JPH0577658A - Head-up display for vehicle and its displaying method - Google Patents

Abstract

PURPOSE:To eliminate the coloring of the combiner of a holographic head-up display, and thereby reduce a sense of incompatibility on the part of an obserber. CONSTITUTION:Information light 4 from a light emission display means 3 is reflected by a half mirror 2, and is diffracted by a combiner 5. A white light source 1 is lit up when the light emission display means 3 is not lit up, so that beams 8 are irradiated to the combiner 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle head-up display (HUD).

[0002]

2. Description of the Related Art HUD has recently been used as a method of displaying information to a driver in a vehicle. This is a system in which optical information projected from a light emitting display means such as a liquid crystal display device is displayed on a combiner composed of a half mirror or the like so that the driver can read the information from the driving state without moving the line of sight. ..

Recently, as the above combiner, due to its simplicity as an optical element and the abundance of added functions,
Holograms are gaining attention. Since this holographic combiner can have not only the reflection function (diffraction function) but also the lens function and so on, it can diffract optical information in the driver's visual field direction, or use other optical systems such as lenses. It is possible to form an image at an arbitrary position without using it. Another feature is that a high-luminance display image can be obtained without impairing the foreground luminance.

FIG. 5 is a conceptual diagram showing the structure of such a vehicle-mounted HUD. Here, 31 is a driver's observation position, 32 is a holographic combiner, 33 is a light beam containing information, 34 is a lens system that is a collimator, 35 is a transmissive liquid crystal display element that is a display, and 36 is a halogen lamp or the like. Is a light source, 37 is a windshield, and 38 is a vehicle body.

The light emitted from the light source 36 passes through the transmissive liquid crystal display element 35 through the lens system 34, and the holographic combiner 32 provided on the windshield 37 of the vehicle.
It is irradiated on the vehicle and reflected (diffracted) to the driver at the observation position 31.
Is visible in.

In FIG. 5, if the holographic combiner 32 is provided with a lens function, it is possible to form a distant image on the display. In addition, the function of the lens system 4 which is the above collimator is changed to the holographic combiner 32.
It is also possible to have it.

[0007]

A feature of the holographic combiner is that it selectively reflects a specific color, that is, a specific wavelength, and its reflectance can be 90% or more. On the other hand, colors other than this wavelength are
The transmittance can be increased to 90% or more. On the other hand, this is a disadvantage, and when the outside scenery is viewed through the holographic combiner, the hue is lacking in the reflected color.

In other words, if the reflection color is green, the outside scenery looks pinkish. This is
Only a part of the window glass of the vehicle or the like, that is, the part where the holographic combiner is installed has a pink color, and when the combiner is not used, the driver feels uncomfortable and is inconvenient.

In such a holographic combiner, no method has been known for reducing a color that gives an unpleasant sensation such as pink when the external world is viewed through the holographic combiner.

[0010]

The present invention has been made to solve the above-mentioned problems, and is a vehicle in which a light beam having a specific wavelength containing information is diffracted toward a viewer by a combiner composed of a hologram. A head-up display for vehicle, comprising: a means for irradiating a combiner with a second light beam including the specific wavelength from a direction substantially the same as that of the light beam including the information. Is.

Here, the information is properly selected according to its display application, and examples thereof include a vehicle speedometer and a tachometer. The observer is mainly a driver of the vehicle, and can also include passengers such as the passenger seat and others, and persons including all of them.

The hologram functions as a combiner for the HUD. Usually, it has an area of several tens of mm square to several hundreds of mm square and a thickness of several tens of μm, and has a light diffraction function. As this hologram, emboss type, Lippmann type, rainbow type, and other holograms can be widely used. As the hologram material, various photosensitive materials such as polyvinyl cabazole, gelatin dichromate, photoresist, photopolymer, and silver salt can be used.

The peak wavelength of the diffraction intensity of the hologram can be made to substantially match the peak wavelength of the intensity of the light source.
It is preferable for improving the diffraction efficiency. Further, the hologram may be formed by performing multiple exposure with light having different properties.

