JP2019003373A - Information terminal device - Google Patents

Abstract

To provide an information terminal device capable of performing temperature-based control with high precision, irrespective of the device form.SOLUTION: An information terminal device 1 includes temperature sensors 24, 32 disposed in the device, a control unit 101 that performs predetermined temperature-based control, a form detection unit (attachment/detachment detection unit 106, setting detection unit 107) for detecting the device body form which is a cause of variation of the temperatures detected by the temperature sensors 24, 32, and a storage unit 102 that stores, for each form of the information terminal device 1, adjustment information for suppressing, during control, variation in form generated at the temperatures detected by the temperature sensors 24, 32. The control unit 101 performs temperature-based control on the basis of the temperatures detected by the temperature sensors 24, 32 and the adjustment information corresponding to the form detected by the form detection unit (attachment/detachment detection unit 106, setting detection unit 107).SELECTED DRAWING: Figure 6

Description

  The present invention relates to an information terminal device that can be used in various forms.

  In an information terminal device such as a tablet terminal, various controls can be executed based on the temperature inside the device. For example, when the temperature inside the apparatus exceeds a predetermined threshold value and becomes a high temperature, it may be controlled that the operation of the system is stopped because the internal temperature is abnormal. Patent Document 1 below describes correcting the detection voltage of a battery according to the ambient temperature.

Japanese Patent Laid-Open No. 10-289037

  In the information terminal device configured as described above, a temperature sensor is disposed at a predetermined position inside the device in order to execute control according to temperature. However, in a portable information terminal device, the device can be used in various installation forms such as a state where the device is set up or a state where the device is laid down. In addition, when the battery is detachable, the information terminal device may be used with the battery removed. Thus, when the form of the apparatus changes, the air flow or the like inside the apparatus changes, and the temperature around the temperature sensor may vary. For this reason, it becomes difficult to perform temperature control with high accuracy for all forms.

  In view of such a problem, an object of the present invention is to provide an information terminal device capable of performing control based on temperature with high accuracy regardless of the form of the device.

  An information terminal device according to a main aspect of the present invention includes a temperature sensor disposed at a predetermined position inside the device, a control unit that executes predetermined control based on temperature, and a variation factor of temperature detected by the temperature sensor. A form detection unit for detecting the form of the apparatus main body, and a storage unit storing adjustment information for suppressing changes in the form that occur in the temperature detected by the temperature sensor in the control for each form. . Here, the said control part performs the said control based on the said temperature detected by the said temperature sensor, and the said adjustment information corresponding to the said form detected by the said form detection part.

  According to the information terminal device according to this aspect, since the control based on the temperature is performed using the adjustment information corresponding to the form of the apparatus main body, even when the detected temperature of the temperature sensor varies between the forms of the apparatus main body, Control can be performed with high accuracy. Therefore, control based on temperature can be performed with high accuracy regardless of the form of the apparatus.

  In the information terminal device according to this aspect, for example, the control unit may be configured to execute a process of comparing the temperature detected by the temperature sensor with a predetermined threshold in the control. In this case, the control unit may be configured to set the threshold based on the adjustment information corresponding to the form detected by the form detection unit. In this case, it is not necessary to correct the temperature detected at any time, so that the control process can be simplified. In this case, the adjustment information may be the threshold value itself applied in each form, or a correction value for correcting the reference threshold value according to the form (for example, a coefficient that is multiplied by the reference threshold value). It may be.

  Further, in the information terminal device according to this aspect, the control unit corrects the temperature detected by the temperature sensor based on the adjustment information corresponding to the form detected by the form detection unit, and after the correction The control may be configured to execute the control based on the temperature. In this case, the adjustment information may be, for example, a correction function or a correction table for correcting the temperature detected by the temperature sensor in each embodiment.

  In the information terminal device according to this aspect, the control unit performs system operation due to temperature abnormality based on the temperature detected by the temperature sensor and the adjustment information corresponding to the form detected by the form detection unit. May be configured to perform control to stop the operation. Thus, the system operation based on the temperature abnormality can be stopped appropriately and accurately regardless of the configuration of the apparatus.

  In the information terminal device according to this aspect, the form detection unit detects an installation form of the apparatus main body as a form of the apparatus main body that is a variation factor of the temperature detected by the temperature sensor, and the storage unit The adjustment information is stored for each installation form, and the control unit is based on the temperature detected by the temperature sensor and the adjustment information corresponding to the installation form detected by the form detection unit. And may be configured to perform the control. According to this configuration, even when the temperature detected by the temperature sensor varies between installation forms of the apparatus main body, control based on temperature can be performed with high accuracy. Therefore, control by temperature can be performed with high accuracy regardless of the form of the apparatus.

  The information terminal device according to this aspect may include a battery for supplying power. In this case, the temperature sensor is disposed in the vicinity of the installation position of the battery, and the control unit includes the temperature detected by the temperature sensor and the adjustment information corresponding to the form detected by the form detection unit. The battery may be configured to perform charge and discharge control on the battery. In this way, charging and discharging control based on the temperature of the battery can be performed appropriately and accurately regardless of the installation form of the apparatus.

  Further, in the information terminal device according to this aspect, when the battery is detachable, the form detection unit is configured as a form of the apparatus main body that causes the temperature variation detected by the temperature sensor. Whether the battery is mounted is detected, the storage unit stores the adjustment information for each battery mounted, and the control unit detects the temperature detected by the temperature sensor and the form detection The control may be executed based on the adjustment information corresponding to the presence or absence of the battery detected by the unit. When the battery is detachable as described above, the volume of the battery occupies the volume of the apparatus main body. Therefore, when the battery is removed from the apparatus main body, air convection, heat capacity, heat conduction, and the like inside the apparatus main body change greatly. . For this reason, large fluctuations may occur in the temperature detected by the temperature sensor between when the battery is in the attached state and when it is not in the attached state. Therefore, as described above, adjustment information is prepared for each battery attachment / non-installation, and control based on temperature is executed based on this adjustment information, so that control based on temperature can be performed regardless of battery attachment / non-installation. It can be performed appropriately and with high accuracy.

