JP2010236933A - Biological constituent measuring device and method of displaying display section of the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a biological constituent measuring device for measuring biological constituents, such as blood sugar, for improving a business efficiency by simplifying operation procedures of a user, or the like, and to provide a method of displaying a display section of the biological constituent measuring device. <P>SOLUTION: The biological constituent measuring device 10 includes: an execution mode section 26 for executing an execution mode where processing is started by a combination, or the like of identification information, a display section 11 for displaying each kind of information, and an identification information input section 16; an entire information display section 19 for displaying execution mode information, namely information on the execution mode, and entire information 20a including identification information of which selection is required for executing the execution mode at the display section; and a related execution mode information display section 23 for selecting related execution mode information, namely execution mode information related to identification information of the entire information input by the identification information input section for displaying at the display section, wherein the related execution mode information display section displays the input screen of another identification information at the display section when it is necessary to input another non-selected identification information to execute the related execution mode. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a measuring device that measures a biological component such as blood sugar, which is executed by selecting a plurality of modes, and a display method of a display unit of such a biological component measuring device.

2. Description of the Related Art Conventionally, blood glucose measuring devices that measure blood glucose have been used to measure blood glucose levels in a patient's blood. Such a blood glucose measurement device has a configuration as shown in FIG.
Such a blood glucose measurement device is not limited to an operation mode for simply measuring blood glucose, but includes a plurality of inspection modes for checking whether or not the device is operating properly, a setting mode for initial setting of the device, and the like. The operation mode is as follows.
In order for a user or the like to select such an operation mode of the blood glucose measurement device, it is necessary to call a menu screen on the display of the device, select necessary items from the menu screen several times, and select each operation mode.

Japanese Patent Laid-Open No. 10-318928 (FIG. 1 etc.)

  By the way, for example, when this blood glucose measurement device is used in a hospital or the like, a user such as a nurse measures blood glucose levels of a large number of patients at the same time, or performs an inspection or the like. In this case, it is cumbersome to force a user such as a nurse to select the necessary items from the menu screen several times and execute the desired operation mode each time as described above. There was a problem that efficiency deteriorated.

  Accordingly, an object of the present invention is to provide a biological component measuring device for measuring a biological component such as blood sugar, which can simplify the operation procedure of a user and the like, and improve the work efficiency, and a display method for a display unit of the biological component measuring device And

According to the present invention, the subject is an execution mode section for executing a plurality of types of execution modes in which processing is started by specific single identification information or a combination of a plurality of the identification information, and a display for displaying various information. And an identification information input unit for inputting the identification information.
Preferably, the execution mode information that is information of the execution mode, and an overall information display unit that displays overall information including the identification information that needs to be selected to execute the execution mode on the display unit, A related execution mode information display unit that selects related execution mode information that is the execution mode information related to the identification information of the overall information input by the identification information input unit and displays the information on a display unit, and The related execution mode information display unit is configured to display an input screen for the other identification information on the display unit when input of the other unselected identification information is necessary for execution of the related execution mode. A biological component measuring apparatus.

According to the configuration, for example, the display unit displays execution mode information that is execution mode information such as a biological component measurement mode and overall information including identification information such as a patient ID that needs to be selected to execute the execution mode. Execution mode information (for example, biological component measurement mode) related to the identification information (for example, patient ID) of the entire information input by the identification information input unit such as the barcode reading device A related execution mode information display unit that selects the related execution mode information and displays it on the display unit.
That is, in the above-described configuration, for example, when the user or the like inputs identification information such as a patient ID with an identification information input unit such as a barcode reader in a state where the entire information that is a menu screen is displayed on the display unit, An execution mode (biological component measurement mode or the like) in which a patient ID or the like that is the input identification information is obtained is displayed as related execution mode information.
Therefore, at this stage, for example, an execution mode that does not require identification information such as a patient ID, for example, an inspection mode of the biological component measuring device is automatically excluded.

In the configuration, the related execution mode information display unit displays an input screen for the other identification information on the display unit when it is necessary to input the other unselected identification information to execute the related execution mode. It has a configuration.
In other words, as described above, the execution mode that requires the input identification information (for example, patient ID) is displayed on the display unit, and the execution mode (for example, the biological component measurement mode) is required to execute the execution mode. Are prompted to input identification information (for example, a user ID or a biological component measurement chip ID).
Therefore, if a user etc. inputs identification information according to the screen display of the display part of a biological component measuring device, he can start desired execution mode rapidly. And the operation procedure of a user etc. can be simplified and the work efficiency can be improved.

