JPH09265271A - Display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To always attain the best display angle and the best color gradation in accordance with the change in the advancing direction of a vehicle by controlling the characteristic of the display environment of a display means while reading out data stored in a storage means based on the calculation result of an incident angle calculating means. SOLUTION: The direction of the sun is calculated based on the detection output from a solar ray direction detecting circuit 12. The direction of the vehicle of his own is calculated by a bearing sensor 2 and the present angle of a display part 5 in vertical and horizontal directions is detected based on the detection output of an angle detecting part 52. The incident angle of a solar ray with respect to the display surface of the display part 5 installed in the vehicle of his own is calculated and the best easy-to-see data, etc., are read out by referring to a map and the adjustment of the data is preformed so as to reproduce an initial value to be outputted to an RGB demodulating circuit 42. The position of the solar ray with respect to the display surface is not always changed and then the best display state can be reproduced by allowing a display control circuit 3 to control the angle formed by the display surface and the solar ray so as to become the angle of the initial value read out from the map with respect to an angle adjusting part 51.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle-mounted display device, and more particularly to a display device in which the influence of sunlight on a display screen is improved.

[0002]

2. Description of the Related Art A vehicle is equipped with a display device having a liquid crystal display such as a navigation device or a television receiver. However, in the on-vehicle display device, the traveling direction of the vehicle is constantly changed and the display surface is changed. The incident angle of sunlight changes. As a result, sunlight is reflected on the display surface and the color tone is changed. Therefore, each time the viewer adjusts the mounting angle of the display device, the image quality, and the like.

[0003]

The above method has a problem that the angle adjustment and color tone adjustment of the display device are troublesome during driving. It is an object of the present invention to provide a display device capable of always adjusting the best display angle and color tone in response to changes in the traveling direction of a vehicle.

[0004]

In order to achieve the above object, the present invention provides a display means installed in a vehicle for displaying image information, an incident angle of sunlight on a display surface of the display means, Storage means for storing in advance data indicating the characteristics of the display environment of the display means adapted to the incident angle, and incident angle calculation means for calculating the incident angle of sunlight on the display surface of the display means, It is characterized by further comprising display control means for reading the data stored in the storage means and controlling the characteristics of the display environment of the display means based on the calculation result of the incident angle calculation means.

Further, the display means installed in the vehicle for displaying image information, the incident angle of sunlight on the display surface of the display means, and the angle of the display surface of the display means adapted to the incident angle are displayed. It has a storage means for storing the data shown in advance and an incident angle calculation means for calculating the incident angle of sunlight on the display surface of the display means, and is stored in the storage means based on the calculation result of the incident angle calculation means. An angle control means for controlling the angle of the display surface of the display means by reading the stored data is provided.

Further, the incident angle calculating means includes a sunlight direction calculating means for calculating the direction and altitude of the sunlight based on the current date and time, a traveling direction detecting means for detecting the traveling direction of the own vehicle, An angle detection unit that detects an angle of a display surface of the display unit in the own vehicle, and the own vehicle detected by the traveling direction detection unit and the azimuth and altitude of the sunlight calculated by the sunlight direction calculation unit. The angle of incidence of sunlight on the vehicle is detected from the traveling direction and the horizontal angle of the incident light of sunlight on the display surface is calculated from the angle of incidence and the horizontal angle of the display surface. It is a feature.

Further, the incident angle calculation means calculates a sunlight direction calculation means for calculating the azimuth and altitude of sunlight based on the current date and time, and an inclination angle of the display surface of the display means in the own vehicle. An angle detection means for detecting, and the vertical direction of the sunlight on the display surface from the azimuth and altitude of the sunlight calculated by the sunlight direction calculation means and the inclination angle of the display surface detected by the angle detection means. The feature is that the incident angle is calculated.