  In this case, the temperature sensor is disposed at a position other than the battery, and the control unit corresponds to the temperature detected by the temperature sensor and the presence or absence of the battery detected by the form detection unit. Control other than the control of the battery may be performed based on the adjustment information. Thus, control based on temperature other than control of the battery can be appropriately performed.

  As described above, according to the present invention, it is possible to provide an information terminal device capable of performing control based on temperature with high accuracy regardless of the configuration of the device.

  The effects and significance of the present invention will become more apparent from the following description of embodiments. However, the embodiment described below is merely an example when the present invention is implemented, and the present invention is not limited to what is described in the following embodiment.

FIG. 1 is a perspective view showing the configuration of the information terminal device according to the embodiment. FIGS. 2A and 2B are a front view and a rear view, respectively, showing the configuration of the information terminal device according to the embodiment. FIG. 3A is a diagram of the information terminal device in a state in which the lid according to the embodiment is removed as viewed from the back side. FIG. 3B is a diagram schematically illustrating a configuration of a battery attached to the information terminal device according to the embodiment. FIG. 4 is a diagram schematically illustrating an internal configuration when the information terminal device according to the embodiment is seen through from the side. FIG. 5A and FIG. 5B are side views showing an installation mode of the information terminal device according to the embodiment. FIG. 6 is a block diagram illustrating a configuration of the information terminal device according to the embodiment. FIGS. 7A and 7B are diagrams schematically illustrating the flow of airflow in each installation mode of the information terminal device according to the embodiment. FIG. 8A is a table showing rules for specifying adjustment information and temperature sensors in control other than battery charge / discharge according to the embodiment. FIG. 8B is a table showing rules for specifying adjustment information in charge / discharge control of a battery according to the embodiment. FIG. 8C is a diagram illustrating specific contents of the adjustment information according to the embodiment. FIG. 9 is a flowchart showing charge control according to the embodiment. FIG. 10 is a flowchart showing the discharge control according to the embodiment. FIG. 11 is a flowchart illustrating abnormal temperature monitoring control according to the embodiment. 12A and 12B are diagrams each showing a specific configuration of the adjustment information according to the modification example.

  In the embodiment described below, the present invention is applied to an information terminal device used as an input terminal of a karaoke device. In addition, this invention is applicable also to various information terminal devices other than the input terminal of a karaoke apparatus.

  Embodiments of the present invention will be described below with reference to the drawings. In each figure, XYZ axes orthogonal to each other are shown as appropriate. The X-axis positive direction and the Y-axis positive direction are the right direction and the upward direction of the information terminal device, respectively, and the Z-axis positive direction is the depth direction of the information terminal device.

  1 is a perspective view showing the configuration of the information terminal device 1, and FIGS. 2A and 2B are a front view and a rear view showing the configuration of the information terminal device 1, respectively.

  As shown in FIGS. 1 and 2 (a) and 2 (b), the information terminal device 1 includes a housing 11 constituting a device main body, a pair of legs 12, a display input unit 13, an indicator 14, A battery housing 15 and a lid 16 are provided.

  The casing 11 has a rectangular parallelepiped shape with rounded corners. A pair of legs 12 are provided at the lower back of the housing 11. Each of the pair of leg portions 12 has a shape in which a cross section cut along a plane parallel to the YZ plane has rounded corners of a triangle. The pair of leg portions 12 are arranged so as to be aligned in the X-axis direction at a predetermined interval. The information terminal device 1 can be installed in an upright state by bringing the Y-axis negative side surfaces of the pair of legs 12 into contact with the installation surface. FIG. 1 shows the installation form at this time.

  A display input unit 13 is provided on the front surface of the housing 11. As will be described later, the display input unit 13 is configured by overlapping a transparent touch pad 13b on the upper surface of the liquid crystal panel 13a. The touch pad 13b is, for example, a capacitive touch pad. The user can make a selection input for an icon or the like displayed on the display input unit 13 by touching the display input unit 13 with a finger or the like.

  Further, an indicator 14 is provided at the upper front of the housing 11. The indicator 14 is for displaying the state of charge of the battery and the abnormality of the device. For example, when the battery is fully charged, the indicator 14 is lit green, and when the battery is being charged, the indicator 14 blinks orange. Further, when the system detects an abnormality, the indicator 14 blinks in red, and the indicator 14 does not light up when the battery is not attached or when the power is OFF.

  The battery accommodating portion 15 is for accommodating a battery 20 described later. The battery accommodating portion 15 is a recess that can accommodate the battery 20. The battery housing 15 is closed by a removable lid 16.

  In addition, a connector (not shown) for supplying power by an adapter is provided on the lower surface of the housing 11. By inserting a plug of an adapter connected to a commercial power source into this connector, power is supplied to the information terminal device 1. Furthermore, a connector that is connected to the connector of the charging base by providing the information terminal device 1 on the charging base is provided on the lower surface of the housing 11. By installing the information terminal device 1 on a charging stand connected to a commercial power source, the battery 20 is charged. The battery 20 can be charged even when commercial power is supplied from the adapter.

  FIG. 3A is a view of the information terminal device 1 with the lid 16 removed as viewed from the back side. In FIG. 3A, the circuit board 30 disposed inside the housing 11 together with the battery 20 accommodated in the battery accommodating portion 15 is indicated by a one-dot chain line.

  As shown in FIG. 3A, a part of the circuit board 30 on the negative side of the Y axis is hung on the area of the battery housing portion 15. A connector 31 connected to a connector 23 of the battery 20 to be described later is disposed on this portion of the circuit board 30. By attaching the battery 20 to the battery housing 15, the connector 23 of the battery 20 and the connector 31 of the circuit board 30 are electrically connected.

  FIG. 3B is a diagram schematically illustrating the configuration of the battery 20. FIG. 3B shows a state in which the surface on the Z-axis positive side of the casing constituting the battery body is removed.

  The battery 20 includes four battery cells 21 that can be charged, and a circuit board 22 that is electrically connected to the battery cells 21. The above-described connector 23 is installed on the circuit board 22. Further, a temperature sensor 24 for detecting the temperature of the battery 20 is disposed on the circuit board 22 together with a protection circuit and the like.