  Preferably, a selection completion determination unit that determines whether or not all the identification information necessary for starting the execution mode process is selected, and all the selection completion determination units that are necessary for the start of the execution mode process. An organism mode measuring apparatus comprising: an execution mode starting unit that sets the execution mode to a startable mode when it is determined that the identification information is selected.

According to the above configuration, the selection completion determination unit that determines whether or not all the identification information necessary for starting the execution mode process has been selected, and all the selection completion determination units that are necessary for the start of the execution mode process. An execution mode start unit that sets the execution mode to a startable mode when it is determined that the identification information has been selected.
For this reason, the user or the like does not need to perform any other operation after inputting necessary identification information according to the screen display on the display unit, and the biological component measuring apparatus automatically starts a desired execution mode. As a result, the business efficiency of the user and the like can be further improved.

  Preferably, the biocomponent includes a confirmation screen display unit that displays the selected identification information as a confirmation screen on the display unit before the execution mode start unit sets the execution mode to the startable mode. It is a measuring device.

According to the above configuration, the execution mode starting unit includes the confirmation screen display unit that displays the selected identification information as a confirmation screen on the display unit before the execution mode is changed to the startable mode.
For this reason, before the biological component measuring apparatus automatically starts the execution mode, the input information can be confirmed, and an input mistake or the like can be found in advance.

  Preferably, the identification information is a patient, a user, a biological component measurement chip, and an inspection liquid, and the execution mode is a biological component measurement mode, a biological component measurement device inspection mode, a history information reference mode, and various biological component measurement devices. It is a biological component measuring device characterized by being in setting mode.

  According to the present invention, the subject is an execution mode section for executing a plurality of types of execution modes in which processing is started by specific single identification information or a combination of a plurality of the identification information, and a display for displaying various information. And an identification information input unit for inputting the identification information, the display method of the display unit of the biological component measurement device, wherein the execution mode information is information of the execution mode and the execution mode is executed A step of displaying, on the display unit, overall information including the identification information that needs to be selected, and the execution related to the identification information of the overall information input by the identification information input unit Selecting related execution mode information that is mode information and displaying the related execution mode information display unit on the display unit, and the related execution mode information display unit is configured to execute the related execution mode. A display method for a display unit of a biological component measuring apparatus, wherein when the input of other identification information for selection is required, the input screen for the other identification information is displayed on the display unit Is achieved.

  The present invention has an advantage that it is possible to provide a living body component measuring apparatus and a display method of a display unit of the living body component measuring apparatus that can simplify the operation procedure of a user or the like and improve the business efficiency.

1 is a schematic diagram showing a blood glucose measurement system to which a blood glucose measurement device according to the present invention is applied. It is a schematic explanatory drawing which shows the use condition of a blood glucose measuring device. It is a schematic explanatory drawing which shows the state in which a nurse etc. measure a patient's blood glucose level with a blood glucose measuring device. It is a schematic block diagram which shows the main structures of a blood glucose measurement apparatus. It is a schematic flowchart which shows operation | movement etc. of the blood glucose measurement apparatus concerning this Embodiment. It is another schematic flowchart which shows operation | movement etc. of the blood glucose measuring device concerning this Embodiment. It is another schematic flowchart which shows operation | movement etc. of the blood glucose measuring device concerning this Embodiment. It is another schematic flowchart which shows operation | movement etc. of the blood glucose measuring device concerning this Embodiment. It is another schematic flowchart which shows operation | movement etc. of the blood glucose measuring device concerning this Embodiment. It is another schematic flowchart which shows operation | movement etc. of the blood glucose measuring device concerning this Embodiment. It is a schematic explanatory drawing which shows an example of menu screen data. It is an approximate account figure showing the state where menu screen data was displayed on the display of a blood glucose measuring device. It is a schematic explanatory drawing which shows an example of the screen which accelerates | stimulates the input of ST52. It is an example of an input request screen for a chip ID. It is a schematic explanatory drawing which shows a confirmation screen. It is a schematic explanatory drawing which shows the example of a screen in ST67.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the attached drawings and the like, taking as an example a blood glucose measurement device that measures glucose (blood glucose) in blood as a biological component.
The embodiments described below are preferred specific examples of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. Unless otherwise stated, the present invention is not limited to these embodiments.

