The present invention relates to a vehicle-mounted electronic device to be attached to a ceiling surface of a vehicle.
For example, vehicle-mounted electronic devices such as a car navigation device and a television receiver are often attached to the vicinities of front panels of vehicle interiors, and when the vehicle-mounted electronic devices are used in places like these, the display units become extremely difficult to see, depending on the incidence state of sunlight.
Consequently, an electronic device that stores the influence of sunlight of each season, and adjusts illuminance or the like of the display unit has been proposed (for example, Patent Literature 1 as follows).
The above described conventional example has an object thereof limited to reduction in difficulty to see the display unit due to sunlight, and does not take the influence by illumination from a following vehicle into consideration. Therefore, the difficulty to see the display unit by illumination from the following vehicle at night cannot be reduced.
However, it is a common experience to receive illumination from the headlights from a following vehicle for a long time since the following vehicle moves via the same route, while driving a vehicle at night. In such a case, the state in which the display unit is difficult to see by illumination from the following vehicle indefinitely continues for a long period of time.
The present invention is made in the light of the problem as above, and an object of the present invention is to reduce an influence by illumination of a following vehicle and to make a usage environment of a vehicle-mounted electronic device comfortable.
In order to attain the above described object, a vehicle-mounted electronic device according to the present invention includes a main body case to be attached to a ceiling surface of a vehicle, a display unit that is attached to the main body case to be openable downward and closable, a drive unit that drives the display unit to open and close, and a control unit that is connected to the drive unit, and includes a configuration in which a sensor that detects illumination from a following vehicle is provided in at least one of the display unit and the main body case, and the control unit rotates the display unit by means of the drive unit, when the sensor detects illumination from a following vehicle.
The vehicle-mounted electronic device according to the present invention includes a main body case to be attached to a ceiling surface of a vehicle, a display unit that is attached to the main body case to be openable downward and closable, a drive unit that drives the display unit to open and close, and a control unit that is connected to the drive unit, and is configured such that a sensor that detects illumination from a following vehicle is provided in at least one of the display unit and the main body case, and the control unit rotates the display unit by means of the drive unit, when the sensor detects illumination from a following vehicle. Therefore, the influence by illumination from a following vehicle can be reduced.
When the display unit of the vehicle-mounted electronic device is attached to the main body case attached to the ceiling surface of a vehicle to be openable downward and closable, the display unit extremely easily receives the influence by the illumination of a following vehicle.
Therefore, in the present invention, the sensor that detects illumination from the following vehicle is provided in at least one of the display unit and the main body case. The control unit rotates the display unit by means of the drive unit when illumination from the following vehicle is detected by the sensor. By adopting the configuration like this, illumination from the following vehicle does not reflect on the display unit toward a viewer. As a result, the influence by the illumination of the following vehicle is reduced, and the usage environment of the vehicle-mounted electronic device can be made comfortable.
Hereinafter, one embodiment of the present invention will be described with use of the accompanying drawings.
Further, a steering wheel 5 is disposed in front of the front seat 3 in the vehicle interior 2, and the vehicle-mounted electronic device 7 including a display unit 9 is attached to a part between the front seat 3 and the rear seat 4, of a ceiling surface 6 of the vehicle interior 2.
As shown in
Further, in the main body case 8, a drive unit 10 that drives the display unit 9 to open and close, and a control unit 11 connected to the drive unit 10 are contained as shown in a block diagram of
When a fellow passenger sitting in the rear seat 4 views the video on the display unit 9, the display unit 9 is brought into a state in which the display unit 9 is opened at 90 degrees or more with respect to the main body case 8 as illustrated in
The feature in the present embodiment lies in that the sensor 15 formed by a camera facing rearward is provided at the outer perimeter portion of the display unit 9, and the sensor 15 is connected to the control unit 11. The control unit 11 is configured to rotate the display unit 9 by means of the drive unit 10 when the sensor 15 detects illumination from a following vehicle.