  As shown in FIG. 3A, a temperature sensor 32 is also disposed on the circuit board 30. In a state where the battery 20 is removed from the information terminal device 1, control based on temperature is performed using the temperature sensor 32. The control based on the temperature will be described later with reference to FIGS.

  FIG. 4 is a diagram schematically showing an internal configuration when the information terminal device 1 with the battery 20 attached is viewed from the side.

  As shown in FIG. 4, a transparent touch pad 13b for detecting touch input is disposed on the front surface of the housing 11, and a liquid crystal panel 13a for displaying a music selection screen or the like is disposed on the rear surface side. . The display input unit 13 shown in FIG. 1 is configured by overlapping the touch pad 13b on the front surface of the liquid crystal panel 13a. Furthermore, the circuit board 30 is disposed on the back side of the liquid crystal panel 13a, and the battery 20 is disposed on the back side.

  As described above, the temperature sensor 24 is installed on the circuit board 22 disposed near the end of the battery 20 on the positive side of the Y axis. For this reason, in a state where the battery 20 is attached to the information terminal device 1, the temperature sensor 24 is disposed near the position where the battery 20 and the circuit board 30 overlap. As described above, since the temperature sensor 24 is disposed at the position of the battery 20 on the circuit board 30 side, the temperature sensor 24 is easily affected by heat from the circuit unit installed on the circuit board 30. For this reason, it is preferable that the circuit part that can be a heat source among the circuit parts arranged on the circuit board 30 is arranged as far as possible from the temperature sensor 24.

  FIGS. 5A and 5B are side views showing an installation mode of the information terminal device 1.

  The information terminal device 1 can be installed on the installation surface S10 in two installation forms: vertical installation shown in FIG. 5A and horizontal installation shown in FIG. 5B. The vertical installation shown in FIG. 5A is the same as the installation form shown in FIG. The horizontal installation in FIG. 5B is an installation form in which the tops of the pair of legs 12 and the Y-axis positive side end of the rear surface of the housing 11 are brought into contact with the installation surface S10. The user can smoothly perform touch input with respect to the display input unit 13 regardless of the installation mode of vertical installation or horizontal installation.

  FIG. 6 is a block diagram illustrating a configuration of the information terminal device 1. In the configuration of FIG. 6, the attachment / detachment detection unit 106 and the installation detection unit 107 correspond to a “form detection unit” recited in the claims.

  As shown in FIG. 6, the information terminal device 1 includes a control unit 101, a storage unit 102, a communication unit 103, in addition to the liquid crystal panel 13a, the touch pad 13b, the battery 20, and the temperature sensors 24 and 32 described above. A power supply unit 104, a charge / discharge control unit 105, an attachment / detachment detection unit 106, and an installation detection unit 107 are provided.

  The control unit 101 includes an arithmetic processing circuit such as a CPU (Central Processing Unit) and controls each unit according to a program stored in the storage unit 102. Based on the temperature detected by the temperature sensors 24 and 32, the control unit 101 executes control based on the temperature described later. In addition, the control unit 101 includes a clock for acquiring elapsed time and the like.

  The storage unit 102 includes a storage medium such as a ROM (Read Only Memory) or a RAM (Random Access Memory), and stores the above-described program for controlling each unit. Furthermore, the storage unit 102 stores information necessary for executing control based on temperature, such as an adjustment information table (see FIG. 8C) described later.

  The communication unit 103 communicates with the karaoke apparatus main body under the control of the control unit 101. The communication method in the communication unit 103 may be wireless or wired.

  The power supply unit 104 supplies power stored in the battery 20 or power from an external power supply (commercial power supply) to the liquid crystal panel 13 a, the touch pad 13 b, and each circuit unit on the circuit board 30. Further, the power supply unit 104 supplies power from the external power source to the charge / discharge control unit 105 during the charging operation for the battery 20. When the information terminal device 1 is set on the charging stand, the power supplied to the power supply unit 104 via the charging stand is supplied to the charge / discharge control unit 105. In the state where the information terminal device 1 is not set on the charging stand, when a power supply adapter is connected to the information terminal device 1, the power supplied to the power supply unit 104 via the adapter is the charge / discharge control unit 105. To be supplied.

  The charge / discharge control unit 105 controls charging and discharging of the battery 20 in accordance with control from the control unit 101. In the charge control, the charge / discharge control unit 105 charges the battery 20 using the power supplied from the power supply unit 104. In the discharge control, the charge / discharge control unit 105 supplies the power stored in the battery 20 to the power supply unit 104. The charge control and discharge control performed by the charge / discharge control unit 105 will be described later with reference to FIGS. 9 and 10.

  The attachment / detachment detection unit 106 detects attachment / detachment of the battery 20 with respect to the information terminal device 1. The attachment / detachment detection unit 106 detects attachment / detachment of the battery 20 based on, for example, whether or not the connector 31 on the circuit board 30 side and the connector 23 on the battery 20 side are electrically connected. In addition, a switch that switches ON / OFF according to the attachment / detachment of the battery 20 with respect to the battery housing 15 may be disposed in the battery housing 15. In this case, the attachment / detachment detection unit 106 detects attachment / detachment of the battery 20 with respect to the information terminal device 1 based on the state of the switch.

  The installation detection unit 107 detects whether the information terminal device 1 is installed in a vertical installation or a horizontal installation. The installation detection unit 107 acquires an inclination angle of the information terminal device 1 with respect to a predetermined reference position (for example, a position where the front surface of the information terminal device 1 is parallel to the horizontal plane) using a sensor such as an acceleration sensor or a gyro sensor. . The installation detection unit 107 detects the installation form of the information terminal device 1 depending on whether the acquired inclination angle is included in a range of inclination angles of vertical installation and horizontal installation. In addition, when the information terminal device 1 is set on the charging stand, the installation form of the information terminal device 1 is vertical installation.

  Note that a switch (mechanical switch, photocoupler, or the like) that operates in each of the vertical installation mode and the horizontal installation mode may be provided in the casing 11 or the leg portion 12. In this case, the installation detection unit 107 detects the installation form of the information terminal device 1 based on the state of the switch.