FIG. 1 is a schematic diagram showing a blood glucose measurement system 1 to which a blood glucose measurement device according to the present invention is applied. A blood glucose measurement system 1 shown in FIG. 1 is a system used in a hospital, for example. As shown in FIG. 1, the blood glucose measurement device 10 is disposed in a nurse station or the like of a hospital and can be used as appropriate by a user such as a nurse located there.
Each of the nurses has a user ID 9 which is his / her identification information, and the ID is represented by a number “02003004”, for example. Each nurse possesses an ID card or the like representing his / her user ID 9 with a barcode.

The blood glucose measurement device 10 of FIG. 1 is mounted on the cradle 7 and can be connected to an information management device 3 that is a computer for managing various hospital data via a cable 4.
For this reason, a nurse or the like can connect the blood glucose measurement device 10 to the information management device 3 via the cradle 7 and the cable 4, whereby data necessary for using the blood glucose measurement device 10 is obtained. Can be acquired from the information management device 3.

As the operation (execution) mode of the blood glucose measurement device 10, there are, for example, four modes. Specifically, a blood glucose measurement processing mode (blood glucose measurement mode) for measuring the blood glucose level of the patient's blood, and an inspection processing mode (blood glucose measurement device) for checking whether the blood glucose measurement of the blood glucose measurement device 10 is functioning normally. Check mode), measurement history data related to a patient whose blood glucose level is to be measured, and the like, for example, a history processing mode (history information reference mode) for displaying on the display 11, and various settings such as initial setting of the blood glucose measuring device 10 This is a setting processing mode (various blood glucose measuring device setting mode) for changing the setting conditions.
The blood glucose measurement device 10 has a display 11 as shown in FIG.

  The blood glucose measurement device 10 is configured to be able to acquire data used in each of these modes, for example, patient data, history data, data of a blood glucose level measurement chip 5 described later, and the like from the information management device 3. ing.

FIG. 2 is a schematic explanatory diagram showing a usage state of the blood glucose measurement device 10. As shown in FIG. 2, when a nurse or the like goes to the ward with the blood glucose measuring device 10 to measure the blood glucose level of the patient, the blood glucose level measuring chip 5 is also carried at the same time.
This blood sugar level measuring chip 5 is mounted on the blood sugar measuring device 10 and used when measuring the blood sugar level of a patient. That is, a test paper or the like is arranged in the blood sugar level measuring chip 5, and the blood of the patient collected on the test paper is soaked. The blood sugar measuring device 10 determines the blood sugar level in the blood. It is configured to measure.
For this reason, the blood sugar level measuring chip 5 is replaced every time the blood sugar level is measured. Each blood sugar measuring chip 5 has, for example, a chip ID (chip lot) 5a which is identification information. For example, “090205412B” is added. This chip ID 5a is displayed, for example, on the packaging of the blood sugar measurement chip 5 with a barcode.

  FIG. 3 is a schematic explanatory diagram showing a state in which a nurse or the like measures the blood glucose level of a patient with the blood glucose measurement device 10. As shown in FIG. 3, a nurse or the like attaches the blood sugar level measuring chip 5 to the blood sugar measuring device 10 and measures the blood sugar level of the patient. Each patient is also given identification information, for example, patient ID 6, for example, “09N4-000103”, and this patient ID 6 is displayed on the ID card with a barcode.

Moreover, when executing the inspection processing mode among the above-described execution modes, the inspection liquid 8 that can measure a specific blood glucose level is used. That is, when inspecting, the blood sugar measuring chip 5a is attached to the blood sugar measuring device 10, and in this state, not the blood but the inspection liquid 8 is spotted. Then, if the blood glucose measuring device 10 is functioning normally, a blood glucose level in a specific range is calculated. On the other hand, if it is not functioning normally, a blood glucose level different from the specific range is calculated. The blood glucose measuring device 10 can be checked.
The inspection liquid 8 used in such an inspection processing mode is also provided with identification information, for example, inspection liquid ID8a, and this inspection liquid ID8a is displayed on the surface of the container of the inspection liquid 8 by a barcode. ing.

