JP2022032847A - Electronic thermometer set and information processing method - Google Patents

Abstract

To provide an electronic thermometer set in which the function of an electronic thermometer can be improved or compensated, and an information processing method.SOLUTION: An electronic thermometer set is provided, including an electronic thermometer and a case in which the electronic thermometer can be housed, the electronic thermometer comprises: a temperature measurement unit detecting the temperature of an end cap; a thermometer control unit executing processing of the temperature detection of a measurement target person on the basis of the temperature detected by the temperature measurement unit; and a thermometer communication unit transmitting information on the processing of the temperature detection to the case, the case comprises a case communication unit receiving the information from the electronic thermometer, and a notification unit performing notification on the basis of the received information.SELECTED DRAWING: Figure 5

Description

The present disclosure relates to an electronic thermometer set and an information processing method.

Conventionally, a thermometer set including a thermometer and a case capable of accommodating the thermometer is known. For example, Patent Document 1 describes a thermometer set that heats a thermometer while the thermometer is housed in a heating case.

Utility Model Registration No. 3141400 Gazette

By using the electronic thermometer together with the case, the function of the electronic thermometer can be improved or supplemented as compared with the case where the electronic thermometer is used alone.

It is an object of the present disclosure to provide an electronic thermometer set and an information processing method capable of improving or supplementing the function of the electronic thermometer.

The electronic thermometer set as the first aspect of the present disclosure is an electronic thermometer set including an electronic thermometer and a case capable of accommodating the electronic thermometer, and the electronic thermometer is a temperature for detecting the temperature of the end cap. It includes a measurement unit, a thermometer control unit that executes thermometer measurement processing based on the temperature detected by the temperature measurement unit, and a thermometer communication unit that transmits information on the temperature measurement processing to the case. The case includes a case communication unit that receives the information from the electronic thermometer, and a notification unit that performs notification based on the received information.

As one embodiment of the present disclosure, the notification unit includes a display unit that displays information.

As one embodiment of the present disclosure, the notification unit notifies at least one of the progress of the temperature measurement, the notification of the end of the temperature measurement, and the result of the temperature measurement.

As one embodiment of the present disclosure, the thermometer communication unit and the case communication unit are in a state in which communication is possible in a state where the electronic thermometer is not housed in the case, and the electronic thermometer is housed in the case. It becomes a state of not communicating in the state of being.

As one embodiment of the present disclosure, the case further comprises a power feeding unit that supplies power to the electronic thermometer, and the electronic thermometer further includes a power receiving unit that receives power supplied from the power feeding unit.

As one embodiment of the present disclosure, power is supplied from the power feeding unit to the power receiving unit in a state where the electronic thermometer is housed in the case.

The information processing method as the second aspect of the present disclosure is an information processing method executed by an electronic thermometer set including an electronic thermometer and a case capable of accommodating the electronic thermometer, wherein the electronic thermometer is an end cap. A step of detecting a temperature, a step of the electronic thermometer performing a temperature measurement process of a subject based on the detected temperature, and a step of the electronic thermometer transmitting information regarding the temperature measurement process to the case. It includes a step, a step in which the case receives the information from the electronic thermometer, and a step in which the case makes a notification based on the received information.

According to the present disclosure, it is possible to provide an electronic thermometer set and an information processing method capable of improving or supplementing the function of the electronic thermometer.

It is external perspective view which looked at the electronic thermometer which concerns on one Embodiment from the back side. FIG. 3 is an external perspective view of the electronic thermometer illustrated in FIG. 1 as viewed from the front side. It is an external perspective view of the case which concerns on one Embodiment as seen from the display part side. It is external perspective view of the electronic thermometer set in the state that the electronic thermometer is housed in the case. It is a functional block diagram which shows the schematic structure of the electronic thermometer set which concerns on one Embodiment. It is a sequence diagram which shows an example of the process of temperature measurement by the electronic thermometer set of FIG. It is a flowchart which shows an example of the process performed by the electronic thermometer of FIG. It is a flowchart which shows an example of the process executed by the case of FIG. It is a schematic diagram which shows the state of communication with other external devices by a case.

Hereinafter, embodiments of the electronic thermometer set and the information processing method according to the present disclosure will be described with reference to the drawings. The common members in each figure are designated by the same reference numerals.

The electronic thermometer set according to the present embodiment is composed of an electronic thermometer and a case accommodating the electronic thermometer.

1 and 2 are external perspective views of an electronic thermometer according to an embodiment. Specifically, FIG. 1 is an external perspective view seen from the back side, and FIG. 2 is an external perspective view seen from the front side. In the present specification, when the electronic thermometer 1 is housed in the case, the side in contact with the case is the back side of the electronic thermometer 1, and the opposite side is the front side of the electronic thermometer 1.

As shown in FIGS. 1 and 2, the electronic thermometer 1 according to the present embodiment includes a main body housing 2, a tail housing 3, an end cap 4, and an internal structure 8. A thermometer display unit 7 may be provided on one surface (surface) of the main body housing 2. The main body housing 2, the tail housing 3, and the end cap 4 are collectively referred to as the thermometer housing 10. The thermometer housing 10 houses the internal structure 8.