  By the way, when the information terminal device 1 can be used in the two installation forms of the vertical installation and the horizontal installation as described above, the flow of the airflow inside the apparatus changes in each installation form, and the temperature around the temperature sensor 24 is changed. It is possible that fluctuations will occur.

  FIGS. 7A and 7B are diagrams schematically showing the flow of airflow in each installation mode of the information terminal device 1. 7A and 7B schematically show a state where the information terminal device 1 is seen through from the X axis positive side. In FIGS. 7A and 7B, the flow of air is indicated by broken-line arrows.

  In the present embodiment, the power supply unit 104 can be a heat source among the components shown in FIG. For this reason, in order to suppress the thermal influence on the temperature sensor 24 disposed in the battery 20, the power supply unit 104 is separated from the temperature sensor 24 as much as possible as shown in FIGS. 7 (a) and 7 (b). It is arranged at the position.

  Here, in the vertical installation shown in FIG. 7A, air enters the housing 11 from the gap or vent hole on the Y axis negative side of the housing 11 as the air heated in the housing 11 rises. The intruded air passes through the battery 20 and the circuit board 30 and is sent out from the gap on the Y axis positive side of the housing 11 and the vent hole. In this case, the air passing through the vicinity of the temperature sensor 24 has not yet passed through the power supply unit 104 that is a heat source.

  On the other hand, in the horizontal installation shown in FIG. 7B, air enters the housing 11 from the gap or vent on the positive side of the Y axis of the housing 11, and the air that has entered the circuit board 30 and the battery 20. It passes through the gap on the negative side of the Y-axis of the housing 11 and the vent hole. In this case, the air passing through the vicinity of the temperature sensor 24 has already passed through the power supply unit 104 that is a heat source, and thus the temperature has increased greatly since entering the housing 11.

  Thus, the temperature of the air passing through the vicinity of the temperature sensor 24 differs greatly between the vertical installation shown in FIG. 7A and the horizontal installation shown in FIG. 7B. For this reason, a difference occurs in the temperature around the temperature sensor 24 between these two installation forms, and the difference in temperature detected by the temperature sensor 24 occurs due to this difference.

  Therefore, if the control based on the temperature executed by the control unit 101 is programmed to correspond to one of the installation forms, the information terminal device 1 is installed based on the temperature when the information terminal apparatus 1 is installed in the other installation form. Control cannot be performed with high accuracy.

  Therefore, in the present embodiment, adjustment information for suppressing fluctuations between the installation modes that occur in the temperature detected by the temperature sensor 24 in the control in the control unit 101 is stored in the storage unit 102 for each installation mode. And the control part 101 performs control based on temperature based on the temperature detected by the temperature sensor 24, and the adjustment information corresponding to the installation form detected by the installation detection part 107.

  In addition, since the volume of the battery 20 occupying the volume inside the housing 11 is large, depending on whether or not the battery 20 is mounted, the flow of airflow inside the housing 11 and the heat capacity and heat conduction inside the housing 11 are large. It can change. For this reason, the temperature detected by the temperature sensor 32 on the circuit board 30 side shown in FIG. 3A may vary depending on whether or not the battery 20 is attached.

  Therefore, in the present embodiment, the adjustment information for suppressing the fluctuation that occurs in the temperature detected by the temperature sensor 32 depending on whether or not the battery 20 is mounted in the control in the control unit 101 is stored in each storage unit. 102. And the control part 101 performs control based on temperature based on the temperature detected by the temperature sensor 32, and the adjustment information corresponding to the presence or absence of the battery 20 detected by the attachment / detachment detection part 106.

  If there is a factor that fluctuates the detected temperature of the temperature sensors 24 and 32 other than the installation mode and the presence or absence of the battery, adjustment information that further considers this factor may be added.

  Hereinafter, the contents of the adjustment information stored in the storage unit 102 and the control by the control unit 101 using the adjustment information will be described.

  FIG. 8A is a table showing adjustment information and a rule for specifying a temperature sensor in control other than charging / discharging of the battery 20. In the present embodiment, control other than charging / discharging of the battery 20 is assumed to be control (hereinafter referred to as “abnormal temperature monitoring control”) that stops the system operation when the temperature inside the apparatus becomes abnormally high. .

  In the table of FIG. 8A, the item “Battery” is set to “Yes” when the battery 20 is attached to the information terminal device 1, and when the battery 20 is not attached to the information terminal device 1. “None”. The item “installation mode” is “vertical” when the installation mode of the information terminal device 1 is vertical installation, and is “horizontal” when the installation mode of the information terminal device 1 is horizontal installation. When the installation form of the apparatus 1 is not particularly required, “vertical or horizontal” is set. The item “connection state” defines whether or not the battery 20 is disconnected from the circuit portion on the circuit board 30 side. When the battery 20 is not attached, the item “connection state” is “−−−”.

  In the item of “adjustment information number”, a number for specifying adjustment information used for control is shown. The item “temperature sensor” is “main body side” when the temperature used for control is acquired from the temperature sensor 32 disposed on the circuit board 30 on the main body side, and the temperature used for control is stored on the circuit board 22 of the battery 20. When acquiring from the arranged temperature sensor 24, it is set as "battery side".

  For example, in the table of FIG. 8A, when the battery 20 is not attached to the information terminal device 1, the adjustment information of the adjustment information number 1 is used for control according to the rule of the top row of the table. In this case, the temperature detected by the temperature sensor 32 on the main body side is used for control.

  8A, when the battery 20 is mounted on the information terminal device 1, the battery 20 is electrically connected, and the information terminal device 1 is installed vertically, the table The adjustment information of adjustment information number 3 assigned to the third row from the top is used for control. In this case, the temperature detected by the temperature sensor 24 on the battery side is used for control.

  In addition, since the temperature sensor 32 on the main body side is disposed near the power supply unit 104 that is a heat source, even if the installation form is different, the detected temperature does not vary greatly. In addition, since the abnormal temperature monitoring control is intended to stop the system control due to an abnormal temperature, when the temperature sensor 32 having a small temperature fluctuation based on the difference in the installation form is used, an installation form in which the detected temperature can be lowered. It is sufficient to assume a temperature abnormality by assuming it. For this reason, in the first and second rules from the top in FIG. 8A, the adjustment information number is specified only by whether or not the battery 20 is attached, regardless of the installation form.

