JP2020042070A - Abnormality detection device of liquid crystal display device - Google Patents

Abstract

To provide an abnormality detection device of a liquid crystal display device that can reduce a possibility that a user mistake a status under inspection of a display abnormality for a failure, while reducing an effort of user operation.SOLUTION: The abnormality detection device of a liquid crystal display device detects a display abnormality of the liquid crystal display device installed in a vehicle and having a back light and a liquid crystal panel. The abnormality detection device comprises a permission status detection part (S10A) for detecting a predetermined inspection permission status in which a vehicle occupant is unlikely to notice a change in a driving status of the liquid crystal panel and an abnormality inspection part (S13) for inspecting whether an abnormality occurs in the liquid crystal panel by driving the liquid crystal panel based on the detection of the detection permission status by the permission status detection part.SELECTED DRAWING: Figure 4

Description

  The present invention relates to an abnormality detection device that detects a display abnormality of a liquid crystal display device.

  Patent Document 1 discloses an abnormality detection device that detects a display abnormality of a liquid crystal display device. In the device disclosed in Patent Document 1, when inspecting whether or not there is a display abnormality, the backlight is turned off and the liquid crystal panel is driven in a noise drive pattern. By turning off the backlight, the noise driving pattern is invisible to the user, so that it is possible to prevent the user from mistakenly interpreting the failure as a failure by looking at the screen at the time of inspection.

JP-A-2017-134179

  In Patent Literature 1, a process of checking whether there is a display abnormality is started by an operation of a worker such as a quality manager. There is a problem in that the operation of the operator is required because the operation of the operator is required. In particular, in a liquid crystal display device mounted on a vehicle, if a human operation is required to inspect a display abnormality, the display abnormality may not be inspected due to troublesome operation.

  As a countermeasure, display abnormalities may be automatically inspected, for example, periodically. However, when the display abnormality is automatically inspected, the user may misunderstand that the display abnormality is a failure while viewing the screen during the inspection for the display abnormality.

  The present disclosure has been made based on this circumstance, and the purpose is to reduce the trouble of the user operation and to misunderstand that the state during the inspection for the display abnormality is a failure. An object of the present invention is to provide an abnormality detection device for a liquid crystal display device, which can reduce the performance.

  The above object is achieved by a combination of features described in the independent claims, and the subclaims define further advantageous embodiments. Reference numerals in parentheses described in the claims indicate a correspondence relationship with specific means described in the embodiment described below as one aspect, and do not limit the disclosed technical scope.

One disclosure for achieving the above object is a liquid crystal display device that includes a backlight (13) and a liquid crystal panel (12) and detects a display abnormality of a liquid crystal display device (10) mounted on a vehicle (C). Abnormality detection device (20),
A permission state detection unit (S11, S10, S10A) for detecting that the inspection is in a preset inspection permission state, in which the occupant of the vehicle hardly notices a change in the driving state of the liquid crystal panel;
An abnormality inspection unit (S13, S23, S24) for driving the liquid crystal panel based on the detection of the inspection permission state by the permission state detection unit and inspecting whether an abnormality has occurred in the liquid crystal panel; Is provided.

  The abnormality inspection unit automatically inspects whether or not an abnormality has occurred in the liquid crystal panel based on the fact that the permission state detection unit detects that the inspection is in the inspection permission state. Therefore, it is possible to reduce the trouble of the user operation.

  Further, the inspection permission state is a state in which it is difficult to notice a change in the driving state of the liquid crystal panel. Therefore, even if the liquid crystal panel is driven for inspection, it is difficult for the user to notice a change in the liquid crystal panel. Therefore, it is also possible to reduce the possibility that the user looks at the liquid crystal panel and mistakes it for a failure.

FIG. 1 is a block diagram illustrating a configuration of a navigation system 1. 9 is a flowchart illustrating a process executed by a system control unit 24 in a first inspection permission state. 3 is a time chart showing a state change of each control unit when FIG. 2 is executed. 9 is a flowchart illustrating a process executed by a system control unit 24 in a second inspection permission state. 5 is a time chart showing a state change of each control unit when FIG. 4 is executed. 13 is a flowchart illustrating a process executed by the system control unit 24 in a third inspection permission state. 7 is a time chart showing a state change of each control unit when FIG. 6 is executed. It is a figure explaining the 4th inspection permission state. 10 is a flowchart illustrating a process executed by a system control unit 24 in a third embodiment. It is a specific example of the time chart which shows the state change of each control part in 3rd Embodiment. 13 is a flowchart illustrating a process executed by a system control unit 24 in a fourth embodiment.