By the way, in order to execute the above four execution modes, it is necessary to obtain the above ID.
Specifically, in the blood glucose measurement processing mode, the patient ID 2 of the patient to be measured, the user ID 9 such as a nurse who performs the measurement, and the chip ID 5a used in the blood glucose measurement device 10 this time are used. is there.
In the inspection processing mode, there are a user ID 9 such as a nurse performing the inspection, a chip ID 5 a of the blood sugar level measuring chip used in the inspection, and an inspection liquid ID 8 a of the inspection liquid 8.
In the history processing mode and the setting processing mode, only a user ID such as a nurse who performs such processing is used.

In each of these execution modes, it is extremely important for hospital data management to input the data of each ID described above to the blood glucose measurement device 10, so that a nurse or the like uses the blood glucose measurement device 10 to It is recommended that you always enter it when executing each execution mode.
However, in order to input each ID data, a menu screen is displayed on the display 11 of the blood glucose measuring device 10, a screen of an execution mode that a nurse or the like wants to execute is displayed, and a necessary ID input screen or the like is displayed. It was necessary to make a complicated operation.
In particular, in order to handle a large number of patients and execute the above-described execution modes for each patient, the complexity further increases. Therefore, the present embodiment aims to eliminate the complexity of the operation, simplify the operation procedure, and improve the business efficiency, and the details will be specifically described below.

First, FIG. 4 is a schematic block diagram illustrating a main configuration of the blood glucose measurement device 10.
The blood glucose measuring device 10 is provided with a computer or the like, and as shown in FIG. 4, the blood glucose level in blood actually collected is measured via the blood glucose measuring device side control unit 12 including a CPU and the like. A blood glucose measurement device main body 13, a display 11, a blood glucose measurement device side communication device 14 for communicating with the information management device 3 in FIG.
1 is also connected with an input device 15 such as a numeric keypad and buttons for inputting various data, and a barcode reader 16 for reading the barcode ID.
The input device 15 and the barcode reader 16 are an example of an identification information input unit. The main software configuration of the blood glucose measurement device 10 shown in FIG. 4 will be described later.

5 to 10 are schematic flowcharts showing the operation and the like of the blood glucose measurement device 10 according to the present embodiment.
In the following, along with the flowcharts of FIGS. 5 to 10, the software configuration and the like of FIG.

First, the flowchart of FIG. 5 will be described. As shown in FIG. 3, a user such as a nurse will first explain the blood glucose level measurement processing mode using the blood glucose measuring device 10 on the patient side, and then explain other execution modes. explain.
As shown in FIG. 5, when a nurse or the like turns on the power of the blood glucose measurement device 10, the blood glucose measurement device 10 performs a self-check in ST1 of FIG.
Specifically, the self-check program 17 of FIG. 4 is executed while referring to the self-check data in the self-check data storage unit 18 of the database.

If there is no abnormality in the blood glucose measurement device 10, the process proceeds to ST2, and a screen for prompting ID input is displayed on the display 11 of the blood glucose measurement device 10.
Specifically, the menu screen display program 19 of FIG. 4 executes with reference to the menu screen data 20a of the menu screen data storage unit 20 of the database.
FIG. 11 is a schematic explanatory diagram illustrating an example of the menu screen data 20a.
As shown in FIG. 11, in the blood glucose measurement processing mode, input of patient ID 6, user ID 9, and chip ID 5a is prompted.
In the inspection processing mode, the user ID 9, the chip ID 5a, and the inspection liquid ID 8a are prompted to be input.
In the history processing mode and the setting processing mode, the user ID 9 is prompted to input.

FIG. 12 is a schematic explanatory diagram showing a state in which the menu screen data 20a is displayed on the display 11 of the blood glucose measurement device 10.
As shown in FIG. 12, the menu screen data 20a of FIG. 11 is displayed on the display 11 and prompts the input of an ID.
The measurement, inspection, history, and setting shown in FIGS. 11 and 12 are examples of execution mode information, and each ID and a display such as a square corresponding to the execution mode are identification information that needs to be selected in order to execute the execution mode. It is an example. The menu screen data 20a is the entire information, and the menu screen display program 19 is an example of the entire information display unit.