FIG. 3 is an external perspective view of the case according to the embodiment as viewed from the display unit side. As shown in FIG. 3, the case 21 according to the present embodiment includes a case housing 22, a display unit 23 provided on the case housing 22, and an operation input unit 24. The case 21 is provided with a storage groove 25 formed in a part of the case housing 22 so as to accommodate an electronic thermometer. The accommodating groove 25 accommodates at least a part of the thermometer housing 10. Preferably, 1/4 to 2/3 of the volume of the thermometer housing 10 is accommodated in the accommodating groove 25. The electronic thermometer 1 can be accommodated in the case 21 as shown in FIG. 4 by accommodating the electronic thermometer 1 in the accommodating groove 25 so that the back side is in contact with the surface forming the accommodating groove 25. That is, the electronic thermometer 1 is housed in the case 21 so that the side surface opposite to the thermometer display unit 7 faces the storage groove 25. For example, the electronic thermometer 1 and the case 21 may be provided with a magnet on one side and a ferromagnet, for example, an iron plate on the other side, so that the electronic thermometer 1 may be housed in the case 21 by magnet attraction by the magnet. The case 21 may further include a lid portion that covers the accommodating groove 25, the display portion 23, and the operation input portion 24, or the lid portion may be removable. As a method of attaching the lid portion, a conventionally known means can be used.

FIG. 5 is a functional block diagram showing a schematic configuration of an electronic thermometer set according to an embodiment. As shown in FIG. 5, the electronic thermometer set 41 includes an electronic thermometer 1 and a case 21. The electronic thermometer 1 and the case 21 are configured so that they can be connected to each other so that information can be communicated by wire or wirelessly. Further, the electronic thermometer 1 and the case 21 are configured so as to be able to connect the case 21 to the electronic thermometer 1 so as to be able to supply electric power by contact or non-contact.

As shown in FIG. 5, the electronic thermometer 1 includes a thermometer display unit 7, a thermometer control unit 11, a storage unit 12, a temperature measurement unit 13, a thermometer communication unit 14, a power receiving unit 15, and a thermometer notification unit 16. And a battery 17. Electric power is supplied from the battery 17 to each functional block included in the electronic thermometer 1.

In the present specification, as shown in FIGS. 1 and 2, the major axis direction of the electronic thermometer 1 is the Z axis direction. The positive direction of the Z-axis is the direction toward the tip of the electronic thermometer 1 (that is, the direction toward the end cap 4), and the negative direction of the Z-axis points toward the tail housing 3. In the present specification, the thickness direction of the electronic thermometer 1 is defined as the Y-axis direction. The positive direction of the Y-axis is the front side direction of the electronic thermometer 1. In the present specification, the direction orthogonal to the long axis direction (Z axis direction) and the thickness direction (Y axis direction) of the electronic thermometer 1 is defined as the X axis direction. The X-axis direction is the width direction of the main body housing 2.

The main body housing 2 may be made of an impact-resistant thermoplastic resin such as butylene / styrene resin. The tail housing 3 may be made of an impact-resistant thermoplastic resin such as a high-impact styrene resin. The body housing 2 has an opening on the opposite side of the end cap 4 and is sealed by the tail housing 3. The tail housing 3 is attached to the main body housing 2 by ultrasonic fusion or adhesive. The tail housing 3 may be attached to the main body housing 2 by a fastening member. In this case, the fastening member may be a screwing member such as a bolt or a screw. However, the main body housing 2 is not limited to this configuration. For example, the main body housing 2 may be divided into two in the Z direction (that is, the thermometer display unit 7 side and the bottom surface side opposite to the thermometer display unit 7 side), and they may be fused in the vertical direction. .. In this case, the tail housing 3 is formed at the same time as the main body housing 2.

The end cap 4 protects the temperature measuring unit 13 arranged inside the end cap 4. The temperature measuring unit 13 detects the temperature of the end cap 4. The end cap 4 is configured to be covered with a metal member such as stainless steel so that the body temperature of the person to be measured can be easily conducted to the temperature measuring unit 13. The end cap 4 is a member that comes into contact with the armpit of the person to be measured when the person to be measured sandwiches the electronic thermometer 1 in the armpit and measures the body temperature.

In the present specification, the person to be measured is a person to be measured by using the electronic thermometer 1, and the person to be measured and the like assist the measurement of body temperature by the person to be measured in addition to the person to be measured. Including those who do. For example, the person to be measured includes the family of the person to be measured, a medical worker, and the like.

Referring to FIG. 5 again, the thermometer display unit 7 displays various information based on the control by the thermometer control unit 11. The thermometer display unit 7 is configured to include a display device capable of displaying information. The display device may be, for example, a liquid crystal display (LCD), an organic EL display (OELD: Organic Electro-Luminescence Display), an inorganic EL display (IELD: Inorganic Electro-Luminescence Display), or the like.

The thermometer control unit 11 controls and manages the entire electronic thermometer 1, including each functional unit of the electronic thermometer 1. The thermometer control unit 11 includes at least one processor. The thermometer control unit 11 is composed of a processor such as a CPU (Central Processing Unit) that executes a program defining a control procedure or a dedicated processor specialized in processing each function. Such a program is stored in an external storage medium of the storage unit 12 or the electronic thermometer 1.

In the present embodiment, the thermometer control unit 11 executes the temperature measurement process of the person to be measured based on the temperature detected by the temperature measurement unit 13. Further, the thermometer control unit 11 transmits information regarding the temperature measurement process to the case 21 via the thermometer communication unit 14. The information regarding the temperature measurement process is information related to the temperature measurement process executed by the electronic thermometer 1. The information regarding the temperature measurement process may include, for example, information indicating the progress of the temperature measurement, information indicating that the temperature measurement has been completed, and information regarding the result of the temperature measurement. The information indicating the progress of the temperature measurement is the information indicating the degree of the progress of the temperature measurement. Further, the information regarding the temperature measurement result is the body temperature of the person to be measured calculated from the temperature detected by the electronic thermometer 1 in the temperature measuring unit 13. Details of the processing executed by the thermometer control unit 11 will be described later.

