Time axis scale adjustment part 211‧‧‧Numerical axis scale adjustment part 212‧‧‧Threshold value setting part 300‧‧‧Trend graph page screen 301‧‧‧Trend graph area 304‧‧ ‧Time axis 305‧‧‧Biological information value axis 310, 312‧‧‧Upper judgment line 311, 313‧‧‧Lower judgment line 320, 321, 322, 323‧‧‧Trend graph

[0017] [FIG. 1] is a perspective view of a living body information screen in an embodiment of the present invention. [Fig. 2] is a schematic diagram showing the hardware configuration of the living body information screen in the embodiment of the present invention. [Fig. 3] is a functional block diagram of the living body information screen in the embodiment of the present invention. [Fig. 4] is a diagram showing the trend chart page screen displayed on the living body information screen in the embodiment of the present invention. [Fig. 5] is a diagram showing the trend chart area of the trend chart page screen displayed on the living body information screen in the embodiment of the present invention. [Fig. 6](a) is a diagram showing the pattern of fitting the scale width of the numerical axis of the living body information in the trend graph in the embodiment of the present invention. (b) is a diagram showing a state in which the scale width and the origin position of the living body information numerical axis in the trend graph in the embodiment of the present invention are fitted. Fig. 7 is a diagram showing the pattern in which two upper judgment lines and two lower judgment lines are respectively arranged in the trend graph area of the trend graph page screen displayed on the living body information screen according to the embodiment of the present invention picture. [Fig. 8](a) is a diagram showing a report form when there is biological information exceeding the upper judgment line or the lower judgment line on the biological information screen in the embodiment of the present invention . (b) is a report state when two upper judgment lines and two lower judgment lines are arranged in the trend graph area of the trend graph page screen displayed on the living body information screen in the embodiment of the present invention A picture of the sample display. Fig. 9(a) is a line number input screen for inputting the number of upper judgment lines or lower judgment lines in the trend graph page screen displayed on the living body information screen in the embodiment of the present invention map. (b) The upper threshold value or lower threshold value of each living body information corresponding to the upper judgment line or the lower judgment line is added to each other in the trend graph page screen displayed on the living body information screen in the embodiment of the present invention. The line threshold value input screen for the input of the threshold value is shown in the figure. [Fig. 10] (a) is a line number input screen for inputting the number of upper judgment lines or lower judgment lines in the trend graph page screen displayed on the living body information screen in the embodiment of the present invention. map. (b) is a line threshold value input for inputting the upper threshold value or lower threshold value of each living body information corresponding to the upper judgment line or the lower judgment line in the embodiment of the present invention. The screen is shown as a picture. [Fig. 11](a) is a diagram showing a state in which the upper determination line is moved in the trend graph area displayed on the living body information screen in the embodiment of the present invention. (b) is a diagram showing the display of the living body information screen when the upper determination line is moved in the trend graph area displayed on the living body information screen in the embodiment of the present invention. [Fig. 12](a) is a diagram showing the state of a pinch out operation for the trend graph area displayed on the living body information screen in the embodiment of the present invention. (b) is a diagram showing the display of the living body information screen after a pinch out operation is performed for the trend graph area displayed on the living body information screen in the embodiment of the present invention. [Fig. 13](a) is a diagram showing how a pinch out operation is performed for the area of the value axis of the living body information displayed on the living body information screen in the embodiment of the present invention. (b) is a diagram showing the display of the living body information screen after a pinch out operation is performed for the living body information numerical axis area displayed on the living body information screen in the embodiment of the present invention.

1‧‧‧In vivo information screen

11‧‧‧Touch Panel Display

200‧‧‧Trend chart page screen generation section

201‧‧‧Line Generation Department

202‧‧‧Numerical axis scale fitting part

203‧‧‧Fitting Trend Chart Generation Department

204‧‧‧Fitting Trend Chart Holder

205‧‧‧Fitting trend graph display section

206‧‧‧Reporting Department

207‧‧‧Wire Quantity Setting Section

208‧‧‧Line Position Change Department

209‧‧‧Trend Chart Selection

210‧‧‧Time axis scale adjustment section

211‧‧‧Numerical axis scale adjustment part

212‧‧‧Threshold value setting section

Claims (9)