  Hereinafter, embodiments will be described with reference to the drawings. FIG. 1 is a block diagram illustrating a configuration of a navigation system 1 according to the embodiment. The navigation system 1 is mounted on a vehicle C. The navigation system 1 includes a touch panel ASSY 10 and a control ECU 20. The notification unit 30 and the back camera 40 are also mounted on the vehicle C.

  The touch panel ASSY10 is an example of a liquid crystal display device, and has a structure in which a touch sensor 11, a liquid crystal panel 12, and a backlight 13 are stacked. The touch panel ASSY10 is installed at a position where the touch sensor 11 can be operated by the driver of the vehicle C.

  The touch sensor 11 is of a capacitance type, and detects a capacitance change caused by a finger or the like touching the surface. The liquid crystal panel 12 includes, for example, a TFT liquid crystal. Various images are displayed by applying a voltage to the liquid crystal included in the liquid crystal panel 12 and causing the backlight 13 to emit light. The backlight 13 irradiates light from the back surface of the liquid crystal panel 12 to the display surface side. The backlight 13 is disposed on the back surface of the liquid crystal panel 12 and directly irradiates the liquid crystal panel 12 or a type including a light guide plate. May be.

  The control ECU 20 is supplied with a vehicle power supply + B. The touch panel ASSY 10 is also supplied with the vehicle power supply + B via the control ECU 20. The control ECU 20 includes three input I / Fs 21, 22, 23, a system control unit 24, a touch sensor control unit 25, an LCD control unit 26, a backlight control unit 27, and a nonvolatile memory 28.

  Vehicle power supply + B is input to input I / F 21. Further, a system start signal Sp and a shift position signal Ss are input to the input I / F 22, and a signal indicating an image captured by the back camera 40 is input to the input I / F 23.

  The system control unit 24 controls the entire navigation system 1 while issuing control instructions to the touch sensor control unit 25, the LCD control unit 26, and the backlight control unit 27. The control performed by the system control unit 24 includes, for example, route guidance control and control of switching an image displayed on the liquid crystal panel 12 according to a shift position.

  The touch sensor control unit 25, the LCD control unit 26, and the backlight control unit 27 control the touch sensor 11, the liquid crystal panel 12, and the backlight 13, respectively. The touch sensor control unit 25 operates by switching between an inspection mode and a general mode according to an instruction from the system control unit 24. In either mode, the capacitance generated on the touch sensor 11 is detected. Then, in the general mode, when a capacitance equal to or larger than the touch detection threshold is detected, a portion where the capacitance equal to or larger than the touch detection threshold is detected is detected as a touch-operated portion. On the other hand, in the inspection mode, the system controller 24 is notified of the capacitance at a location corresponding to each sub-pixel formed on the liquid crystal panel 12.

  The LCD control unit 26 drives the liquid crystal panel 12 according to an instruction from the system control unit 24. The LCD controller 26 also operates by switching between the inspection mode and the general mode according to an instruction from the system controller 24. In the inspection mode, the liquid crystal panel 12 is driven with a noise drive pattern. The noise drive pattern is the same as that described in Patent Document 1. That is, the noise drive pattern applies a voltage to a plurality of sub-pixels driven by a certain first-phase AC voltage, and is driven by a second-phase AC voltage obtained by inverting the first phase. This is a driving pattern in which no voltage is applied to a plurality of sub-pixels. As a specific example of the noise drive pattern, there is, for example, a drive pattern for applying a positive voltage to an odd-numbered frame when AC driving is performed by a column line inversion driving method. In the general mode, the liquid crystal panel 12 is driven with a drive pattern for displaying image data specified by the system control unit 24. The image data specified by the system control unit 24 includes, for example, a map image at the time of route guidance, an image captured by the back camera 40, and the like.

  The backlight control unit 27 controls turning on and off of the backlight 13. The notification unit 30 is, for example, a warning lamp. The warning lamp is for notifying a user when an abnormality is detected in the liquid crystal panel 12. The installation position of the warning lamp is a meter, an instrument panel, or the like.

  The warning lamp may be displayed on the liquid crystal panel 12. When the warning lamp is displayed on the liquid crystal panel 12, the warning lamp can be displayed at an arbitrary position, and when a display abnormality is detected, the warning lamp is displayed in a region other than the region where the abnormality is detected. The non-volatile memory 28 stores a result calculated by the system control unit 24 and the like.