The holographic combiner composed of such a hologram may be provided separately from the windshield, but it is preferably mounted on the windshield of the vehicle because of its simple structure, and particularly from the viewpoint of hologram protection. Is preferably used by being enclosed inside a windshield which is a laminated glass. In the present invention, two types of holograms are used, but both of them may be enclosed in the windshield, or only the hologram that diffracts light toward the observer may be enclosed.

In this case, the laminated glass is obtained by laminating and adhering a synthetic resin film such as a polyvinyl butyral film and a polyurethane film on at least one piece of glass, and examples of its form include a glass plate / synthetic resin film, There are glass plate / synthetic resin film / glass plate, glass plate / synthetic resin film / glass plate / synthetic resin film, glass plate / synthetic resin film / synthetic resin film and the like. The hologram may be enclosed in the boundary between these glass plates or the synthetic resin film or inside the synthetic resin film. The glass plate on which the hologram is mounted may be colored, or the surface thereof may be provided with a heat ray reflective film or the like.

A light beam containing information is emitted from the light emitting display means. The light emitting display means has a function of emitting light to display, and as a typical example, a so-called light receiving display element such as a liquid crystal display element is used for a hot cathode tube (HCT), a fluorescent display tube (VF), and a tungsten. Lamp, halogen lamp, L
There is also a combined use of a light source such as an ED. As the liquid crystal display element, a transmission type twist nematic type liquid crystal display element, a super twist nematic type liquid crystal display element and the like can be preferably used. In the case where such a light receiving type display element is also used with the above light source, an appropriate light beam collimating means such as a lens system and an appropriate light guiding means such as a light guide plate are arranged between the light receiving type display element and the light source. May be.

Further, as a light emitting display means, a plasma display, an electroluminescence display,
A light emitting display element such as a CRT may be used. Alternatively, instead of using a display element, the light source itself may be patterned and arranged to generate specific information as light.

Further, in the optical path until the light is projected on the holographic combiner, if necessary, a light deflecting means such as a mirror, or KNbO ₃ , β-BaB ₂ O ₄ , KTi.
OPO _4, the non-linear optical element made of KH ₂ PO ₄ and the like may be disposed.

It is preferable that the wavelength of the light diffracted by the hologram is in the green region where human visibility is high. One feature of the invention is a second feature that includes such wavelengths.
Is to have a means for irradiating the combiner with the above rays. The second light beam is applied to the combiner from substantially the same direction as the light containing the information. Therefore, in the second light beam, the specific wavelength is diffracted in the viewer direction, and the absorbed specific wavelength region in the spectrum of the light transmittance of the combiner is compensated.

A white light source is preferable as the second light ray. This is because it is possible to compensate even when there are a plurality of absorption bands in the spectrum of the light transmittance of the combiner. Of course, it is also possible to use a monochromatic light source that matches the absorption band of the light transmittance spectrum of the combiner. It is also possible to share the light source with the light ray containing information and the second light ray.

[0021]

OPERATION FIG. 1 is a diagram showing this operation. (A) is a transmittance (or absorptance) spectrum of the holographic combiner, showing that there is sharp absorption at the wavelength λ _a . That is, the white light transmitted through the combiner becomes a complementary color of the color of the wavelength λ _a and reaches the eyes of the viewer. (B) is a reflectance spectrum diffracted by the combiner, showing that the color of wavelength λ _a is reflected. The addition of these spectra (a) and (b) would theoretically give 100% for all wavelengths. That is, by observing the white light that has passed through the holographic combiner by superimposing the reflected light of the white light by the combiner, the color that gives the above-mentioned uncomfortable feeling becomes invisible. This state (c)
Shown in. Here, the effect due to the absorption band in (a) does not appear.

[0022]

EXAMPLE Example 1 is shown in FIG. It has the same structure as a normal head-up display except that a white light source 1 and a half mirror 2 are used. That is, the information light 4 from the light emitting display means 3 such as a fluorescent display tube is transmitted to the half mirror 2.
Combiner 5 made up of holograms reflected by
Is diffracted by. The diffracted image (virtual image) 6 at that time is recognized by the viewer 7.

