JPH07234374A - Display device using transmission type hologram screen - Google Patents

Abstract

PURPOSE:To provide the display device which is of simple constitution and never has its internal members seen to a viewer's side and uses the transmission type hologram screen with good visibility. CONSTITUTION:The display device, equipped with the hologram screen 1 provided slanting at a specific angle to the sight of the viewer 7, a lens 4 which is provided on the reverse surface side of the hologram screen 1 and forms a specific image on the hologram screen 1, and a display panel 3, is provided with an optical control member which allows the image 5 formed on the hologram screen 1 to be seen to the viewer 7, but shields the internal members such as a display unit 61, etc., between the hologram screen 1 and display unit 61 or on the hologram screen 1. A light shield plate 8 which has a pinhole 8a at the focus position of the lens 4 is usable as the optical control member, and a louver filter provided on the top or reverse side of the hologram screen 1 or a visual field control film provided on the top surface side is usable as well. Consequently, the display performance is improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device using a transmissive hologram screen, and in particular, members inside the device constituting the display device using the transmissive hologram screen cannot be seen from the viewer side of the display device. The present invention relates to a display device using the transmission hologram screen.

[0002]

2. Description of the Related Art Conventionally, as a display device for displaying a warning display or the like to a user, a display image emitted from a display device is imaged and displayed using a lens on the back side of a transmission hologram screen. There is something to do.

FIG. 6A is a configuration diagram showing a configuration of a display device 60 using a conventional transmission hologram screen.
Display device 6 using conventional transmissive hologram screen
0 is a built-in light emitting diode or liquid crystal panel, or C
The hologram screen 1 is inclinedly provided on the front surface of the display device 6 such as RT, and the viewer 7 views the display device 6 through the hologram screen 1. Further, below the tilted hologram screen 1, another display 61 including a light source 2, a display panel 3 such as a pattern film or a liquid crystal panel, and a projection lens 4 is provided.

In the display device 60 using this conventional transmissive hologram screen, since the hologram screen 1 is transparent, the image of the display panel 3 projected by the light from the light source 2 is passed through the lens 4 and the hologram screen 1 is projected. When the display image 5 is formed on the back surface of the viewer, the viewer 7
Can see both the image displayed on the display device 6 through the hologram screen 1 and the image formed on the hologram screen 1 by the display 61.

If the screen is frosted glass,
Since the image from the display 61 is diffused as shown in FIG. 6 (b), the viewer 7 cannot see a bright image on the frosted glass. On the other hand, since this hologram screen 1 can output diffused light having intensity in the direction of the viewer 7, as shown in FIG. 6 (c), the viewer 7 produces a bright display image. You can see. The above technique is disclosed in Japanese Patent Laid-Open No. 58500875.

When the transmissive hologram screen 1 is used as the screen, as shown in FIG. 7 (a), the first display has a large number of display devices such as a light source 2a, a display panel 3a, and a projection lens 4a. Display 61a, light source 2
b, a display panel 3b, and a second lens having a projection lens 4b.
The display 61b, the light source 2c, the display panel 3c, and the third display 61c having the projection lens 4c are arranged on the back surface side of the hologram screen 1.
Display image 5 with multiple patterns and designs combined on top
Can be imaged and made visible to the viewer 7. Therefore, a plurality of pieces of information can be displayed in a limited space, so that the information can be effectively used for a display device for an automobile or the like, which has a limited space.

[0007]

However, in the display device 60 using the conventional transmissive hologram screen configured as described above, since the hologram screen 1 is transparent, the optical system of the display 61 is shown in FIG. As shown in (b), as the line of sight of the viewer 7 is approached, the constituent members in the display device 60 and the display 61 are transparently visible to the viewer 7, causing a problem that the visibility is significantly reduced.