  The notification unit 30 may be a speaker other than the warning lamp, or may be a device that notifies a management device installed at a predetermined place such as a dealer by radio waves. The back camera 40 is installed at the rear of the vehicle C and captures an image of the rear of the vehicle C. The image captured by the back camera 40 is displayed on the liquid crystal panel 12 when the shift position is the reverse position (hereinafter, R position).

[Abnormal inspection of liquid crystal panel 12]
As described in Patent Document 1, the liquid crystal panel 12 sometimes becomes partially abnormal due to damage or the like. Thus, the navigation system 1 of the present embodiment has a function of inspecting the liquid crystal panel 12 for abnormalities. This function is executed by the control ECU 20. Therefore, the control ECU 20 is an example of the abnormality detection device of the liquid crystal display device.

  In the first embodiment, the inspection of the liquid crystal panel 12 is executed in the following three inspection permitted states. The first inspection permission state is when the power supply state of the vehicle C is turned on. More precisely, the first inspection permission state is a period from when the power state of the vehicle C is turned on to when the backlight 13 is turned on.

  The second inspection permission state is when the shift position switches from a position other than the R position to the R position. When the shift position switches from a position other than the R position to the R position, the backlight 13 is temporarily turned off in order to switch the image displayed on the display surface of the liquid crystal panel 12 to an image captured by the back camera 40. When the shift position is switched from the position other than the R position to the R position, the state where the backlight 13 is temporarily turned off is the second inspection permitted state.

  The third inspection permission state is when the shift position switches from the R position to a position other than the R position. When the shift position is switched from the R position to a position other than the R position, the image displayed on the display surface of the liquid crystal panel 12 is temporarily switched from the image captured by the back camera 40 to another image. Turns off. More precisely, the third inspection permission state is a state in which the backlight 13 is temporarily turned off when the shift position switches from the R position to a position other than the R position.

  When the first to third inspection permitted states are set, the system control unit 24 executes a process for inspecting whether or not the liquid crystal panel 12 is abnormal. This process is hereinafter referred to as a liquid crystal abnormality determination process. The liquid crystal abnormality determination process is performed by driving the liquid crystal panel 12 with a noise drive pattern. If the occupant of the vehicle C notices that the liquid crystal panel 12 is being driven in the noise drive pattern even though the occupant of the vehicle C does not give an instruction, the occupant of the vehicle C may misunderstand that the liquid crystal panel 12 has failed. is there.

  However, in each of the first to third inspection permitted states, the backlight 13 is turned off, so that even if the occupant of the vehicle C looks at the liquid crystal panel 12 driven by the noise driving pattern, The occupant of the vehicle C is hardly aware of this. That is, all of the first to third inspection permitted states are states in which the occupant of the vehicle C is less likely to notice a change in the driving state of the liquid crystal panel 12.

[Processing in first inspection permitted state]
FIG. 2 shows processing executed by the system control unit 24 in the first inspection permission state. The process illustrated in FIG. 2 starts when an ON signal is input to the input I / F 22 as the system activation signal Sp. The system activation signal Sp becomes the ON signal when the ignition switch is turned on and the power state of the vehicle C is turned on.

  In step (hereinafter, step is omitted) S11, the control ECU 20 is activated, whereby the system control unit 24, the touch sensor control unit 25, the LCD control unit 26, and the backlight control unit 27, which are elements in the control ECU 20, are also activated. I do. In S12, the touch sensor control unit 25 and the LCD control unit 26 are turned on in the inspection mode.

  In S13, it is determined whether the liquid crystal panel 12 is abnormal. Specifically, first, the liquid crystal panel 12 is driven by the noise drive pattern, and the capacitance value is obtained. The process of S13 is executed by the system control unit 24 controlling the touch sensor control unit 25 and the LCD control unit 26.

  When the liquid crystal panel 12 is driven by the noise drive pattern, as described in Patent Document 1, a normal portion where no display abnormality occurs has a high capacitance value. In other words, when the liquid crystal panel 12 is driven by the noise drive pattern, a normal portion generates large noise. On the other hand, even when the liquid crystal panel 12 is driven by the noise drive pattern, the capacitance value is reduced in the portion where the display abnormality occurs. This is because the portion where the display abnormality has occurred is not driven by the noise drive pattern even if it is driven by the noise drive pattern. As described above, when the liquid crystal panel 12 is driven by the noise drive pattern, a normal portion has a high capacitance value, whereas a display abnormality portion has a low capacitance value.