The storage unit 12 can be composed of a semiconductor memory, a magnetic memory, or the like. The storage unit 12 stores, for example, various information, a program for operating the electronic thermometer 1, and the like. The storage unit 12 may also function as a work memory.

The temperature measuring unit 13 detects the temperature of the end cap 4. The temperature measuring unit 13 includes a temperature sensor that detects the temperature. The temperature measuring unit 13 may have the same configuration as the temperature measuring unit in a known electronic thermometer. The temperature measuring unit 13 is configured to be able to output the detected temperature information to the thermometer control unit 11.

The thermometer communication unit 14 transmits / receives information to / from the case 21 which is an external device in a state where the electronic thermometer 1 and the case 21 are connected to each other so that information can be communicated by wire or wirelessly. For example, the thermometer communication unit 14 transmits information regarding the temperature measurement process to the case 21.

The thermometer communication unit 14 may be connected to the case 21 via a network such as the Internet so as to be capable of information communication, or may be connected to the case 21 so as to be capable of information communication according to a specific communication standard. The electronic thermometer 1 and the case 21 may be connected to each other so as to be capable of information communication at all times, or may be connected to each other so as to be capable of information communication under predetermined conditions.

The power receiving unit 15 receives the electric power supplied from the case 21 in a state where the electric thermometer 1 can be supplied with electric power from the case 21 in contact or non-contact. Specifically, the power receiving unit 15 receives power supplied from the power feeding unit 35 included in the case 21, which will be described later. The power receiving unit 15 may be configured to be able to receive electric power from the power feeding unit 35 under predetermined conditions. For example, the power receiving unit 15 may be configured to be able to receive electric power from the power feeding unit 35 while the electronic thermometer 1 is housed in the case 21. In this case, the power receiving unit 15 may be configured so that electric power cannot be received when the electronic thermometer 1 is not housed in the case 21.

The thermometer notification unit 16 notifies the person to be measured and the like of the information. The thermometer notification unit 16 can notify information by sound, vibration, an image, or the like. The thermometer notification unit 16 may include, for example, a speaker, and may notify information by sound. The thermometer notification unit 16 is configured to include, for example, an oscillator, and may notify information by vibration. The thermometer notification unit 16 may be configured to include a thermometer display unit 7. In this case, the thermometer display unit 7 may also function as the thermometer notification unit 16 and notify information by displaying an image. The thermometer notification unit 16 notifies, for example, at least one of the progress of the temperature measurement, the notification of the end of the temperature measurement, and the result of the temperature measurement, as described above.

The case 21 includes a case control unit 31, a storage unit 32, a notification unit 33, a case communication unit 34, a power feeding unit 35, a display unit 23, and an operation input unit 24. Electric power is supplied to each functional block included in the case 21. Power may be supplied from a battery (not shown) provided in the case housing 22. Alternatively, power may be supplied to the case 21 from an external power source via a power cable.

The case control unit 31 controls and manages the entire case 21, including each functional unit of the case 21. The case control unit 31 includes at least one processor. The case control unit 31 is composed of a processor such as a CPU that executes a program defining a control procedure or a dedicated processor specialized in processing each function. Such a program is stored in a storage medium external to the storage unit 32 or the case 21.

In the present embodiment, the case control unit 31 notifies from the notification unit 33 based on the information received from the electronic thermometer 1. For example, the case control unit 31 notifies at least one of the progress of the temperature measurement, the notification of the end of the temperature measurement, and the result of the temperature measurement. The progress of the temperature measurement, the notification of the end of the temperature measurement, and the result of the temperature measurement are the information indicating the progress of the temperature measurement, the information indicating the completion of the temperature measurement, and the information regarding the result of the temperature measurement, which are transmitted by the above-mentioned electronic thermometer 1, respectively. Corresponds to. The case control unit 31 notifies the progress of the temperature measurement based on the information indicating the progress of the temperature measurement, notifies the end notification of the temperature measurement based on the information indicating the end of the temperature measurement, and based on the information regarding the result of the temperature measurement. The result of the temperature measurement is notified.

The case control unit 31 may notify at least one of the progress status of the temperature measurement, the notification of the end of the temperature measurement, and the result of the temperature measurement. In the present embodiment, the case control unit 31 determines the progress status of the temperature measurement and the temperature measurement. It will be described below as a notification of the end of the above and all of the results of the temperature measurement. Details of the processing executed by the case control unit 31 will be described later.

The storage unit 32 can be configured as a semiconductor memory, a magnetic memory, or the like. The storage unit 32 stores, for example, various information, a program for operating the case 21, and the like. The storage unit 32 may also function as a work memory. The storage unit 32 may store, for example, the result of the temperature measurement of the person to be measured received from the electronic thermometer 1. The storage unit 32 can store, for example, the result of the temperature measurement of the person to be measured as a history.

The notification unit 33 notifies the person to be measured and the like of the information. The notification unit 33 can notify information by sound, vibration, an image, or the like. The notification unit 33 may include, for example, a speaker, and may notify information by sound. The notification unit 33 may be configured to include, for example, an oscillator, and may notify information by vibration. The notification unit 33 may be configured to include the display unit 23. In this case, the display unit 23 may also function as the notification unit 33 and notify the information by displaying an image. For example, as described above, the notification unit 33 notifies at least one of the progress of the temperature measurement, the notification of the end of the temperature measurement, and the result of the temperature measurement.