Further, the characteristics of the display environment are characterized in that the hue of the image signal, the shade of the color, the luminance, and the brightness of the backlight in the liquid crystal display device. Further, it has a rainfall detecting means for detecting rainfall, and further comprises a first stopping means for stopping the operation of the display control means or the angle control means when the rainfall detection means detects that it is rainfall. It is a feature.

The rainfall detecting means is characterized in that it detects that the switch of the wiper is on. Further, the display control means or the angle control means has a second stop means for stopping the operation when the night-time detecting means detects the night-time and the night-time detecting means detects the night-time. It is characterized by that.

Further, the night-time detecting means is characterized by detecting that the switch of the illumination lamp is on.

[0011]

1 is a diagram showing the configuration of a display device according to an embodiment of the present invention. FIG. 2 is an adjustment flowchart of the display control circuit 3 of the display device according to the embodiment of the present invention. FIG. 3 is a diagram for explaining the irradiation angle calculation method. Hereinafter, description will be made with reference to the drawings.

Reference numeral 11 is a clock for detecting the time. Reference numeral 12 is a sunlight direction detection circuit that calculates the position (azimuth and altitude) of the sun from a memory in which the position of the sun is recorded in advance corresponding to the date and time. Reference numeral 2 denotes an azimuth sensor such as a geomagnetic sensor or a gyro sensor that detects the traveling direction (azimuth) of the vehicle. 3 calculates the direction of the sunlight and the altitude with respect to the traveling direction of the own vehicle based on the tilt angle of the liquid crystal display unit and the detection results of the sunlight direction detection circuit 12 and the azimuth sensor 2. The display control circuit calculates the incident angle of sunlight and adjusts the display unit 5 based on the calculation result. Reference numeral 41a is an inverter that adjusts the pulse width of a predetermined frequency (Duty adjustment) to adjust the illuminance of the backlight 41b, and 41b is a backlight that illuminates the liquid crystal surface of the display unit 5.

Reference numeral 42 denotes a display unit 5 such as a liquid crystal based on a video signal.
R for demodulating color signals (R, G, B signals) output to
It is a GB demodulation circuit. Note that the RGB demodulation circuit 42 also adjusts the saturation, hue, and brightness corresponding to the azimuth of sunlight according to an instruction from the display control circuit 3. Reference numeral 5 is a liquid crystal display unit for displaying television images. Reference numeral 51 is an angle adjusting unit for adjusting the tilt angle (vertical direction) of the liquid crystal display surface of the display unit 5.
Reference numeral 52 denotes an angle detection unit that detects the angle (horizontal and vertical directions) of the liquid crystal display unit. Reference numeral 61 is a wiper switch, and when the switch is turned on, the display control circuit 3 determines that it is raining. Reference numeral 62 denotes a lighting switch, and when the switch is turned on, the display control circuit 3 determines that it is nighttime. It should be noted that the display control circuit 3 can input, store, and read data such as the angle of the display surface and the brightness so that the display screen can be optimally viewed without being disturbed by the incident angle of sunlight. A storage device (RAM or the like) is provided.

Next, the operation will be described with reference to the flowchart of FIG. In step S1, an initial value is input and the process proceeds to step S2. That is, the optimum conditions for the display are input. For example, in the vertical direction, the optimum incident angle of sunlight on the display surface is input, and in the horizontal direction, the most observable luminance value with respect to the incident angle of sunlight on the display surface is input. Incidentally, such angles and values may be mapped and stored in a storage device in the display control circuit 3. Further, this input may be performed by directly operating the display unit 5.

In step S2, it is determined whether or not the wiper switch 61 is on. If the wiper switch 61 is on, the process is ended, and if the wiper switch 61 is not on, the process proceeds to step S3. In other words, the sunlight is not applied to the display surface when it is raining, which eliminates the need to adjust the display screen. In step S3, it is determined whether or not the lighting switch 62 is turned on. If the lighting switch 62 is turned on, the process is ended. If the lighting switch 62 is not turned on, the process proceeds to step S4. That is, since the sunlight is not applied to the display surface at night, it is not necessary to adjust the display screen.