  The capacitance value when driven by the noise drive pattern is compared with a threshold value, a portion above the threshold value is determined to be normal, and a portion lower than the threshold value is determined to be abnormal. The size of the portion for determining the presence / absence of an abnormality can be appropriately set as long as the touch sensor control unit 25 can detect the capacitance value or more. For example, the size of the portion for determining the presence or absence of the abnormality can be set to the same fineness as that for detecting the capacitance value. Further, the size of the portion for determining the presence or absence of an abnormality may be the entire portion for displaying a certain display image (for example, a warning display image).

  The threshold can be a fixed value set in advance. Further, as described in Patent Document 1, a threshold value may be calculated from an average value of capacitance values in a noise drive pattern and an average value of capacitance values in a normal drive pattern. Good. The normal drive pattern is a drive pattern in which the display screen of the liquid crystal panel 12 displays a specific color (for example, black).

  In S14, it is determined whether or not there is an abnormality as a result of the inspection in S13. When there is an abnormality, the process proceeds to S15, and when there is no abnormality, the process proceeds to S16. In S15, the notification unit 30 notifies that an abnormality has been detected in the display. Thereafter, the process proceeds to S16.

  In S16, the touch sensor control unit 25 and the LCD control unit 26 are set to the general mode. Then, in S17, the backlight control unit 27 is instructed to turn on the backlight 13.

  FIG. 3 is a time chart showing a state change of each control unit when FIG. 2 is executed. At time t1, a Hi signal, that is, an ON signal, is input as the system activation signal Sp. Accordingly, the process illustrated in FIG. 2 is started, and the system control unit 24 starts the liquid crystal abnormality determination process.

  Thereafter, by executing S12, the touch sensor control unit 25 and the LCD control unit 26 are turned on in the inspection mode at time t2, and the determination in S13 is started. At time t3, the determination as to whether or not the liquid crystal panel 12 is abnormal ends. Thereby, S16 is executed, and the touch sensor control unit 25 and the LCD control unit 26 enter the general mode. Then, at time t4, S17 is executed, and the backlight 13 is turned on.

[Processing in second inspection permitted state]
FIG. 4 shows a process executed by the system control unit 24 upon detecting the second inspection permission state. The process shown in FIG. 4 is periodically executed when the system activation signal Sp is an ON signal, that is, when the control ECU 20 is in the activation state and the shift position is a position other than R. . The shift position is determined from the shift position signal Ss.

  In S10, it is determined whether or not the shift position signal Ss has changed to a signal indicating the R position. If this determination is NO, the process shown in FIG. 4 ends, and if YES, the process proceeds to S11A.

  When the system activation signal Sp is an ON signal, the backlight 13 is turned on, and various images determined by a user operation are displayed on the liquid crystal panel 12. In S11A, the backlight controller 27 is instructed to turn off the backlight 13. The following S11 to S17 are the same as S11 to S17 shown in FIG.

  FIG. 5 is a time chart showing a state change of each control unit when FIG. 4 is executed in the second inspection permission state. At time t11, the shift position has been switched from the N position to the R position. Accordingly, the system control unit 24 starts the liquid crystal abnormality determination process, that is, the process illustrated in FIG. Then, at time t12, S11A is executed, and the backlight 13 is turned off. Next, at time t13, S12 is executed, and the touch sensor control unit 25 and the LCD control unit 26 enter the inspection mode. At time t14, the determination as to whether or not the liquid crystal panel 12 is abnormal ends. Thereby, S16 is executed, and the touch sensor control unit 25 and the LCD control unit 26 return to the general mode. Then, at time t15, S17 is executed and the backlight 13 is turned on.

[Processing in Third Inspection Permitted State]
FIG. 6 shows a process executed by the system control unit 24 upon detecting the third inspection permitted state. The process shown in FIG. 6 is periodically executed when the system activation signal Sp is an ON signal, that is, when the control ECU 20 is in the activation state and the shift position is the R position.

  In S10A, it is determined whether or not the shift position signal Ss has changed from the R position to a signal indicating a position other than R. If this determination is NO, the process shown in FIG. 6 ends, and if YES, the process proceeds to S11A. The following S11A to S17 are the same as S11A to S17 shown in FIG.