The case communication unit 34 transmits / receives information to / from the electronic thermometer 1 which is an external device in a state where the electronic thermometer 1 and the case 21 are connected by wire or wirelessly so that information communication is possible. For example, the case communication unit 34 receives the information indicating the progress of the temperature measurement, the information indicating that the temperature measurement has been completed, and the information regarding the result of the temperature measurement transmitted by the electronic thermometer 1.

The case communication unit 34 may be connected to the electronic thermometer 1 via a network such as the Internet so as to be capable of information communication, or may be connected to the electronic thermometer 1 so as to be capable of information communication according to a specific communication standard. The thermometer communication unit 14 and the case communication unit 34 are, for example, Bluetooth (registered trademark), infrared rays, NFC (Near Field Communication), wireless LAN (Local Area Network), wired LAN or any other communication medium, or any of these. Communication can be performed by the combination.

The electronic thermometer 1 and the case 21 may be connected to each other by the thermometer communication unit 14 and the case communication unit 34 so as to be capable of information communication at all times, or may be connected to each other so as to be capable of information communication under predetermined conditions. For example, the thermometer communication unit 14 and the case communication unit 34 are in a state in which communication is possible when the electronic thermometer 1 is not housed in the case 21, and are not in a state where the electronic thermometer 1 is housed in the case 21. You can be. As a result, the electronic thermometer 1 and the case 21 can communicate only in a state where the electronic thermometer 1 is taken out from the case 21 and it is assumed that the temperature is measured by the electronic thermometer. As a result, power consumption can be suppressed without communication when it is not necessary, and communication can be performed when necessary.

The power feeding unit 35 supplies electric power to the electronic thermometer 1 in a state where the case 21 is connected to the electronic thermometer 1 so as to be able to supply electric power in contact or non-contact. The power feeding unit 35 supplies electric power to the power receiving unit 15 of the electronic thermometer 1. The power feeding unit 35 may be configured to be able to supply electric power to the power receiving unit 15 under predetermined conditions. For example, the power feeding unit 35 may be configured to be able to supply electric power to the power receiving unit 15 while the electronic thermometer 1 is housed in the case 21. In this case, the power feeding unit 35 may be configured so that the electronic thermometer 1 cannot supply electric power in a state where the accommodation in the case 21 is incomplete.

For example, in the case of contact-type power supply, the electronic thermometer 1 and the case 21 are electrically connected via a contact portion composed of a contact 6 and a corresponding pogo pin 26. A contact 6 and a corresponding pogo pin 26 are provided on the back surface of the electronic thermometer 1 and the accommodating groove 25 of the case 21, respectively. In a state where the electronic thermometer 1 is accommodated in the case 21, the electronic thermometer 1 is provided. When the contact 6 and the movable portion of the pogo pin 26 of the case 21 come into contact with each other, electric power may be supplied from the feeding portion 35 of the case 21 to the power receiving portion 15 of the electronic thermometer 1 via the contact 6 and the pogo pin 26. Further, a pogo pin may be provided on the back surface of the electronic thermometer 1 and a contact may be provided in the accommodating groove 25 of the case 21. However, the method of supplying electric power from the case 21 to the electronic thermometer 1 is not limited to this, and a known electric power supply method may be used.

The display unit 23 displays various information based on the control by the case control unit 31. The display unit 23 is configured to include a display device capable of displaying information. The display device may be, for example, a liquid crystal display (LCD), an organic EL display (OELD: Organic Electro-Luminescence Display), an inorganic EL display (IELD: Inorganic Electro-Luminescence Display), or the like.

The operation input unit 24 receives an operation input from a person to be measured or the like. The operation input unit 24 may be configured by operation buttons, for example, as shown in FIG. 3 as an example. The operation input unit 24 may be configured by, for example, operation keys. Further, the operation input unit 24 may be configured by, for example, a touch screen. The case control unit 31 executes a process based on the operation input to the operation input unit 24.

Next, an example of the temperature measurement process performed by the electronic thermometer set 41 will be described with reference to FIG. It is assumed that the electronic thermometer 1 is housed in the case 21 at the start of the sequence of FIG. At this time, it is assumed that the power of the electronic thermometer 1 and the case 21 is off, and the communication between the electronic thermometer 1 and the case 21 is not established. Here, the state in which the electronic thermometer 1 is off means a state in which the operation of the temperature measuring unit 13, the thermometer communication unit 14, and the thermometer display unit 7 is stopped. At this time, the thermometer control unit 11 maintains the detection operation at the contact unit of the electronic thermometer 1 in order to detect the removal of the electronic thermometer 1 from the case 21, which will be described later, but the operating frequency is lowered and the power consumption is low. It may be in the mode state. Further, the operation of stopping when the electronic thermometer 1 is off may be appropriately selected according to the function realized when the electronic thermometer 1 is housed in the case 21. For example, when the electronic thermometer 1 is off, the thermometer display unit 7 may display the charging state or may display the body temperature measured immediately before. The state in which the case 21 is off means a state in which the operation of the display unit 23 and the case communication unit 34 is stopped. At this time, the case control unit 31 maintains the detection operation at the contact portion of the case 21 in order to detect the removal of the electronic thermometer 1 from the case 21, which will be described later, but the low power consumption mode in which the operating frequency is lowered. May be in the state of. Further, the operation of stopping in the off state may be appropriately selected according to the function realized in the state where the electronic thermometer 1 is housed in the case 21. For example, in the off state, the display unit 23 may display the charging state of the electronic thermometer 1 or may display the body temperature measured immediately before.