When a nurse or the like wishes to measure the blood glucose level of the patient in FIG. 3, any of patient ID 6, user ID 9, and chip ID 5a may be input first.
That is, even if any ID is input first, a screen for guiding and prompting input of another ID is displayed on the display 11 thereafter.
Specifically, in the situation of FIG. 3, the nurse or the like has the barcode of the patient ID 6 displayed on the patient's ID card, the barcode of the user ID 9 displayed on the ID card of the nurse or the like, or One of the barcodes of the chip ID 5a displayed on the packaging of the blood sugar level measuring chip 5 shown in FIG. 2 and carried along with the blood sugar measuring device 10 is operated by operating the bar code reading device 16 in FIG. To enter.

  This is ST3 in FIG. 5, and it is assumed that, for example, a nurse or the like previously inputs the barcode of the patient ID6. Then, the barcode data determination program 21 in FIG. 4 determines whether or not the input barcode is correct while referring to the data in the barcode-corresponding ID data storage unit 22, and the corresponding barcode data. If there is no input error, an input error is displayed on the display 11 in ST4.

On the other hand, if it is determined in ST3 that the barcode data is correct, this barcode is recognized as the patient ID 6, for example, “09N4-000103”, and the process proceeds to the patient ID input process in ST of FIG.
FIG. 6 is a schematic flowchart showing the patient ID input process of FIG.
As shown in FIG. 6, when the patient ID is input in ST3, the measurement mode is started in ST51. This is because, as shown in FIG. 11, when the patient ID 6 is input on the menu screen, it is understood that the input person intends to measure the blood glucose level.
As described above, the blood glucose measurement device 10 automatically excludes from the subsequent selection targets other than the execution mode that the nurse or the like wants to execute.

However, as shown in FIG. 11, in the blood glucose level measurement processing mode, since the user ID 9 and the chip ID 5a are required in addition to the patient ID 6, input of these IDs is prompted in ST52 of FIG.
Specifically, the screen display program 23 after the patient ID input in FIG. 4 operates to cut a necessary screen from the menu screen data 20 a and display it on the display 11.

FIG. 13 is a schematic explanatory diagram illustrating an example of a screen that prompts input of ST52.
As shown in FIG. 13, only the blood glucose level measurement processing mode that is the determined execution mode is displayed, and the already input ID is checked, and the ID that has not been input yet is displayed. In this example, the screen prompts input of the user ID 9 and the chip ID 5a.
Then, as shown in FIG. 13, “Measurement is performed. Enter user ID or chip ID” is displayed.
The screen of FIG. 13 is an example of an input screen for related execution mode information and other identification information, and the post-patient ID input screen display program 23 is an example of a related execution mode information display unit.

Here, for example, when the user ID 9 is input, the process proceeds to ST53, and input of the remaining chip ID 5a is requested. FIG. 14 is an example of a chip ID input request screen. These operations are also executed by the screen display program 23 after inputting the patient ID.
Next, the input of the chip ID 5a is confirmed at ST54. Specifically, the ID input completion determination program 24 in FIG. 4 determines whether or not all IDs in the execution mode have been input.
In the above-described example, since the input of the patient ID 6, the user ID 9, and the chip ID 5a necessary for the blood glucose level measurement processing mode is completed, it is determined that the process is completed.
The ID input completion determination program 24 is an example of a selection completion determination unit.

  On the other hand, when the chip ID 5a is input in ST52, a screen requesting input of the user ID 9 is displayed in ST56, and when the user ID 9 is input in ST57, the ID input completion determination program 24 executes the execution. It is determined whether or not all IDs of the mode have been input, and the process proceeds to ST55.

In ST55, the contents such as the input patient ID are confirmed. Specifically, the confirmation screen display program 25 in FIG. 4 operates and displays the confirmation screen on the display 11. FIG. 15 is a schematic explanatory view showing this confirmation screen.
Therefore, a person who has entered data such as a nurse can check whether or not his / her input data is correct by looking at this screen.
The confirmation screen display program 25 is an example of a confirmation screen display unit.

Next, the process proceeds to ST56, and the blood sugar level measurement processing mode is started. Specifically, the blood glucose measurement process execution program 26 of FIG. 4 executes with reference to the blood glucose measurement treatment data 27 in the database.
In other words, the blood glucose level measurement processing mode is automatically started after the necessary ID is input, and the nurse and the like simply input the ID. Can improve business efficiency.
The blood glucose measurement process execution program 26 is an example of an execution mode start unit.