  FIG. 8B is a table showing rules for specifying adjustment information in the charge / discharge control of the battery 20. In charge / discharge control of the battery 20, the temperature detected by the temperature sensor 24 installed in the battery 20 is used for control.

  In the table of FIG. 8B, the item “installation mode” indicates the installation mode of the information terminal device 1 as in the table of FIG. In the table of FIG. 8B, the item “adjustment information number” indicates a number for specifying adjustment information used for charge control or discharge control. Furthermore, the item “charge / discharge” is “discharge” when the control content is discharge, and is “charge” when the control content is charge.

  For example, in the table of FIG. 8B, when the information terminal device 1 is installed vertically and the control content is discharge, the adjustment information of the adjustment information number 5 assigned to the top row of the table is the adjustment information. Used for control.

  FIG. 8C is a diagram showing specific contents of the adjustment information.

  In the present embodiment, three threshold values Td1, Td2, and Td3 are assigned to each adjustment information number. The threshold value Td1 is an upper limit temperature when the battery 20 is charged, and the threshold value Td2 is an upper limit temperature when the battery 20 is discharged. The threshold value Td3 is an upper limit temperature that is referred to in control other than charging and discharging of the battery 20. As described above, in this embodiment, abnormal temperature monitoring control is assumed as control other than charging and discharging. Therefore, the threshold value Td3 is a threshold value used in abnormal temperature monitoring control. The threshold values Td1, Td2, and Td3 have a relationship of Td1 <Td2 <Td3.

  The threshold values Td1, Td2, and Td3 are respectively defined so as to suppress fluctuations that occur in the detected temperatures of the temperature sensors 24 and 32 depending on the installation form and the presence or absence of the battery 20 in the corresponding control.

  For example, the threshold Td1 is a threshold temperature for protecting the battery 20 by stopping charging in a range where the temperature of the battery 20 exceeds the threshold Td1. In this case, the temperature detected by the temperature sensor 24 disposed in the battery 20 is compared with the threshold value Td1.

  However, as described with reference to FIGS. 7A and 7B, the temperature detected by the temperature sensor 24 varies depending on the installation form of the information terminal device 1. Specifically, even if the temperature of the battery 20 itself is the same, the detection temperature of the temperature sensor 24 is higher in the horizontal installation than in the vertical installation. For this reason, when the threshold value Td1 is set assuming vertical installation, when charging control is performed on the information terminal device 1 in horizontal installation, the temperature of the battery 20 itself does not reach the threshold value Td1. It may happen that the temperature detected by the temperature sensor 24 reaches the threshold value Td1. In this case, although the temperature of the battery 20 itself does not reach the threshold value Td1, charging to the battery 20 is stopped.

  In order to solve such a problem, in the table of FIG. 8C, the value α8 applied as the threshold value Td1 in the case of the horizontal installation is the original threshold temperature in the charging control in the horizontal installation. Is set to a temperature detected by the temperature sensor 24. That is, in the charging control, α6 is set so that the correlation between the horizontal installation and the threshold value Td1 is maintained.

  The other values shown in FIG. 8C are also set so that the correlation between the installation form or the presence or absence of the battery 20 and each threshold value is maintained in the corresponding control. For example, α6 assigned to the sixth row from the top is set to a temperature detected by the temperature sensor 24 when the temperature of the battery 20 itself reaches the original threshold temperature in the charge control in the vertical installation. In addition, γ1 assigned to the top row reaches the original threshold temperature in the control other than charging / discharging in the state where the battery 20 is not attached (in this embodiment, abnormal temperature monitoring control). The temperature is sometimes set to be detected by the temperature sensor 32.

  In the example of FIG. 8C, the values applied to the threshold values Td1, Td2, and Td3 are assigned to the threshold values as adjustment information. However, the reference value depends on the installation form or the presence or absence of the battery. A correction value for correcting the threshold value (for example, a coefficient to be multiplied by the reference threshold value) may be assigned to each threshold value column of the table of FIG. In this case, the threshold values Td1, Td2, and Td3 are calculated by applying the correction value in each column to the reference threshold value.

  Note that temperature fluctuations in the temperature sensors 24 and 32 may occur due to factors such as radiation, heat conduction, and heat capacity inside the apparatus in addition to the air convection shown in FIGS. 7 (a) and 7 (b). Therefore, each value in the adjustment information table shown in FIG. 8C is set in consideration of these factors comprehensively.

  Next, various controls executed using the adjustment information shown in FIG. These controls are performed by the control unit 101 shown in FIG.

  FIG. 9 is a flowchart showing charge control. In the charge control, the temperature detected by the temperature sensor 24 disposed in the battery 20 is used.

  In the charge control, the control unit 101 determines whether or not the battery 20 is attached to the information terminal device 1 based on the detection result acquired from the attachment / detachment detection unit 106 (S11). When the battery 20 is not attached (S11: NO), the control unit 101 stops the charging operation by the charge / discharge control unit 105 (S18) and ends the process. When the battery 20 is mounted (S11: YES), the control unit 101 determines whether the installation mode of the information terminal device 1 is vertical installation or horizontal installation based on the detection result acquired from the installation detection unit 107. Is determined (S12).

  After determining the installation form in this way, the control unit 101 acquires a value corresponding to the installation form from the adjustment information table (see FIG. 8C) stored in the storage unit 102, and uses the acquired value as the threshold Td1. (S13). Here, since the content of the control is the charge control, a value corresponding to the installation form among α6 and α8 in FIG. 8C is set as the threshold value Td1.

  Thereafter, the control unit 101 compares the set threshold value Td1 with the temperature Td detected by the temperature sensor 24 (S14). And control part 101 makes charge / discharge control part 105 perform charge operation, when temperature Td is smaller than threshold Td1 (S14: YES) (S15). Thereafter, the control unit 101 charges the charge / discharge control unit 105 until the elapsed time from the start of charging exceeds a predetermined threshold Tc1 (S16: NO) or until the battery 20 reaches full charge (S17: YES). Continue operation. In step S <b> 17, the control unit 101 determines whether the battery 20 has reached a fully charged state by referring to a charging voltage and a charging current for the battery 20.