When the person to be measured or the like intends to measure the body temperature of the person to be measured by using the electronic thermometer 1, first, the person to be measured takes out the electronic thermometer 1 from the case 21. When the electronic thermometer 1 is taken out from the case 21, the contact portion (contact 6 and the pogo pin 26) is not in contact with each other. When the electronic thermometer 1 detects that the contact 6 is not in contact with the pogo pin 26, the electronic thermometer 1 is turned on (step S1). Further, when the case 21 detects that the pogo pin 26 is not in contact with the contact 6, the case 21 is turned on (step S1). At this time, the contact portion used for detecting the contact state between the contact 6 and the pogo pin 26 may be shared with the contact portion used when performing contact-type power supply, or may be provided separately. good. When the contact unit is shared, the electronic thermometer 1 measures the power receiving current or the power receiving voltage of the power receiving unit 15, and the case 21 measures the power supply current or the power feeding voltage of the power feeding unit 35 to measure the contact 6 and the pogo pin 26. The contact state with can be detected. When the contact portion is separately provided independently, a conventionally known technique can be used. For example, in each contact portion of the thermometer 1 and the case 21, the contact portion of the other party applies the contact portion in advance. By measuring the electrical characteristics (voltage, current, impedance), the contact state between the contact 6 and the pogo pin 26 can be detected. Further, by providing pressure sensors at the contact 6 and the pogo pin 26 of the contact portion, respectively, and measuring the pressure generated by the contact between the contact 6 or the pogo pin 26, the contact state between the contact 6 and the pogo pin 26 can be detected. Further, in the state where the thermometer 1 is housed in the case 21 inside the thermometer housing 10 of the thermometer 1 and inside the case housing 22 of the case 21, the contact portion can detect the magnetic fields of the magnets of the other party. By installing a magnet and a Hall element, the thermometer 1 can detect the state of being housed in the case 21. In this case, the magnet of the contact portion may be the same as the magnet used for adsorption when the thermometer 1 is housed in the case 21.

The electronic thermometer 1 and the case 21 do not necessarily have to be turned on when it detects that the contact 6 and the pogo pin 26 are not in contact with each other. The electronic thermometer 1 and the case 21 may be turned on based on other criteria. For example, the electronic thermometer 1 may be turned on when a predetermined vibration is detected, and when the electronic thermometer 1 is provided with an operation button, the power is supplied when a predetermined input operation to the operation button is detected. May be turned on. Similarly, in the case 21, for example, when a predetermined input operation to the operation input unit 24 is detected, the power may be turned on. Here, the state in which the power is on means that the operation that has been stopped in the state in which the power is off is performed. When the thermometer control unit 11 of the electronic thermometer 1 and the case control unit 31 of the case 21 are in the low power consumption mode when the power is off, switching from the low power consumption mode to the normal mode is defined as the power on state. You may treat it as what you do.

When the power of the electronic thermometer 1 and the case 21 is turned on, communication is established between the electronic thermometer 1 and the case 21 (step S2). As a result, the electronic thermometer 1 and the case 21 are connected to each other so that information can be communicated.

Then, the electronic thermometer 1 starts measuring the temperature of the person to be measured (step S3). When the electronic thermometer 1 detects, for example, a temperature rise of the end cap 4, the electronic thermometer 1 may start the temperature measurement assuming that the electronic thermometer 1 is sandwiched between the armpits of the person to be measured.

While the temperature is being measured, the electronic thermometer 1 transmits information indicating the progress of the temperature measurement to the case 21 via the thermometer communication unit 14 (step S4).

In the case 21, when the information indicating the progress of the temperature measurement is received from the electronic thermometer 1, the notification unit 33 notifies the progress of the temperature measurement (step S5). In the case 21, for example, the progress status can be notified by displaying the progress status of the temperature measurement on the display unit 23. The progress status is, for example, information indicating how much of the time from the start of the temperature measurement to the expected end of the temperature measurement has been completed, or how much of the time remains until the end of the temperature measurement. good. The progress may be the time remaining until the expected end of temperature measurement.

The electronic thermometer 1 and the case 21 repeat steps S4 and S5 until the temperature measurement by the electronic thermometer 1 is completed. During this time, the thermometer display unit 7 of the electronic thermometer 1 may also display the progress of the temperature measurement. In that case, the display contents of the display unit 23 and the thermometer display unit 7 may be the same or different.

When the calculation of the body temperature of the subject is completed, the electronic thermometer 1 ends the temperature measurement (step S6).

Then, the electronic thermometer 1 transmits information indicating that the temperature measurement has been completed to the case 21 via the thermometer communication unit 14 (step S7).

When the case 21 receives the information indicating that the temperature measurement has been completed from the electronic thermometer 1, the notification unit 33 notifies the notification of the end of the temperature measurement (step S8). The person to be measured or the like can recognize that the temperature measurement has been completed by the notification of the notification unit 33.

The electronic thermometer 1 transmits information regarding the temperature measurement result to the case 21 via the thermometer communication unit 14 (step S9).

When the case 21 receives the information regarding the temperature measurement result from the electronic thermometer 1, the notification unit 33 notifies the temperature measurement result (step S10). For example, in the case 21, the body temperature of the person to be measured as a result of the temperature measurement is displayed as a numerical value on the display unit 23, so that the result of the temperature measurement can be notified. The thermometer display unit 7 of the electronic thermometer 1 may also display the body temperature of the subject as a result of the temperature measurement.