  FIG. 7 is a time chart showing a state change of each control unit when FIG. 6 is executed in the third inspection permission state. At time t21, the shift position has been switched from the R position to a position other than the R position. Thereby, the system control unit 24 starts the liquid crystal abnormality determination processing, that is, the processing shown in FIG. Then, at time t22, S11A is executed, the backlight 13 is turned off, and at time t23, S12 is executed, and the touch sensor control unit 25 and the LCD control unit 26 enter the inspection mode. Then, at time t24, the determination of the presence or absence of the abnormality of the liquid crystal panel 12 ends, the touch sensor control unit 25 and the LCD control unit 26 return to the general mode, and at time t25, S17 is executed and the backlight 13 is turned on.

  In the processes of FIGS. 2, 4, and 6, S11, S10, and S10A are processes corresponding to the permission state detection unit, and S13 is a process corresponding to the abnormality inspection unit.

[Summary of First Embodiment]
As described above, in the first embodiment described above, the control ECU 20 has detected the first to third inspection permitted states in S1, S10, and S10A, and based on the detection of the inspection permitted state, Whether the liquid crystal panel 12 is abnormal or not is automatically inspected. Therefore, it is possible to reduce the trouble of the user operation.

  The inspection permission state is a state in which a change in the driving state of the liquid crystal panel 12 is hard to be noticed, specifically, a state in which the backlight 13 is turned off. Is hard to notice a change in the driving state of the liquid crystal panel 12. Therefore, it is possible to reduce the possibility that the user may mistakenly view the liquid crystal panel 12 as a failure.

<Second embodiment>
Next, a second embodiment will be described. In the following description of the second embodiment, elements having the same reference numerals as those used so far are the same as the elements of the same reference numerals in the previous embodiments, unless otherwise specified. When only a part of the configuration is described, the above-described embodiment can be applied to the other part of the configuration.

  In the first embodiment, the first to third inspection permitted states have been described as the inspection permitted states. In addition, in the second embodiment, a fourth inspection permission state is also detected. The fourth inspection permission state is when the power supply position of the vehicle C is changed from the on position or the accessory position to the off position. More precisely, the fourth inspection permission state is a period from when the power supply position of the vehicle C changes from the on position or the accessory position to the off position, the backlight 13 is turned off, and the navigation system 1 ends.

[Processing in fourth inspection permitted state]
FIG. 8 shows changes in various signals when the power supply position is turned off. There are three types of power positions: on, accessory, and off, and can be switched by an ignition switch.

  In FIG. 8, the power supply position changes from the on position to the off position at time t31. When the power supply position is switched to the off position, the backlight 13 is also turned off at time t31. However, the navigation system 1 does not turn off immediately because of various end processes. At time t32, which is a fixed time after time t31, a system end signal is output, and thereafter, the navigation system 1 is turned off. Therefore, between time t31 and time t32, the control ECU 20 operates while the backlight 13 is off.

  Since the situation in which the control ECU 20 operates while the backlight 13 is off is the same as after time t1 in FIG. 3, the control ECU 20 executes S12 to S14 shown in FIG. Is determined to be abnormal.

  When it is determined in the fourth inspection permission state that the liquid crystal panel 12 is abnormal, the notification unit 30 notifies the display unit that abnormality has been detected after the power state of the vehicle C is turned on next time. I do.

<Third embodiment>
In the first and second embodiments, the description has been given on the assumption that the inspection of the liquid crystal panel 12 is completed in one turn-off period of the backlight 13. However, it is also assumed that the inspection of the liquid crystal panel 12 is not completed during the period in which the backlight 13 is turned off once. In the third embodiment, assuming this, the control ECU 20 executes the processing.

  FIG. 9 shows a process executed by the system control unit 24 in the third embodiment. The system control unit 24 periodically executes the processing shown in FIG.

  In S21, it is determined whether the backlight 13 is on or off. If the backlight 13 is turned on, the processing shown in FIG. 9 ends. On the other hand, when the backlight 13 is turned off, the process proceeds to S22. The state where the backlight 13 is turned off is the inspection permission state. In S22, the touch sensor control unit 25 and the LCD control unit 26 are set to the inspection mode.

  Subsequent steps S23 and S24 are processing as an abnormality inspection section. In step S23, the inspection progress is read. The inspection progress is stored in the nonvolatile memory 28. In S24, if the inspection progress read in S23 indicates that the inspection is interrupted in the middle, an area where the inspection is not completed is set as the inspection target. More specifically, a determination is made as to whether or not there is an abnormality in a part of the area that has not been inspected in the inspection progress. The processing in S24 is the same as the processing in S13 in FIG. 4 except that the target for determining the presence or absence of an abnormality is a partial area of the liquid crystal panel 12. The partial region for one time is a region obtained by dividing the entire liquid crystal panel 12 into a plurality, and is, for example, 1/100 or 1/4 of the entire liquid crystal panel 12. The size of the partial area is appropriately determined according to the processing speed of the control ECU 20.