  When determination of step S16 is YES and determination of step S17 is NO, the control part 101 returns a process to step S11, and performs the same process. Here, if the installation form of the information terminal device 1 does not change, the set value of the threshold value Td1 is maintained as it is (S12, S13).

  When the temperature Td detected by the temperature sensor 24 becomes equal to or higher than the threshold value Td1 while the charge control is continued in this way (S14: NO), the control unit 101 stops the charging operation by the charge / discharge control unit 105 (S18). In addition, when the elapsed time from the start of charging reaches the threshold value Tc1 (S16: NO) or when the battery 20 reaches full charge (S17: YES), the control unit 101 performs the charging operation by the charge / discharge control unit 105. Is stopped (S18). Thus, the charging control is finished.

  FIG. 10 is a flowchart showing the discharge control. In the discharge control, the temperature detected by the temperature sensor 24 disposed in the battery 20 is used. In addition, discharge control is control which supplies the electric power accumulate | stored in the battery 20 to each part.

  In the discharge control, the control unit 101 determines whether or not the battery 20 is attached to the information terminal device 1 based on the detection result acquired from the attachment / detachment detection unit 106 (S21). When the battery 20 is not attached (S21: NO), the control unit 101 stops the discharging operation by the charge / discharge control unit 105 (S27) and ends the process. When the battery 20 is mounted (S21: YES), the control unit 101 determines whether the installation mode of the information terminal device 1 is vertical installation or horizontal installation based on the detection result acquired from the installation detection unit 107. Is determined (S22).

  After determining the installation form in this way, the control unit 101 acquires a value corresponding to the installation form from the adjustment information table (see FIG. 8C) stored in the storage unit 102, and uses the acquired value as the threshold value Td2. (S13). Here, since the content of the control is the discharge control, a value corresponding to the installation form among β5 and β7 in FIG. 8C is set as the threshold value Td2.

  Thereafter, the control unit 101 compares the set threshold value Td2 with the temperature Td detected by the temperature sensor 24 (S24). And the control part 101 makes the charging / discharging control part 105 perform discharge operation, when temperature Td is smaller than threshold value Td2 (S24: YES) (S25). Thereafter, the control unit 101 causes the charge / discharge control unit 105 to continue the discharge operation until the power storage state of the battery 20 reaches an empty level (power shortage level) (S26: YES). In step S <b> 26, the control unit 101 determines whether the power storage state of the battery 20 has reached the empty level by referring to the discharge voltage and discharge current from the battery 20.

  When determination of step S26 is NO, the control part 101 returns a process to step S21, and performs the same process. Here, if the installation form of the information terminal device 1 does not change, the setting value of the threshold value Td2 is maintained as it is (S22, S23).

  When the temperature Td detected by the temperature sensor 24 becomes equal to or higher than the threshold Td2 while the charge control is continued in this way (S24: NO), the control unit 101 stops the discharge operation by the charge / discharge control unit 105 (S27). Further, also when the power storage state of the battery 20 reaches the empty level (S26: YES), the control unit 101 stops the discharging operation by the charge / discharge control unit 105 (S27). Thus, the discharge control ends.

  FIG. 11 is a flowchart showing abnormal temperature monitoring control. As shown in FIG. 8A, in the abnormal temperature monitoring control, the temperature detected by either the temperature sensor 24 arranged in the battery 20 or the temperature sensor 32 arranged on the apparatus main body side is used.

  In the abnormal temperature monitoring control, the control unit 101 determines whether or not the battery 20 is attached to the information terminal device 1 based on the detection result acquired from the attachment / detachment detection unit 106 (S31).

  When the battery 20 is not attached (S31: NO), the control unit 101 obtains a value when the battery 20 is not attached from the adjustment information table (see FIG. 8C), and uses the obtained value. The threshold value Td3 is set (S34). Here, since it corresponds to the rule of the top row in FIG. 8A, γ1 of the adjustment information number 1 is set to the threshold value Td3.

  When the battery 20 is mounted (S31: YES), the control unit 101 determines whether or not the battery 20 is electrically disconnected from the circuit unit on the main body side (S32). When the battery 20 is in an electrically disconnected state (S32: YES), the control unit 101 determines that the battery 20 is in an attached state and is electrically disconnected from the adjustment information table (see FIG. 8C). The value in the case of being in the state is acquired, and the acquired value is set to the threshold value Td3 (S34). Since this state corresponds to the rule in the second row from the top in FIG. 8A, γ2 of the adjustment information number 2 is set to the threshold value Td3.

  When the battery 20 is not in an electrically disconnected state (S32: NO), the control unit 101 determines whether the information terminal device 1 is installed vertically or horizontally based on the detection result acquired from the installation detection unit 107. Is determined (S33). And the control part 101 acquires the value corresponding to the determined installation form from the adjustment information table (refer FIG.8 (c)) memorize | stored in the memory | storage part 102, and sets the acquired value to threshold value Td3 ( S34). Since this state corresponds to the rule in the third or fourth row from the top in FIG. 8A, a value corresponding to the installation form among γ3 and γ4 in FIG. 8B is set as the threshold value Td2. .

  Furthermore, the control part 101 selects the temperature sensor used for control based on the presence or absence of mounting | wearing of the battery 20, and the presence or absence of electrical connection (S35). That is, when the battery 20 is not attached, or when the battery 20 is attached but not electrically connected, the control unit 101 determines the second rule from the top or the top in FIG. Accordingly, the temperature sensor 32 on the apparatus main body side is selected as a temperature sensor used for control. When the battery 20 is mounted and electrically connected, the control unit 101 controls the temperature sensor 24 on the battery 20 side in accordance with the third or fourth rule from the top in FIG. Select the temperature sensor to be used.

  Thereafter, the control unit 101 compares the set threshold value Td3 with the temperature Td detected by the selected temperature sensor (S36). And the control part 101 stops the system operation | movement of the information terminal device 1 whole, when temperature Td becomes more than threshold value Td3 (S36: YES) (S37).

<Effect of embodiment>
According to the embodiment, the following effects can be achieved.