When the person to be measured or the like accommodates the electronic thermometer 1 in the case 21, the communication between the electronic thermometer 1 and the case 21 is cut off (step S11). For example, the electronic thermometer 1 and the case 21 may disconnect the communication when it detects that the contact 6 and the pogo pin 26 are in contact with each other.

Further, when the electronic thermometer 1 is housed in the case 21, the electronic thermometer 1 and the case 21 turn off the power (step S12).

Then, the case 21 supplies electric power from the power feeding unit 35 (step S13). The electronic thermometer 1 receives the electric power supplied from the case 21 by the power receiving unit 15, and stores the electric power in the battery 17 provided in the electronic thermometer 1.

FIG. 7 is a flowchart showing a specific example of the process executed by the electronic thermometer 1 in the temperature measurement process described with reference to the sequence of FIG. The flow shown in FIG. 7 is executed by the thermometer control unit 11 of the electronic thermometer 1. At the start of the flow of FIG. 7, it is assumed that the electronic thermometer 1 is housed in the case 21 and the power is off.

First, the thermometer control unit 11 determines whether or not the electronic thermometer 1 has been taken out from the case 21 (step S21). Specifically, the thermometer control unit 11 determines whether or not the contact 6 is in contact with the pogo pin 26.

When the thermometer control unit 11 determines that the electronic thermometer 1 has not been removed from the case 21 (No in step S21), the thermometer control unit 11 repeats step S21 until it determines that the electronic thermometer 1 has been removed from the case 21.

When the thermometer control unit 11 determines that the electronic thermometer 1 has been taken out from the case 21 (Yes in step S21), the thermometer 1 turns on the power of the electronic thermometer 1 (step S22).

Then, the thermometer control unit 11 establishes communication with the case 21 in the thermometer communication unit 14 (step S23).

The thermometer control unit 11 starts temperature measurement when a predetermined condition is satisfied. The predetermined conditions for starting the temperature measurement and the temperature measurement method may be the same as those of a conventionally known electronic thermometer. For example, the thermometer control unit 11 determines whether or not the temperature rise of the end cap 4 is detected (step S24). Specifically, the thermometer control unit 11 determines whether or not the temperature acquired from the temperature measurement unit 13 has risen. The thermometer control unit 11 can determine that, for example, when the temperature acquired from the temperature measurement unit 13 rises by a preset predetermined temperature or more, the temperature rise is detected.

When the thermometer control unit 11 determines that the temperature rise of the end cap 4 has not been detected (No in step S24), the thermometer control unit 11 repeats step S24 until it determines that the temperature rise of the end cap 4 has been detected.

When the thermometer control unit 11 determines that the temperature rise of the end cap 4 is detected (Yes in step S24), the thermometer control unit 11 starts the temperature measurement of the person to be measured (step S25).

When the thermometer control unit 11 starts the temperature measurement of the person to be measured in step S25, the thermometer communication unit 14 transmits information indicating the progress of the temperature measurement to the case 21 (step S26). In case 21, the progress of the temperature measurement is notified based on the information indicating the progress of the temperature measurement transmitted from the electronic thermometer 1.

Then, the thermometer control unit 11 determines whether or not the temperature measurement of the subject has been completed (step S27). The criteria for determining whether or not the temperature measurement has been completed can be appropriately determined depending on whether the predicted temperature measurement or the actual measurement temperature measurement is performed. When the predicted temperature is measured, the thermometer control unit 11 can determine that the temperature measurement is completed when the predicted body temperature of the subject is established. The case where the body temperature of the person to be measured is predicted means the case where it is determined that the body temperature of the person to be measured can be predicted with an accuracy higher than a predetermined value. Specifically, a conventionally known method of predictive temperature measurement can be used. can. When the actual temperature measurement is performed, the thermometer control unit 11 can determine that the actual temperature measurement has been completed when a temperature drop is observed after a predetermined time (for example, 4 minutes) has elapsed from the start of the temperature measurement. In this case, the measured temperature measurement result is the maximum temperature observed by the thermometer control unit 11 during a predetermined time from the start of the temperature measurement. Alternatively, the thermometer control unit 11 may determine that the temperature measurement has been completed when it is determined that the temperature acquired from the temperature measurement unit 13 has not changed for a certain period of time and has reached equilibrium in the actual temperature measurement.

When the thermometer control unit 11 determines that the temperature measurement of the subject has not been completed (No in step S27), the thermometer control unit 11 proceeds to step S26 and continues the temperature measurement of the subject.

When the thermometer control unit 11 determines that the temperature measurement of the subject has been completed (Yes in step S27), the thermometer control unit 11 ends the temperature measurement and transmits information indicating that the temperature measurement has been completed from the thermometer communication unit 14 to the case 21. (Step S28). In the case 21, the notification of the end of the temperature measurement is notified based on the information transmitted from the electronic thermometer 1 indicating that the temperature measurement has been completed.

Then, the thermometer control unit 11 transmits information regarding the temperature measurement result from the thermometer communication unit 14 to the case 21 (step S29). In case 21, the temperature measurement result is notified based on the information regarding the temperature measurement result transmitted from the electronic thermometer 1.

Next, the thermometer control unit 11 determines whether or not the electronic thermometer 1 is housed in the case 21 (step S30). Specifically, the thermometer control unit 11 determines whether or not the contact 6 is in the correct contact with the pogo pin 26.