In addition, the input ID confirmation process in ST55 is placed before the blood glucose level measurement processing mode automatically started in ST56, so that it can be confirmed before automatically starting in this way, and erroneous data is obtained. Thus, it is possible to prevent the measurement processing mode from being started.
The details of the blood glucose level measurement processing mode started in this way will be described later.

On the other hand, if the nurse or the like who views the screen of FIG. 12 in ST3 of FIG. 5 intends to measure the blood glucose level and inputs the user ID 9 first, the process proceeds to the user ID input process of ST6.
FIG. 7 is a schematic flowchart showing the user ID input process.
In ST61 of FIG. 7, ID input or button operation is prompted. As shown in FIGS. 11 and 12, even if a nurse or the like reads and inputs his / her user ID 9 with the barcode reader 16, the execution mode to be executed cannot be specified, and all four modes are applicable. Will do.
Therefore, in ST61, it is required to input any of the patient ID 6, inspection liquid ID 8, and chip ID 5a, or to select a history or setting.
When the nurse or the like selects the history processing mode or the setting processing mode, the nurse or the like operates and specifies the button of the input device 15 in FIG.
In ST61, in addition to the screen of FIG. 12, a history and setting selection screen is displayed on the display. Specifically, the screen display program 28 after the user ID input in FIG. 4 is executed with reference to the data in the “history” and “setting” selection screen data storage unit 29.

  If the nurse or the like inputs the patient ID 6 in ST61 of FIG. 7, it becomes clear that the mode that the nurse or the like wants to execute is the blood glucose level measurement procedure, as is apparent from FIG. Then, the measurement mode is started, and thereafter, the process shown in FIG. 6 described above is followed to proceed to measurement processing (ST63 to ST66).

On the other hand, when the nurse or the like first inputs the chip ID 5a in ST61, the mode that the nurse or the like desires to execute is either the blood glucose level measurement processing mode or the check mode, as is apparent from FIG. .
Therefore, an ID input screen is displayed on the display 11 in ST67. Specifically, the screen display program 28 is executed after the user ID is input.
FIG. 16 is a schematic explanatory diagram illustrating a screen example in ST67.
As shown in FIG. 16, the screen prompts the input of the patient ID 6 if the user wants to execute the measurement processing mode, and prompts the user to input the inspection fluid ID 8a if the user wants to execute the inspection processing mode.

  If the nurse or the like wants to execute the measurement processing mode in ST67, the patient ID 6 is input, and thereafter (ST68 to ST70), the process proceeds to the measurement processing through the same steps as ST62 to ST66 in FIG. It will be.

On the other hand, if the nurse or the like who has seen the screen of FIG. 12 in ST3 of FIG. 5 intends to measure the blood sugar level and inputs the chip ID 5a first, the process proceeds to the chip ID input process of ST7.
FIG. 8 is a schematic flowchart showing chip ID input processing.
In ST701 in FIG. 8, ID input is prompted. As shown in FIG. 11 and the like, this ID input is any one of patient ID 6, inspection liquid ID 8a, and user ID 9.
This is executed by the screen display program 30 after inputting the chip ID in FIG.
When the nurse or the like inputs the patient ID 6 in ST701, the measurement mode is started in ST702, and the subsequent ST703 to ST706 proceed to the measurement process through the steps shown in FIG.

On the other hand, when the nurse or the like inputs the user ID 9 first, as is clear from FIG. 11, the mode to be executed is not yet determined. That is, the blood glucose level measurement processing mode or the inspection processing mode is set.
Therefore, in ST707, a screen for prompting input of either the patient ID 6 or the inspection liquid ID 8a is displayed on the display 11. These are executed by the screen display program 30 after inputting the chip ID.

  If the nurse or the like inputs the patient ID 6 in ST707, it is found that the mode executed by the nurse or the like is the blood glucose level measurement processing mode, and the measurement mode is started in ST708. The subsequent ST709 and ST710 are shown in FIG. Through the steps shown in FIG.

  As described above, in the present embodiment, a nurse or the like inputs one of IDs necessary for the processing mode he / she wants to execute on the bar code reader 16 or the like, and then the input to the display 11 is necessary. IDs are displayed in order. For this reason, it is possible to execute a desired processing mode simply and quickly without a complicated screen operation as in the prior art. Therefore, it is possible to improve the work efficiency of nurses and the like.