Hereinafter, the feature will be mainly described.
In the state shown in
However, when a following vehicle 16 with headlights lit follows while the display unit 9 is in the open state as above, illumination 17 from the headlights of the following vehicle 16 is also incident on the display unit 9. The illuminating light reflects on the display unit 9 toward the face of the fellow passenger sitting in the rear seat 4, and the video is extremely difficult to see for the fellow passenger.
As described above, the sensor 15 is for detecting illumination from a following vehicle. When the sensor 15 detects illumination (light) of the following vehicle (S1: Yes), the control unit 11 determines whether or not a present opening angle of the display unit 9 is a normal viewing angle (S2).
When the opening angle of the display unit 9 is determined as the normal viewing angle as a result (S2: Yes), the angle of the display unit 9 is changed by the drive unit 10 (S3), the display unit 9 is rotated in a direction in which the opening angle (θ) of the display unit 9 with respect to the main body case 8 becomes smaller as shown in
As shown in this drawing, when the present opening angle of the display unit 9 is determined as the normal viewing angle after the sensor 15 detects illumination of the following vehicle, and the display unit 9 rotates to be in the state in which the opening angle (θ) with respect to the main body case 8 becomes smaller, the fellow passenger sitting in the rear seat 4 hardly feels glare, and the video becomes easy to see, even if the illumination 17 from the following vehicle 16 is incident on the display unit 9, because the light of the illumination reflects in the direction of the ceiling surface 6.
Note that the opening angle of the display unit 9 that needs to be changed in step S3, namely, the rotation angle of the display unit 9 is as small as about five degrees to 10 degrees. Such a rotation angle is sufficient that reduces glare by reflection light, which the fellow passenger sitting in the rear seat 4 feels, and even if a rotation angle is not taken to be larger than necessary, there is no hindrance in viewing the video shown on the display unit 9.
When the distance from the following vehicle 16 becomes larger in the state in which viewing the display unit 9 is continued in the state of
However, the distance from the following vehicle 16 changes every moment, and therefore, if the opening angle (θ) of the display unit 9 is changed too frequently, it is likely to be difficult to view the video on the contrary.
Consequently, in the present embodiment, the opening angle (θ) is kept for a while after the display unit 9 is once rotated and the opening angle (θ) with respect to the main body case 8 is made smaller. Specifically, in the flow shown in
Meanwhile, when continuation of the non-detection state of illumination of the following vehicle is the predetermined time period or more (S4: Yes), it is determined whether or not the present opening angle of the display unit 9 is a normal viewing angle by the control unit 11 (S5). When the opening angle of the display unit 9 is not the normal viewing angle (S5: No) as a result of the determination, the flow returns to step S1 and the operation is repeated.
When the opening angle of the display unit 9 is the normal viewing angle (S5: Yes) as a result of the determination in step S5, the display unit 9 is rotated in the direction in which the opening angle of the display unit 9 with respect to the main body case 8 becomes larger and is returned to the original state shown in
As above, the vehicle-mounted electronic device according to the present invention includes the main body case to be attached to the ceiling surface of a vehicle, the display unit attached to the main body case to be openable downward and closable, the drive unit that drives the display unit to open and close, and the control unit connected to the drive unit, and is configured such that the sensor that detects illumination from a following vehicle is provided in at least one of the display unit and the main body case, and the control unit rotates the display unit by means of the drive unit when the sensor detects illumination from the following vehicle.
Therefore, illumination from the following vehicle reflects on the display unit, and the fellow passenger sitting in the rear seat does not feel the glare due to the reflection light.
The present invention provides art that reduces the influence by illumination of the following vehicle and makes the usage environment of the vehicle-mounted electronic device comfortable.
Number | Date | Country | Kind |
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2012-055586 | Mar 2012 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2013/001582 | 3/12/2013 | WO | 00 |