  In S25, the abnormality inspection of the liquid crystal panel 12, that is, the progress of the abnormality presence / absence determination is determined. If the inspection has been completed by the immediately preceding process of S24, the process proceeds to S26. In S26, the inspection progress is reset. In subsequent S27, the inspection is completed, and if it is determined that there is an abnormality in the liquid crystal panel 12 as a result of the inspection, the abnormality is notified by the same processing as in S15. In addition, even when there is no abnormality, the completion of the inspection may be notified.

  If it is determined in S25 that the progress of the abnormality presence / absence determination is not completed, the process proceeds to S28. In S28, it is determined whether or not it is time to turn on the backlight 13. The timing at which the backlight 13 is turned on can be determined even before the backlight 13 is turned on, based on the elapsed time after the system activation signal Sp becomes the on signal or the shift position is switched. If the time until the backlight 13 is turned on is shorter than the time for executing the processing in S24, it is assumed that the timing at which the backlight 13 is turned on is reached. That is, the determination in S28 determines whether or not the inspection permission state ends before one inspection ends. If it is determined that it is time to turn on the backlight 13, the process proceeds to S29.

  In S29, the touch sensor control unit 25 and the LCD control unit 26 are set to the general mode. Then, the process proceeds to S30. In S30, the inspection result and the inspection progress obtained by executing the immediately preceding S24 are stored in the non-volatile memory 28, and the processing shown in FIG. 9 ends. The inspection progress stored here is read out when the process shown in FIG. 9 is executed and S23 is executed after the next time.

  If it is determined in S28 that the backlight 13 is still off, the process proceeds to S31. In S31, it is determined whether a system end signal has been output. If the system output signal has been output, the inspection process of the liquid crystal panel 12 cannot be performed, so the process proceeds to S30 described above, where the inspection result and the inspection progress are recorded, and the process shown in FIG. 9 ends.

  If it is determined in S31 that the system end signal has not been output, the process proceeds to S32. In S32, the inspection result and the inspection progress obtained by executing the immediately preceding S24 are stored in the nonvolatile memory 28. Then, the process returns to S23.

  FIG. 10 shows a specific example of the processing performed in the third embodiment. In the example of FIG. 10, at time t41, the system activation signal Sp becomes an ON signal, whereby the system control unit 24 is turned on at that time. In this case, as shown in FIG. 3, the system control unit 24 performs a liquid crystal abnormality determination process. This processing is the processing shown in FIG. 9 in the third embodiment.

  Thereafter, by executing S22, at time t42, the touch sensor control unit 25 and the LCD control unit 26 enter the inspection mode, and the inspection of the liquid crystal panel 12 is performed. The inspection mode ends at time t43, and thereafter, the backlight 13 is turned on at time t44.

  The example in FIG. 10 is an example of a case where the vehicle C leaves the garage by traveling backward, and the shift position is the R position at time t45. Thus, at time t46, the backlight control unit 27 turns off the backlight 13, and at time t47, the touch sensor control unit 25 and the LCD control unit 26 enter the inspection mode. This inspection mode is temporary, and ends at time t48 before the backlight control unit 27 turns on the backlight 13. Thereafter, at time t49, the backlight control unit 27 turns on the backlight 13.

  After leaving the warehouse, the shift position is changed to the D position at time t50 in order to travel to the destination by forward traveling.

  At this time, when the image on the liquid crystal panel 12 is switched, the backlight 13 is turned off at time t51. Next, at time t52, the touch sensor control unit 25 and the LCD control unit 26 enter the inspection mode, and the liquid crystal panel 12 is inspected. The inspection at this time also ends at time t53 before the backlight 13 is turned on, and the backlight 13 is turned on at time t54.

  After the vehicle C arrives at the destination, the shift position becomes the P position at time t55. Thereafter, at time t56, the backlight 13 is turned off, and from time t57, the touch sensor control unit 25 and the LCD control unit 26 enter the inspection mode again, and the liquid crystal panel 12 is inspected.