  Since control based on temperature (charge control, discharge control, and abnormal temperature monitoring control) is performed using adjustment information corresponding to the form of the apparatus body (installation form and whether or not the battery is attached), between the forms of the apparatus body Even when the temperature detected by the temperature sensors 24 and 32 fluctuates, the control can be performed with high accuracy. Therefore, control by temperature can be performed with high accuracy regardless of the form of the apparatus.

  Further, as shown in FIGS. 9 to 11, in the control based on temperature, the threshold value Td <b> 1 is based on the adjustment information corresponding to the form of the information terminal device 1 detected by the attachment / detachment detection unit 106 and the installation detection unit 107. , Td2, and Td3 are set. By adjusting the threshold values Td1, Td2, and Td3 in this way, it is not necessary to correct the temperature detected by the temperature sensors 24 and 32 each time, so that the control process can be simplified.

  Further, in the charge control and the discharge control shown in FIGS. 9 and 10, the control is performed based on the temperature detected by the temperature sensor 24 and the adjustment information corresponding to the installation form detected by the installation detection unit 107. Executed. Thereby, as described with reference to FIGS. 7A and 7B, even when the temperature detected by the temperature sensor 24 varies between the installation forms of the apparatus main body, the charge control and the discharge control are accurately performed. be able to. Therefore, charge control and discharge control can be performed with high accuracy regardless of the form of the apparatus.

  In general, since the temperature range in which the battery 20 can be operated properly is narrow, strict temperature management is also required in charge control and discharge control for the battery 20. In the above embodiment, since charge control and discharge control are performed while compensating for temperature fluctuations based on adjustment information corresponding to the installation mode of the information terminal device 1, these controls can be performed safely and appropriately.

  In the abnormal temperature monitoring control shown in FIG. 11, based on the temperature detected by the temperature sensors 24 and 32 and the adjustment information corresponding to the presence or absence of the battery 20 detected by the attachment / detachment detection unit 106, Control is executed. In general, since the volume of the battery 20 occupying the volume of the apparatus main body is large, when the battery 20 is removed from the apparatus main body, air convection, heat capacity, heat conduction, and the like inside the apparatus main body change greatly. For this reason, large fluctuations may occur in the detected temperatures of the temperature sensors 24 and 32 depending on whether the battery 20 is in the mounted state or not. Therefore, as described above, adjustment information is prepared for each battery 20 mounted or not, and abnormal temperature monitoring control is executed based on this adjustment information, so that abnormal temperature monitoring is performed regardless of whether or not the battery is mounted. Control can be performed appropriately and with high accuracy.

  In the present embodiment, in addition to the temperature sensor 24 installed in the battery 20, the temperature sensor 32 is disposed on the apparatus main body side. Therefore, even when the battery 20 is not attached, the abnormal temperature monitoring control is appropriately performed. Can be done.

<Example of change>
As mentioned above, although embodiment of this invention was described, this invention is not restrict | limited to the said embodiment at all.

  For example, in the above-described embodiment, the threshold values Td1 to Td3 are adjusted based on the adjustment information. In this case, for example, the adjustment information shown in FIG. 12A or 12B is used instead of the adjustment information shown in FIG.

  In the modified example of FIG. 12A, the temperatures detected by the temperature sensors 24 and 32 are corrected by the correction function. The correction functions fa6 and fa8 are correction functions when the information terminal device 1 is installed vertically and horizontally in the charging control, respectively. The correction functions fb5 and fb7 are correction functions when the information terminal device 1 is installed vertically and horizontally in the discharge control, respectively. These correction functions correct the detected temperature of the temperature sensor 24 in each of the vertical installation and horizontal installation modes so as to suppress fluctuations in the detected temperature of the temperature sensor 24 between vertical installation and horizontal installation.

  The correction functions fc1 and fc2 are correction functions for correcting the temperature detected by the temperature sensor 32 on the main body side when the battery 20 is detached and attached in the abnormal temperature monitoring control. These correction functions correct the detected temperature of the temperature sensor 32 every time the battery 20 is attached or detached so as to suppress fluctuations that occur in the detected temperature of the temperature sensor 32 due to the attachment or detachment of the battery 20.

  The correction functions fc3 and fc4 are for correcting the temperature detected by the temperature sensor 24 on the battery 20 side in accordance with the installation form when the battery 20 is in the mounted state and the connected state in the abnormal temperature monitoring control. This is a correction function. These correction functions correct the temperature detected by the temperature sensor 32 for each installation mode so as to suppress fluctuations that occur in the temperature detected by the temperature sensor 32 depending on the installation mode of the information terminal device 1.

  In the modification of FIG. 12A, the threshold values Td1 to Td3 are fixed in each control of FIGS. 9 to 11, and the detected temperature Td is corrected by the corresponding correction function. For example, in the charging control of FIG. 9, in step S13, the correction function F1 for correcting the detected temperature Td is changed to a correction function corresponding to the installation mode (any one of the correction functions fa6 and fa8 in FIG. 12A). The detected temperature Td is corrected by this correction function F1. In step S14, the corrected detected temperature Td is compared with the threshold value Td1, and when the corrected detected temperature Td is equal to or higher than the threshold value Td1, the charging control is stopped in step S18.

  Similarly, in the discharge control of FIG. 10 and the abnormal temperature monitoring control of FIG. 11, the correction functions F2 and F3 are set and set from the correction function of FIG. 12A according to the form of the information terminal device 1. The detected temperature Td is corrected based on the correction functions F2 and F3. Then, the corrected detected temperature Td is compared with the threshold values Td2 and Td3, and the discharge control is stopped or the system operation is stopped.

  In the modified example of FIG. 12B, instead of the correction function, correction tables ta6 to tc4 in which the detected temperature and the corrected temperature are associated are assigned to each adjustment information number. The correction tables ta6 to tc4 are configured to realize the same correction as the correction function of FIG. In this modified example, the detected temperature Td is corrected by the correction tables ta6 to tc4, and the corrected detected temperature is compared with the threshold values Td1 to Td3.