The white light source 1 needs to be uniform in size by using a diffusion plate or the like and have a size capable of irradiating the entire combiner. You may enlarge it by inserting a Fresnel lens etc. As for the brightness, the diffracted light by the combiner 5 is 200 to 600c.
It may be d / m ² . If it is too bright, the diffractive color will stand out. Furthermore, if the brightness of the light source 1 can be controlled, it is possible to reduce the discomfort color according to the brightness of the outside world. The light source 1 is turned on when the light emitting display means 3 is not turned on, and the light beam 8 is emitted to the combiner 5.

Embodiment 2 is shown in FIG. Here, an ordinary mirror 2a is used instead of the half mirror 2 of the first embodiment, and the light source system is an LCD display element 9 with a backlight. The LCD display element 9 emits light having a uniform brightness (the brightness is lower than that at the time of displaying information) without displaying characters on the LCD when the driving information is not required. in this case,
A diffuser plate 10 may be inserted between the LCD display element 9 and the mirror 2a (when information is not needed) in order to enhance the uniformity of the irradiation light and to have a diffusion effect.

FIG. 4 shows another embodiment. In this example, a white light source 1 and a diffusion plate 10 are added to a normal head-up display system. When driving information is unnecessary,
The light emitting display means 3 is not used and only the light source 1 is turned on, and at the same time, the diffusion plate 10 is moved to the position shown in the figure. The light diffusely reflected by the diffusion plate 10 is diffracted by the combiner 5 and enters the eyes of the viewer 7. The brightness of the light source 1 is the same as that in the first embodiment.

In Examples 1 and 2, a white light source was considered as a light source for eliminating the discomfort color generated in the combiner, but a monochromatic light source having an emission peak near the absorption band of the combiner was used. Is also good.

Further, the present invention is mainly intended to reduce the feeling of strangeness in the see-through of the combiner when the head-up display is not used, but it can also be applied to the case where the user feels uncomfortable during use. For example, the light source 1 of Example 1 may be turned on when the display is used. At this time, it is necessary to reduce the brightness of the light source 1 to such an extent that it does not interfere with the display of display information. Of course, the second embodiment is also possible, and the brightness contrast ratio of the LCD display element 9 may be appropriately adjusted.

The above description is limited to the case where the combiner diffracts monochromatic light, but it is of course effective even when the combiner has two or more colors. In this case, an unnatural color different from that of the monochromatic light reflection is generated.
Alternatively, if the light when the LCD display element 9 is not displayed is white light, these colors can be reduced.

[0029]

According to the present invention, the coloring of the combiner of the holographic head-up display can be eliminated and the viewer's discomfort can be reduced.

[Brief description of drawings]

FIG. 1 is a graph showing the action of the present invention.

FIG. 2 is a conceptual diagram showing an embodiment of the present invention.

FIG. 3 is a conceptual diagram showing another embodiment of the present invention.

FIG. 4 is a conceptual diagram showing another embodiment of the present invention.

FIG. 5 is a conceptual diagram of a holographic HUD.

[Explanation of symbols]

 1 Light Source 2 Half Mirror 3 Light Emitting Display Means 4 Information Light 5 Combiner 7 Viewer 8 Light Ray 9 LCD Display Element 10 Diffuser

Claims (2)

[Claims] 1. A head-up display for a vehicle, in which a light beam having a specific wavelength containing information is diffracted toward a viewer by a combiner made of a hologram, and a second light beam containing the specific wavelength contains the information. A vehicle head-up display, characterized in that it includes means for irradiating the combiner from substantially the same direction as the ray. 2. A display method for a head-up display for a vehicle, wherein a light beam of a specific wavelength containing information is diffracted toward a viewer by a combiner made of a hologram. A display method for a vehicle head-up display, characterized in that the combiner is irradiated from substantially the same direction as the included light beam.