[Summary of Third Embodiment]
In the third embodiment, it is assumed that the inspection of the liquid crystal panel 12 is not completed during a single light-off period of the backlight 13, and it is determined whether or not there is an abnormality in each partial area of the liquid crystal panel 12 (S24). Is recorded (S30, S32). Thus, even if the light-off period of the backlight 13 is short, it is possible to inspect whether or not the liquid crystal panel 12 is abnormal by using the light-off period.

  Moreover, since the judgment is made before the backlight 13 is turned on (S28), it is possible to suppress that the liquid crystal panel 12 is being inspected when the backlight 13 is turned on. Therefore, when the backlight 13 is turned on, it is possible to prevent the user from seeing the screen under inspection and misunderstanding that it is a failure.

<Fourth embodiment>
In the fourth embodiment, the processing shown in FIG. 11 is executed instead of the processing shown in FIG. The processing shown in FIG. 11 differs from FIG. 9 in that S25-1 is added.

  In the process shown in FIG. 11, when it is determined in S25 that the progress of the abnormality determination is not completed, S25-1 is executed. In S25-1, it is determined whether or not the portion where the inspection has been performed has an abnormality. If it is determined that there is an abnormality, the process proceeds to S26 even if the inspection of the entire area of the liquid crystal panel 12 is not completed. On the other hand, if it is determined in S25-1 that there is no abnormality in the portion where the inspection has been performed, the process proceeds to S28.

  In the fourth embodiment, if there is an abnormality in the part where the inspection is performed, the liquid crystal panel 12 is notified that an abnormality has been detected even if the inspection of the entire area of the liquid crystal panel 12 is not completed. As a result, there may be a case where an abnormality of the liquid crystal panel 12 can be notified early even if the entire inspection of the liquid crystal panel 12 is not completed even if the vehicle C arrives at the destination after the departure. Therefore, even if important information cannot be transmitted due to a display abnormality, it is possible to further suppress the vehicle C from traveling as it is.

  As described above, the embodiment has been described, but the disclosed technology is not limited to the above-described embodiment, and the following modifications are also included in the disclosed range. Various modifications can be made.

<Modification 1>
In the embodiment, the state in which the backlight 13 is turned off has been described as the inspection permission state in which the change in the driving state of the liquid crystal panel 12 is hardly noticeable. However, the inspection permission state is not limited to the state where the backlight 13 is turned off.

  A state in which the vehicle C has no occupant and power supply to the liquid crystal display device is permitted may be included in the inspection permission state. If there is no occupant in the vehicle C, it is highly likely that the user does not look at the liquid crystal panel 12 even if the screen for inspecting the display abnormality is displayed on the liquid crystal panel 12, so It is unlikely that the user will mistakenly think that a failure has occurred.

  As a state in which power supply to the liquid crystal display device is permitted even when there is no occupant in the vehicle C, for example, when the vehicle C is a vehicle capable of pre-air conditioning, there is a state in which pre-air conditioning is being performed. .

  Pre-air conditioning installs applications on the smartphone and issues instructions from the smartphone. Therefore, it can be estimated that the state in which the pre-air conditioning is being performed is a state in which there is no occupant in the vehicle C. When the pre-air conditioning is being performed, the air conditioner mounted on the vehicle C is energized, so that the liquid crystal display device can be energized at the same time.

  Further, as another example of a state in which power supply to the liquid crystal display device is permitted even though there is no occupant in the vehicle C, the vehicle C is a vehicle that can be charged from outside, and the vehicle C is charged from outside. There is a state that is. This is because the liquid crystal panel 12 can be inspected without charging the battery when the battery is charged from the outside of the vehicle C.

  In a state where the vehicle C is charged from outside, the vehicle C cannot travel. Therefore, in the state where the vehicle C is charged from the outside, there is a high possibility that the vehicle C has no occupant. Therefore, it is possible to estimate the state where the vehicle C is charged from the outside as the state where the vehicle C has no occupant. it can. Alternatively, it may be estimated that there is no occupant in the vehicle C by another means, for example, that the door of the vehicle C is locked, the electronic key cannot be detected in the vehicle, a combination thereof, or the like.

<Modification 2>
Another example of a state in which power supply to the liquid crystal display device is permitted even when there is no occupant in the vehicle C is a state in which it is estimated that an occupant approaches the vehicle C and gets into the vehicle C. For example, when the verification between the electronic key and the in-vehicle device through wireless communication is established by the radio wave transmitted from the in-vehicle device to the outside, it can be estimated that the occupant approaches the vehicle C and gets into the vehicle C.