When the thermometer control unit 11 determines that the electronic thermometer 1 is not housed in the case 21 (No in step S30), the thermometer control unit 11 repeats step S30 until it is determined that the electronic thermometer 1 is housed in the case 21.

When the thermometer control unit 11 determines that the electronic thermometer 1 is housed in the case 21 (Yes in step S30), the thermometer control unit 11 disconnects the communication with the case 21 via the thermometer communication unit 14 (step S31).

Further, the thermometer control unit 11 turns off the power of the electronic thermometer 1 (step S32).

The thermometer control unit 11 receives power by receiving power supplied from the power supply unit 35 of the case 21 from the power receiving unit 15 (step S33). The thermometer control unit 11 stores the supplied electric power in the battery 17 in the electronic thermometer 1.

FIG. 8 is a flowchart showing a specific example of the process executed by the case 21 in the temperature measurement process described with reference to the sequence of FIG. The flow shown in FIG. 8 is executed by the case control unit 31 of the case 21. At the start of the flow of FIG. 8, it is assumed that the electronic thermometer 1 is housed in the case 21 and the power of the case 21 is off.

First, the case control unit 31 determines whether or not the electronic thermometer 1 has been taken out from the case 21 (step S41). Specifically, the case control unit 31 determines whether or not the pogo pin 26 is in contact with the contact 6.

When the case control unit 31 determines that the electronic thermometer 1 has not been removed from the case 21 (No in step S41), the case control unit 31 repeats step S41 until it determines that the electronic thermometer 1 has been removed from the case 21.

When the case control unit 31 determines that the electronic thermometer 1 has been taken out from the case 21 (Yes in step S41), the case control unit 31 turns on the power of the case 21 (step S42).

Then, the thermometer control unit 11 establishes communication with the case 21 in the thermometer communication unit 14 (step S43).

After that, when the electronic thermometer 1 starts the temperature measurement, the electronic thermometer 1 transmits information indicating the progress of the temperature measurement. The case control unit 31 determines whether or not information indicating the progress of temperature measurement has been received from the electronic thermometer 1 via the case communication unit 34 (step S44).

When the case control unit 31 determines that the information indicating the progress status of the temperature measurement has been received (Yes in step S44), the case control unit 31 notifies the progress status of the temperature measurement from the notification unit 33 based on the information indicating the progress status of the received temperature measurement. (Step S45). Then, the process proceeds to step S46.

When the case control unit 31 determines that the information indicating the progress of the temperature measurement has not been received (No in step S44), the case control unit 31 proceeds to step S46 without executing step S45.

The case control unit 31 determines whether or not information indicating that the temperature measurement has been completed has been received from the electronic thermometer 1 via the case communication unit 34 (step S46). When the temperature measurement is completed in the electronic thermometer 1, information indicating that the temperature measurement is completed is transmitted from the electronic thermometer 1.

When the case control unit 31 determines that the information indicating that the temperature measurement has been completed has not been received (No in step S46), the process proceeds to step S44.

When the case control unit 31 determines that the information indicating that the temperature measurement has been completed has been received (Yes in step S46), the case control unit 31 notifies the notification unit 33 of the end of the temperature measurement based on the information indicating that the temperature measurement has been completed. (Step S47).

The case control unit 31 determines whether or not information regarding the temperature measurement result has been received from the electronic thermometer 1 via the case communication unit 34 (step S48). When the temperature measurement is completed in the electronic thermometer 1, the electronic thermometer 1 transmits information regarding the temperature measurement result.

When the case control unit 31 determines that the information regarding the temperature measurement result has not been received (No in step S48), the case control unit 31 repeats step S48 until it is determined that the information regarding the temperature measurement result has been received.

When the case control unit 31 determines that the information regarding the temperature measurement result has been received (Yes in step S48), the case control unit 31 notifies the temperature measurement result from the notification unit 33 based on the information regarding the temperature measurement result (step S49).

Next, the case control unit 31 determines whether or not the electronic thermometer 1 is housed in the case 21 (step S50). Specifically, the case control unit 31 determines whether or not the contact unit is in contact with the contact, that is, whether the pogo pin 26 is in contact with the contact 6.

When the case control unit 31 determines that the electronic thermometer 1 is not housed in the case 21 (No in step S50), the case control unit 31 repeats step S50 until it is determined that the electronic thermometer 1 is housed in the case 21.

When the case control unit 31 determines that the electronic thermometer 1 is housed in the case 21 (Yes in step S50), the case control unit 31 disconnects the communication with the electronic thermometer 1 via the case communication unit 34 (step S51).

Further, the case control unit 31 turns off the power of the case 21 (step S52).

The case control unit 31 supplies electric power from the power supply unit 35 to the electronic thermometer 1 (step S53). In this way, power is supplied from the case 21 to the electronic thermometer 1 in a state where the electronic thermometer 1 is housed in the case 21.

As described above, in the electronic thermometer set 41 according to the present embodiment, the electronic thermometer 1 measures the temperature of the person to be measured and transmits information regarding the temperature measurement process to the case 21. In the case 21, notification is performed from the notification unit 33 based on the received information regarding the temperature measurement processing. When the electronic thermometer 1 performs notification independently, the person to be measured or the like obtains information due to restrictions on the size of the thermometer display unit 7 that can be mounted on the electronic thermometer 1, restrictions on the power that can be supplied to the notification unit 33, and the like. May be difficult to recognize. However, as in the present embodiment, when the notification unit 33 of the case 21 performs notification, these restrictions are relaxed, and the information can be notified in a manner that is easier for the person to be measured or the like to recognize. In this way, the electronic thermometer set 41 can improve or supplement its function as compared with the case where the electronic thermometer 1 is used alone.