In step S4, the sunlight direction detection circuit 1
The direction of the sun (absolute azimuth, altitude) is calculated based on the detection output from 2, and the process proceeds to step S5. That is, the position (direction, altitude) of the sun is determined by knowing the season (month / day) and time. This relationship is stored in a memory in advance as a map, and the direction of the sun (for example, true north is 0 ° in the north, south, east, and west directions) θ1 and the altitude (angle formed with the horizontal plane) φ1 corresponding to the date and time are read out. (If coarsely stored in memory, finer parts are calculated by interpolation).

In step S5, the traveling direction (absolute direction) of the vehicle is detected by the direction sensor, and the process proceeds to step S6. That is, the direction sensor calculates the traveling direction of the host vehicle (for example, true north is 0 ° in the north, south, east, and west directions) θ2.
In step S6, the current angles of the display unit 5 in the vertical and horizontal directions are detected based on the detection output from the angle detection unit 52. The inclination angle in the vertical direction is based on the ground surface, and the inclination angle in the horizontal direction is based on the front surface of the vehicle.

In step S7, the incident angle of sunlight (horizontal and vertical directions) on the display surface of the display unit installed in the vehicle.
Is calculated and the process proceeds to step S8. That is, the incident angles θ and φ of the sunlight with respect to the liquid crystal display surface are the angles θ1, φ1 and θ2 obtained in step S4 and step S5, and further the display unit 5 is provided.
It is calculated based on the inclination angles φ2 and θ3 of Equation (1) and Equation (2).

Horizontal angle θ = θ3− (θ1−θ2) (Equation (1)) Vertical angle φ = φ2−φ1 (Equation (2)) In step S8, the saturation is automatically adjusted, and then in step S8.
Move to 9. In other words, referring to the map from the obtained horizontal angle θ, the most visible data and the like for this θ are read, adjustment is performed so as to reproduce the initial value, and output to the RGB demodulation circuit 42. The RGB demodulation circuit 42 corrects the input video signal and outputs it to the display unit 5.

In step S9, the hue is automatically adjusted, and the process proceeds to step S10. That is, referring to the map from the obtained horizontal angle θ, the most visible data and the like for this θ are read, adjustment is performed so as to reproduce the initial values, and RGB is adjusted.
Output to the demodulation circuit 42. The RGB demodulation circuit 42 corrects the input video signal and outputs it to the display unit 5. In step S10, the brightness is automatically adjusted and the process proceeds to step S11. In other words, referring to the map from the obtained horizontal angle θ, the most visible data and the like for this θ are read, adjustment is performed so as to reproduce the initial value, and output to the RGB demodulation circuit 42. The RGB demodulation circuit 42 corrects the input video signal and outputs it to the display unit 5.

In step S11, the duty is automatically adjusted and the process proceeds to step S12. That is, the adjustment is performed so as to reproduce the initial value, and the initial value is output to the inverter 41a. The inverter 41a adjusts the illuminance of the backlight 41b with a predetermined duty. In step S12, the angle adjusting unit 51 that adjusts the vertical angle φ of the liquid crystal display surface is controlled to adjust to a predetermined (initial) angle. That is, the display control circuit 3 controls the angle adjusting unit 51 so that the angle φ formed by the display surface and the sunlight becomes the angle of the initial value read from the map, so that the position of the sunlight relative to the display surface is always maintained. The best display condition can be reproduced without changing.

In steps S4 to S5, the position of the vehicle (latitude, latitude,
(Longitude) is detected and the azimuth and altitude of the sun corresponding to the time at that position are calculated, so that the latitude, even when the point where the initial value of the display is set and the current position are greatly separated,
It is possible to correct the error based on the difference in longitude, and improve the accuracy of the azimuth and altitude of the sun. Further, instead of the direction sensor 2, the traveling direction (direction) of the own vehicle is matched by matching the map data corresponding to the detected position of the own vehicle by the navigation.
It is also possible to calculate Although the angle of the display unit 5 is adjusted only in the vertical direction, it is not limited to this and may be adjusted in the horizontal direction. On the contrary, all may be controlled by saturation, hue, and brightness.