  If it can be estimated that the occupant approaches the vehicle C and gets into the vehicle C, the power supply position of the vehicle C is turned on after a while, and there is a high possibility that the vehicle display device is also energized. Therefore, even if the vehicle display device is energized shortly before the occupant gets into the vehicle C and the liquid crystal panel 12 is inspected, there is little fear that the battery will run out. Moreover, since the inspection of the liquid crystal panel 12 is performed shortly before the occupant enters the vehicle C, it is highly possible that the abnormality of the liquid crystal panel 12 can be notified before the vehicle C starts running. Therefore, it is possible to prevent the vehicle C from starting running when the liquid crystal panel 12 is abnormal and important information cannot be transmitted.

<Modification 3>
In the embodiment, the touch panel ASSY 10 included in the navigation system 1 has been described as an example of the liquid crystal display device. However, the liquid crystal display device does not have to be the liquid crystal display device included in the navigation system 1. The liquid crystal display device can be various types of liquid crystal display devices used in the vehicle C, such as a device for displaying an instrument and an electronic mirror.

1: Navigation system 10: Touch panel ASSY 11: Touch sensor 12: Liquid crystal panel 13: Backlight 20: Control ECU 21: Input I / F 22: Input I / F 23: Input I / F 24: System control unit 25: Touch Sensor control unit 26: LCD control unit 27: Backlight control unit 28: Non-volatile memory 30: Notification unit 40: Back camera C: Vehicle S10, S10A, S11: Permitted state detection unit S13, S23, S24: Abnormality detection unit

Claims (10)

An abnormality detection device (20) for a liquid crystal display device that includes a backlight (13) and a liquid crystal panel (12) and detects a display abnormality of a liquid crystal display device (10) mounted on a vehicle (C),
A permission state detection unit (S11, S10, S10A) for detecting that the occupant of the vehicle is in a predetermined inspection permission state and is difficult to notice a change in the driving state of the liquid crystal panel;
An abnormality inspection unit (S13, S23) that drives the liquid crystal panel based on the fact that the permission state detection unit detects that the inspection is in the inspection permission state, and inspects whether the liquid crystal panel is abnormal. , S24), an abnormality detection device for a liquid crystal display device.   2. The abnormality detection device for a liquid crystal display device according to claim 1, wherein the inspection permission state includes a state in which the backlight is turned off.   3. The abnormality detection device for a liquid crystal display device according to claim 2, wherein the inspection permission state includes a period after the power supply state of the vehicle is turned on until the backlight is turned on. When the shift position is the reverse position, the liquid crystal panel is configured to display an image captured by the back camera provided in the vehicle,
The backlight is temporarily turned off when the shift position is switched from the position different from the reverse position to the reverse position,
The abnormality detection of the liquid crystal display device according to claim 2, wherein the inspection permission state includes a state in which the backlight is turned off when the shift position switches from a position different from the reverse position to the reverse position. apparatus. When the shift position is the reverse position, the liquid crystal panel is configured to display an image captured by the back camera provided in the vehicle,
The backlight is temporarily turned off when the shift position is switched from the reverse position to a position different from the reverse position,
The abnormality detection of the liquid crystal display device according to claim 2, wherein the inspection permission state includes a state in which the backlight is turned off when the shift position is switched from the reverse position to a position different from the reverse position. apparatus.   3. The liquid crystal display according to claim 2, wherein the inspection permission state includes a period from when a power supply position of the vehicle is switched to an off position, after the backlight is turned off, until power supply to the liquid crystal display device ends. 4. Device abnormality detection device.   2. The abnormality detection device for a liquid crystal display device according to claim 1, wherein the inspection permission state includes a state in which there is no occupant in the vehicle and power supply to the liquid crystal display device is permitted. The vehicle is a vehicle that can be pre-air-conditioned,
8. The abnormality detection device for a liquid crystal display device according to claim 7, wherein the inspection permission state includes a state in which the pre-air conditioning is being performed. The vehicle is a vehicle that can be charged from outside the vehicle,
8. The abnormality detection device for a liquid crystal display device according to claim 7, wherein the inspection permission state includes a state where the vehicle is charged from outside the vehicle. The abnormality inspection unit divides the liquid crystal panel into a plurality, and sequentially performs the inspection,
A memory (28) for storing the progress of the test when the test permission state ends before the test ends;
The abnormality inspection unit may execute an inspection of an area where the inspection has not been completed when the memory is stored in the memory when the inspection is permitted, if the inspection is interrupted halfway. Item 10. The abnormality detection device for a liquid crystal display device according to any one of Items 1 to 9.

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