In the above embodiment, it has been described that the electronic thermometer 1 includes the thermometer display unit 7, but the form of the electronic thermometer 1 is not limited to this. The electronic thermometer 1 can also be implemented as a form that does not include the thermometer display unit 7.

As described above, when the electronic thermometer 1 does not include the thermometer display unit 7, the electronic thermometer 1 measures the temperature of the person to be measured and transmits information regarding the temperature measurement process to the case 21. In the case 21, notification is performed from the notification unit 33 based on the received information regarding the temperature measurement process. Therefore, in the electronic thermometer set 41, when the electronic thermometer 1 does not have the thermometer display unit 7, the electronic thermometer 1 does not give a notification, so that the electronic thermometer 1 has a mechanism (notification unit including a display) for making a notification. Either not, or the notification buzzer can be omitted. As a result, the electric power consumed by the electronic thermometer 1 is smaller than that in the case where the electronic thermometer 1 has a notification unit. That is, the electronic thermometer 1 can be operated with a smaller battery. As described above, since the electronic thermometer 1 does not need to be provided with a notification unit, a small battery can be used. Therefore, the electronic thermometer 1 can be miniaturized. On the other hand, as compared with the case where the electronic thermometer 1 performs the notification by the case 21 (when the electronic thermometer 1 includes the thermometer display unit 7), for example, the notification is performed by sound at a louder volume. , It becomes easier to display using a larger display device. As a result, the notification can be performed in a manner that is easier for the person to be measured or the like to recognize. In this way, the electronic thermometer set 41 can improve or supplement its function as compared with the case where the electronic thermometer 1 is used alone.

In the above embodiment, it has been described that the case 21 is communicably connected to the electronic thermometer 1, but the case 21 may be communicably connected to another external device. For example, as shown as a schematic diagram in FIG. 9, the case 21 may be communicably connected to another external device 51. The external device 51 is composed of, for example, a smartphone, a tablet, a computer, or the like. The case 21 may be communicably connected to the external device 51 from the case communication unit 34 via the network. The case 21 may be connected to the external device 51, for example, based on a predetermined input operation to the operation input unit 24 by the person to be measured or the like. The case 21 transmits, for example, data of the history of the temperature measurement result of the person to be measured stored in the storage unit 32 to the external device 51 in a state of being connected to the external device 51. As a result, the history of the temperature measurement result can be viewed on the external device 51.

The electronic thermometer set 41 according to the present disclosure is not limited to the configuration specified in the above-described embodiment, and can be variously modified without departing from the gist of the invention described in the claims. For example, the functions included in each component and each step can be rearranged so as not to be logically inconsistent, and a plurality of components or steps can be combined or divided into one. Is.

The present invention relates to an electronic thermometer set and an information processing method.

1: Electronic thermometer 2: Body housing 3: Tail housing 4: End cap 6: Contact 7: Thermometer display 8: Internal structure 10: Thermometer housing 11: Thermometer control unit 12, 32: Storage unit 13: Temperature measurement unit 14 : Thermometer communication unit 15: Power receiving unit 16: Thermometer notification unit 17: Battery 21: Case 22: Case housing 23: Display unit 24: Operation input unit 25: Accommodating groove 26: Pogopin 31: Case control unit 33: Notification unit 34 : Case communication unit 35: Power supply unit 41: Electronic thermometer set 51: External device

Claims (7)

An electronic thermometer set including an electronic thermometer and a case capable of accommodating the electronic thermometer.
The electronic thermometer is
A temperature measuring unit that detects the temperature of the end cap,
A thermometer control unit that executes temperature measurement processing for the subject based on the temperature detected by the temperature measurement unit, and
A thermometer communication unit that sends information about the temperature measurement process to the case,
Equipped with
The case is
A case communication unit that receives the information from the electronic thermometer,
A notification unit that performs notification based on the received information, and
Equipped with an electronic thermometer set. The electronic thermometer set according to claim 1, wherein the notification unit includes a display unit that displays information. The electronic thermometer set according to claim 1 or 2, wherein the notification unit notifies at least one of the progress of the temperature measurement, the notification of the end of the temperature measurement, and the result of the temperature measurement. The thermometer communication unit and the case communication unit are in a state where communication is possible when the electronic thermometer is not housed in the case, and are in a state where communication is not possible when the electronic thermometer is housed in the case. The electronic thermometer set according to any one of claims 1 to 3. The case further comprises a power feeding unit that supplies power to the electronic thermometer.
The electronic thermometer further includes a power receiving unit that receives electric power supplied from the power feeding unit.
The electronic thermometer set according to any one of claims 1 to 4. The electronic thermometer set according to claim 5, wherein power is supplied from the power feeding unit to the power receiving unit in a state where the electronic thermometer is housed in the case. An information processing method performed by an electronic thermometer set including an electronic thermometer and a case capable of accommodating the electronic thermometer.
The step that the electronic thermometer detects the temperature of the end cap,
A step in which the electronic thermometer executes a temperature measurement process of the subject based on the detected temperature.
A step in which the electronic thermometer transmits information regarding the temperature measurement process to the case.
When the case receives the information from the electronic thermometer,
The step in which the case performs notification based on the received information,
Information processing methods, including.

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