Next, a case where a nurse or the like wants to execute the inspection processing mode will be described.
When the inspection liquid ID 8a is input in ST3 of FIG. 5, the process proceeds to ST8 and proceeds to the inspection liquid ID input process.
FIG. 9 is a schematic flowchart showing the inspection liquid ID input process.
The operation in FIG. 9 is executed by the screen display program 31 after the inspection liquid ID is input in FIG.
As shown in FIG. 9, when the inspection liquid ID 8a is input, the execution mode becomes the inspection processing mode as is apparent from FIG. For this reason, in ST801 and the subsequent steps, the inspection processing mode is started in response to the input of another chip ID 5a and the user ID 9 necessary for executing the inspection processing mode (ST801 to ST808).
The inspection processing mode is executed by the inspection processing execution program 32 of FIG. 4 with reference to the inspection processing data 33, and details will be described later.

Next, a case where a nurse or the like inputs the user ID 9 first in ST3 when he / she wants to execute the inspection processing mode will be described.
When the user ID 9 is input in ST3, ID input or button operation is requested in ST61 of FIG. At this time, the nurse or the like inputs the inspection liquid ID 8a or the chip ID 5a in order to execute the inspection processing mode.
When the inspection liquid ID 8a is input, the execution mode is fixed to the inspection processing mode, the inspection processing mode is started in ST71, and ST72 to ST75 proceed to the inspection processing through the steps shown in FIG.

  On the other hand, when the chip ID 5a is input in ST61, the input of the inspection liquid ID 8a is obtained in ST67. When the inspection liquid ID 8a is input, the inspection processing mode is started in ST76, and ST77 and ST78 are shown in FIG. The inspection process will proceed through the steps shown.

Further, a case where a nurse or the like inputs the chip ID 5a first in ST3 when he / she wants to execute the inspection processing mode will be described.
When the chip ID 5a is input in ST3, ID input is requested in ST701 of FIG. At this time, the nurse or the like inputs the inspection liquid ID 8a or the user ID 9 in order to execute the inspection processing mode.
When the inspection liquid ID 8a is input, the execution mode is fixed to the inspection processing mode, the inspection processing mode is started in ST711, and ST712 to ST715 proceed to the inspection processing through the steps shown in FIG.

  On the other hand, when the user ID 9 is input in ST701, input of the inspection liquid ID 8a is requested in ST707. When the inspection liquid ID 8a is input, the inspection processing mode is started in ST716, and ST717 and ST718 are shown in FIG. After going through the steps shown in Fig. 1, the process proceeds to the inspection process.

If the nurse or the like wants to execute the history processing mode or the setting processing mode, the user ID 9 is input in ST3 of FIG. Then, in ST61 of FIG. 7, the history or setting is selected by the button operation of the input device 16, and the history processing mode or setting processing mode is started.
Specifically, the history processing execution program 34 in FIG. 4 executes with reference to data in the history processing data storage unit 35. Also, the setting process execution program 36 executes with reference to the data in the setting process data storage unit 37.

  Thus, in this embodiment, even in modes other than the blood glucose level measurement processing mode described above, the nurse displays the ID data necessary for the execution mode on the screen, and inputs an ID or button according to this screen. By selecting, it is possible to cause the blood glucose measurement device 10 to start a desired execution mode quickly and easily. Therefore, it is possible to improve the work efficiency of nurses and the like.

FIG. 10 is a schematic flowchart showing the main contents of the execution mode executed by the blood glucose measurement device 10, wherein (a) is a blood glucose level measurement processing mode, (b) an inspection processing mode, and (c) a history processing mode. , (D) shows the setting processing mode.
In FIG. 10A, as shown in ST1001 to ST1007, the blood sugar level is calculated, and the result is displayed on the display 11 to execute the blood sugar level measurement processing mode.
In FIG. 10 (b), as shown in ST1011 to ST1015, the blood sugar level by the inspection liquid is calculated, and the result is displayed on the display 11 to execute the inspection processing mode by the inspection liquid.
In FIG. 10C, the patient measurement history and the like are displayed as shown in ST1021 to ST1025, and the history processing mode is executed.
In FIG. 10D, a setting processing mode such as a change in the setting of the selected item is executed as shown in ST1031 to ST1035.