As described above, in this embodiment, the best display tilt angle is always provided in accordance with the change in the traveling direction of the vehicle.
A display device capable of color tone adjustment can be provided.

[0024]

As described above, according to the present invention, it is possible to provide a display device capable of always adjusting the optimum display tilt angle and color tone according to the change in the traveling direction of the vehicle.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a display device according to an embodiment of the present invention.

FIG. 2 is an adjustment flowchart of the display control circuit 3 of the display device according to the embodiment of the present invention.

FIG. 3 is a diagram illustrating an irradiation angle calculation method.

[Explanation of symbols]

 12 ... Sunlight direction detection circuit 2 ... Direction sensor 3 ... Display control circuit 5 ... Display unit 51 ... Angle adjustment unit

Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location // G09B 29/00 G09B 29/00 Z

Claims (9)

[Claims] 1. A display means installed in a vehicle for displaying image information, an incident angle of sunlight on a display surface of the display means, and a characteristic of a display environment of the display means adapted to the incident angle. It has a storage means for storing the data shown in advance and an incident angle calculation means for calculating the incident angle of sunlight on the display surface of the display means, and is stored in the storage means based on the calculation result of the incident angle calculation means. A display device comprising display control means for reading the stored data and controlling the characteristics of the display environment of the display means. 2. A display means installed in a vehicle for displaying image information, an incident angle of sunlight on a display surface of the display means, and an angle of the display surface of the display means adapted to the incident angle. It has a storage means for storing the data shown in advance and an incident angle calculation means for calculating the incident angle of sunlight on the display surface of the display means, and is stored in the storage means based on the calculation result of the incident angle calculation means. A display device comprising: angle control means for reading the stored data to control the angle of the display surface of the display means. 3. The incident angle calculation means, a sunlight direction calculation means for calculating the direction and altitude of sunlight based on the current date and time, a traveling direction detection means for detecting the traveling direction of the vehicle, An angle detection unit that detects an angle of a display surface of the display unit in the own vehicle, and the own vehicle detected by the traveling direction detection unit and the azimuth and altitude of the sunlight calculated by the sunlight direction calculation unit. The angle of incidence of sunlight on the vehicle is detected from the traveling direction and the horizontal angle of the incident light of sunlight on the display surface is calculated from the angle of incidence and the horizontal angle of the display surface. The display device according to claim 1, wherein the display device is a display device. 4. The incident angle calculation means calculates a sunlight direction calculation means for calculating the azimuth and altitude of sunlight based on the current date and time, and an inclination angle of a display surface of the display means in the own vehicle. An angle detection means for detecting, and the vertical direction of the sunlight on the display surface from the azimuth and altitude of the sunlight calculated by the sunlight direction calculation means and the inclination angle of the display surface detected by the angle detection means. The display device according to claim 1 or 2, wherein an incident angle is calculated. 5. The display device according to claim 1, wherein the characteristics of the display environment are a hue of an image signal, a shade of color, a luminance, and a brightness of a backlight in a liquid crystal display device. 6. A first stop means is provided which has rainfall detecting means for detecting rainfall, and which stops the operation of the display control means or the angle control means when the rain detecting means detects rain. The display device according to claim 1, wherein the display device is a display device. 7. The display device according to claim 6, wherein the rainfall detection means detects that the switch of the wiper is on. 8. A second stop, which has night-time detection means for detecting that it is night, and when the night-time detection means detects that it is night, the display control means or the angle control means stops its operation. The display device according to claim 1 or 2, further comprising means. 9. The display device according to claim 8, wherein the nighttime detection means detects that the switch of the illumination lamp is turned on.