A living body information display device, which is characterized in that it is provided with: a display; A trend graph area is arranged with a trend graph having a numerical axis and a time axis related to the living body information; and a line generating section that generates the aforementioned time toward the trend graph arranged in the aforementioned trend graph area The upper judgment line or the lower judgment line extending in the axial direction; and the numerical axis scale fitting part, so that the upper threshold value and the lower threshold value set in each of the plurality of types of living body information are matched with the The upper judgment line and the lower judgment line are matched with each other to fit the scales of the respective numerical axes of the plurality of the living body information; The trend graph of the plurality of living body information corresponding to the scale of the numerical axis is combined to generate a fitting trend graph; and the fitting trend graph display unit is used to display the upper judgment line or the lower judgment line on the display. The side judgment line and the multiple fitting trend graphs are arranged on the trend graph page screen in the trend graph area. The living body information display device as described in item 1 of the scope of the application, wherein, The scale fitting part of the numerical axis adjusts the width of the scale width of the numerical axis, or adjusts the value of the origin position of the numerical axis, so as to fit the scale of the numerical axis. The biological information display device according to claim 2, wherein the numerical axis scale fitting unit is between the upper threshold value and the lower threshold value of each of the plurality of types of biological information Within the range, adjust the width of the scale width of the aforementioned value axis. The biological information display device according to any one of Claims 1 to 3, wherein the line generating unit generates a plurality of the upper judgment line and the lower judgment line, and the numerical axis scale is fitted part for making each of the upper judgment threshold value and the lower judgment threshold value set in the living body information corresponding to the trend graph and the plurality of the upper judgment line and the lower judgment line mutually In a consistent manner, the scales of the respective aforesaid value axes of the plurality of the aforesaid living body information are fitted. The biological information display device according to any one of claims 1 to 3, further comprising: a line position changing unit that accepts the upper determination line and the The operation of changing the position of the lower judgment line, and Change the positions of the upper judgment line and the lower judgment line in the trend chart area. The living body information display device according to any one of Claims 1 to 3, further comprising: a reporting unit for when the fitting trend graph exceeds the upper judgment line or the lower judgment line report the matter to the outside world. The living body information display device according to any one of claims 1 to 3 of the scope of the application, further comprising: a numerical axis scale adjustment section for accepting the scale width of the numerical axis in the trend graph area The width of the width is adjusted, and the width of the scale width of the aforementioned numerical axis is changed in a manner corresponding to the adjustment operation. A living body information display control device, which is a living body information display control device for controlling the display of a display, is characterized in that it is provided with: a trend chart page screen generating unit for generating a trend chart page screen, the trend chart page screen , which is a page screen with a trend chart area, and the trend chart area is configured with a trend chart, and the trend chart has a numerical axis and a time axis related to the living body information; and a line generating section, which generates direction are configured in the aforementioned trend chart area The upper judgment line or the lower judgment line is extended in the direction of the time axis of the trend graph; and the numerical axis scale fitting unit is used to make the upper threshold value and the lower threshold set in each of the plurality of types of living body information. The lateral threshold value is matched with the upper judgment line and the lower judgment line so as to fit the scales of the respective numerical axes of the plurality of the living body information; and the fitting trend graph generating unit is a A trend graph of the living body information corresponding to a plurality of numbers corresponding to the scales of the numerical axis to be fitted is generated as a fitted trend graph; and a fitting trend graph display unit is configured to display the above-mentioned The upper judgment line or the lower judgment line and the multiple fitting trend graph are arranged on the trend graph page screen in the trend graph area. A living body information processing device, which is a living body information processing device for generating display data for display on a display, characterized in that it is provided with: a trend chart page screen generating unit for generating a trend chart page screen, the trend chart page screen, It is a page screen with a trend chart area, and the trend chart area is arranged with a trend chart, and the trend chart has a numerical axis and a time axis related to living body information; and a line generating section generates a direction to be an upper-side judgment line or a lower-side judgment line extending in the time axis direction of the trend graph arranged in the trend graph area; and a numerical axis scale fitting part so as to be set in each of a plurality of types of living body information The upper threshold value and the lower threshold value will be the same as the aforementioned upper threshold The determination line and the lower determination line are matched with each other to fit the scales of the respective said numerical axes of the plurality of said living body information; The trend graph of the complex number of the living body information corresponding to the scale of the numerical axis is generated as a fitting trend graph; and the display data generating unit generates the above-mentioned fitting by combining the upper judgment line or the lower judgment line with the complex number. The combined trend chart is arranged in the aforementioned display data of the aforementioned trend chart page screen in the aforementioned trend chart area.

Images