  The present invention is not limited to the embodiments described above. In addition, the biological component to be measured is not limited to glucose (blood glucose level), for example, cholesterol, uric acid, creatinine, lactic acid, hemoglobin (occult blood), various alcohols, various sugars, various proteins, various vitamins, sodium, etc. These may be various inorganic ions.

  DESCRIPTION OF SYMBOLS 1 ... Blood glucose measurement system, 3 ... Information management apparatus, 4 ... Cable, 5 ... Blood glucose level measurement chip, 5a ... Chip ID (chip lot), 6 ... Patient ID, DESCRIPTION OF SYMBOLS 7 ... Cradle, 8 ... Inspection liquid, 8a ... Inspection liquid ID, 9 ... User ID, 10 ... Blood glucose measurement apparatus, 11 ... Display, 12 ... Blood glucose measurement apparatus Side control unit, 13 ... blood glucose measurement device main body, 14 ... blood glucose measurement device side communication device, 15 ... input device such as numeric keys and buttons, 16 ... bar code reader, 17 ... self Check program, 18 ... Self-check data storage unit, 19 ... Menu screen display program, 20 ... Menu screen data storage unit, 20a ... Menu screen data, 21 ... Barcode data determination program, 2・ ・ ・ Barcode-compatible ID data storage unit, 23 ... Screen display program after patient ID input, 24 ... ID input completion determination program, 25 ... Confirmation screen display program, 26 ... Blood glucose measurement process Execution program, 27 ... data for blood glucose measurement treatment in database, 28 ... screen display program after user ID input, 29 ... "history" and "setting" selection screen data storage unit, 30 ... chip Screen display program after ID input, 31 ... Screen display program after input of inspection liquid ID, 32 ... Inspection processing execution program, 33 ... Inspection processing data, 34 ... History processing execution program, 35 ...・ History processing data storage unit 36... Setting processing execution program 37... Setting processing data storage unit

Claims (6)

An execution mode unit that executes a plurality of types of execution modes in which processing is started by specific single identification information or a combination of a plurality of the identification information;
A display unit for displaying various information;
A biological component measuring apparatus comprising: an identification information input unit for inputting the identification information. An execution mode information that is information of the execution mode, and an overall information display unit that displays overall information including the identification information that needs to be selected to execute the execution mode on the display unit;
A related execution mode information display unit that selects and displays on the display unit related execution mode information that is the execution mode information related to the identification information of the overall information input by the identification information input unit;
The related execution mode information display unit is configured to display an input screen for the other identification information on the display unit when input of the other identification information not selected for execution of the related execution mode is necessary. The biological component measuring apparatus according to claim 1, wherein: A selection completion determination unit that determines whether or not all the identification information necessary for starting the process in the execution mode has been selected;
An execution mode start unit that sets the execution mode to a startable mode when the selection completion determination unit determines that all the identification information necessary for starting the processing in the execution mode has been selected. The biological component measuring apparatus according to claim 2.   The confirmation screen display unit that displays the selected identification information as a confirmation screen on the display unit before the execution mode start unit sets the execution mode to a startable mode. Biological component measuring device.   The identification information is a patient, a user, a biological component measurement chip, and an inspection liquid, and the execution mode is a biological component measurement mode, a biological component measurement device inspection mode, a history information reference mode, and a biological component measurement device various setting mode. The living body component measuring apparatus according to claim 1, wherein the living body component measuring apparatus is provided. An execution mode unit that executes a plurality of types of execution modes in which processing is started by specific single identification information or a combination of a plurality of the identification information;
A display unit for displaying various information;
An identification information input unit for inputting the identification information, and a display method of the display unit of the biological component measuring device,
A step of displaying, on the display unit, an overall information display unit that includes execution mode information that is information on the execution mode, and overall information that includes the identification information that needs to be selected in order to execute the execution mode;
Selecting related execution mode information that is the execution mode information related to the identification information of the whole information input by the identification information input unit, and displaying the related execution mode information display unit on the display unit. And
The related execution mode information display unit is configured to display an input screen for the other identification information on the display unit when input of the other identification information not selected for execution of the related execution mode is necessary. The display method of the display part of the biological component measuring apparatus characterized by the above-mentioned.

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