  Moreover, in the said embodiment, as a form of the apparatus main body used as the fluctuation | variation factor of the temperature detected by the temperature sensors 24 and 32, the installation form (vertical installation, horizontal installation) of the information terminal device 1, and the presence or absence of installation of the battery 20 However, forms other than these may be further included. Further, the installation form of the information terminal device 1 is not necessarily limited to the vertical installation and the horizontal installation, and any installation form may be used as long as it is an installation form that causes a variation in temperature detected by the temperature sensor 24. There may be.

  Moreover, in the said embodiment, although abnormal temperature monitoring control was shown as control other than charging / discharging of the battery 20, control based on temperature may be control other than this. For example, when a component vulnerable to temperature is installed on the circuit board 30, the control for protecting this component is performed by adjusting the temperature detected by the temperature sensor 24 or the temperature sensor 32 and the adjustment information corresponding to this component. It may be executed based on the above.

  For example, the failure rate of an electrolytic capacitor increases as the temperature increases. Therefore, when an electrolytic capacitor is installed on the circuit board 30, control for protecting the electrolytic capacitor may be executed based on the temperature detected by the temperature sensor 24 or the temperature sensor 32 and the adjustment information. In addition, when the portable terminal device 1 is used, temperature management (such as prevention of low-temperature burns) of a part directly touched by the human body may be performed based on the temperature detected by the temperature sensor 24 or the temperature sensor 32 and the adjustment information.

  In the above embodiment, the temperature sensor 24 for detecting the temperature of the battery 20 is installed inside the battery 20. However, the temperature sensor for detecting the temperature of the battery 20 is provided on the circuit board 30 on the main body side. It may be provided at a position close to the battery 20. In this case, the temperature sensor 32 may be omitted.

  In the above embodiment, the temperature sensor used for temperature detection is switched between the temperature sensors 24 and 32 in the abnormal temperature monitoring control. However, even if the abnormal temperature monitoring control is performed using only the temperature sensor 32. Good. In this case, the third and fourth rules from the top in FIG. 8A are omitted, and steps S32, S33, and S35 in FIG. 11 are omitted. In step S34, a value corresponding to whether or not the battery 20 is attached is set as the threshold value Td3 among γ1 and γ2 in FIG. 8C.

  In the above embodiment, only the upper limit temperature thresholds Td1, Td2, and Td3 are set in the charge control, the discharge control, and the abnormal temperature monitoring control, but together with these thresholds Td1, Td2, and Td3, the lower limit temperature threshold is set in each control. May be set. In this case, a threshold value for the lower limit temperature is added to the adjustment information table in FIG. Further, in the control of FIGS. 9 to 11, the lower limit temperature threshold is set together with the upper limit temperature thresholds Td1, Td2, and Td3 based on the adjustment information table in accordance with the installation form and whether or not the battery is attached. In each control, when the detected temperature Td deviates from the range between the set upper limit threshold and lower limit threshold, charging stop, discharging stop, or system stop processing is executed.

  Moreover, in the said embodiment, although the touch pad 13b was used as an input means, you may use an electromagnetic type digitizer pen and a digitizer sensor as an input means. Moreover, the structure and arrangement position of the leg part 12, the structure and arrangement position of the battery 20, etc. can be changed suitably.

  In addition, the embodiment of the present invention can be variously modified as appropriate within the scope of the technical idea shown in the claims.

DESCRIPTION OF SYMBOLS 1 Information terminal device 20 Battery 24, 32 Temperature sensor 101 Control part 102 Memory | storage part 106 Attachment / detachment detection part (form detection part)
107 Installation detection unit (form detection unit)

Claims (8)

A temperature sensor arranged at a predetermined position inside the apparatus;
A control unit that executes predetermined control based on temperature;
A form detection unit for detecting the form of the apparatus main body that is a factor of variation in temperature detected by the temperature sensor;
A storage unit that stores, for each of the forms, adjustment information for suppressing fluctuations between the forms that occur in the detected temperature of the temperature sensor in the control;
The control unit executes the control based on the temperature detected by the temperature sensor and the adjustment information corresponding to the form detected by the form detection unit.
An information terminal device. The information terminal device according to claim 1,
In the control, the control unit executes a process of comparing the temperature detected by the temperature sensor with a predetermined threshold value, and the threshold value is used as the adjustment information corresponding to the form detected by the form detection unit. Set based on the
An information terminal device. The information terminal device according to claim 1,
The control unit corrects the temperature detected by the temperature sensor based on the adjustment information corresponding to the form detected by the form detection unit, and executes the control based on the corrected temperature. To
An information terminal device. In the information terminal device according to any one of claims 1 to 3,
The control unit executes control to stop the system operation due to temperature abnormality based on the temperature detected by the temperature sensor and the adjustment information corresponding to the form detected by the form detection unit.
An information terminal device. In the information terminal device according to any one of claims 1 to 4,
The form detection unit detects an installation form of the apparatus main body as a form of the apparatus main body that becomes a variation factor of the temperature detected by the temperature sensor,
The storage unit stores the adjustment information for each installation form,
The control unit executes the control based on the temperature detected by the temperature sensor and the adjustment information corresponding to the installation form detected by the form detection unit.
An information terminal device. In the information terminal device according to any one of claims 1 to 5,
It has a battery to supply power,
The temperature sensor is arranged near the installation position of the battery,
The control unit executes charge and discharge control for the battery based on the temperature detected by the temperature sensor and the adjustment information corresponding to the form detected by the form detection unit.
An information terminal device. In the information terminal device according to any one of claims 1 to 5,
It has a detachable battery to supply power,
The form detection unit detects whether or not the battery is attached to the apparatus main body as a form of the apparatus main body that causes the temperature variation detected by the temperature sensor,
The storage unit stores the adjustment information for each battery installed or not,
The control unit executes the control based on the temperature detected by the temperature sensor and the adjustment information corresponding to the presence or absence of the battery detected by the form detection unit.
An information terminal device. In the information terminal device according to claim 7,
The temperature sensor is disposed at a position other than the battery,
The control unit executes a control other than the control of the battery based on the temperature detected by the temperature sensor and the adjustment information corresponding to the presence / absence of mounting of the battery detected by the form detection unit. ,
An information terminal device.

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