As a method for solving this problem, Japanese Unexamined Patent Publication (Kokai) No. 2
As shown in Japanese Patent Publication No. 777773 and FIG. 8, there is an example in which a louver filter is combined with the transmission hologram screen 1. In this conventional technique, the screen module 20 is provided between the glass supporting bases 40 and 45, and the transmission hologram 25, the louver filter 30, and the diffusion hologram 3 are provided.
It is constituted by sandwiching 5. The white light denoted by the reference numeral 14 is diffracted by the transmission hologram 25, and is separated into the red light ray 17, the green light ray 18, and the blue light ray 19 in the transparent cell 31 surrounded by the partition wall 32 of the louver filter 30, and then the diffusion hologram 35. Red, again diffracted by
It is diffused into the green and blue light cones 21 to 23. in this way,
In the apparatus disclosed in Japanese Patent Application Laid-Open No. 2-77737, zero-order light 1 other than diffracted light is obtained by passing through the louver filter 30.
6 is cut off.

However, since the apparatus disclosed in Japanese Patent Laid-Open No. 2-77737 has a configuration in which the transmission hologram 25, the louver filter 30, and the diffusion hologram 35 are sandwiched between the glass supporting bases 40 and 45, the structure of the hologram element. However, there is a problem that it is difficult to manufacture and costly.

Therefore, the present invention is a display device using a transmissive hologram screen, which has a simple structure and is capable of improving the visibility because members inside the device are not visually recognized by the viewer. An object of the present invention is to provide a display device using.

[0011]

A display device using a transmissive hologram screen of the present invention which achieves the above object,
A transmissive hologram screen that is provided at a predetermined angle with respect to the line of sight of the viewer, a lens that is provided on the back side of the transmissive hologram screen and forms a predetermined image on the transmissive hologram screen, and In a display device using a transmissive hologram screen including a display, between the transmissive hologram screen and the display, or on the transmissive hologram screen, the image formed on the transmissive hologram screen is It is characterized in that a light control member is provided so that the display can be seen by the viewer.

The light control member is a light shield plate having a pinhole at the focal position of the lens, a louver filter attached to the front surface side or the back surface side of the transmission hologram screen, or the transmission hologram screen. It is possible to configure it as a visibility control film attached to the front side of the.

[0013]

According to the display device using the transmission hologram screen of the present invention, the light control member is a light shield plate having a pinhole placed at the focal position of the lens for forming an image of the display. The image of the display is formed on the hologram screen through the pinhole, and the internal member of the display device cannot be seen by the viewer due to the light shielding plate. Further, when the light control member is a louver filter attached to the front surface side or the back surface side of the hologram screen, the image of the display reaches the viewer through the louver filter, but the viewer and the inside of the display device. Since the louver filter blocks the optical path connecting the members, the internal members cannot be seen by the viewer. Furthermore, when the light control member is a view control film attached to the front surface side of the hologram screen,
Since the view control film looks transparent only at a predetermined viewing angle from the viewer side to the hologram screen and looks opaque like frosted glass in other angle ranges, install the internal member of the display device in this invisible angle range. For example, internal members cannot be seen by the viewer.

[0014]

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The same components as those of a display device 60 using a conventional transmission hologram screen will be designated by the same reference numerals.

FIG. 1A is a configuration diagram showing the configuration of a display device 11 using a transmission type hologram screen according to the first embodiment of the present invention. In a display device 11 of this embodiment, a transmissive hologram screen 1 is provided on the front surface of a display device 6 such as a built-in light emitting diode, a liquid crystal panel or a CRT so that a viewer 7 can display through the hologram screen 1. The device 6 is designed to be viewed. Further, below the tilted hologram screen 1, another display 6 including a light source 2, a display panel 3 such as a pattern film or a liquid crystal panel, and a projection lens 4 is provided.
1 is provided.

Since the transmissive hologram screen 1 is transparent, the viewer 7 can see both the image displayed on the display device 6 through the hologram screen 1 and the image formed on the hologram screen 1 by the display 61. What can be done is as described above.

In the display device 11 of the first embodiment,
In addition to the above-described configuration, in order to prevent the internal members such as the display 61 from being seen by the viewer 7, the focus of the projection lens 4 of the display 61 is changed from the display 61 to the hologram screen 1. It seems to be on the way. The light shielding plate 8 having the pinhole 8a is provided so that the pinhole 8a is located at this focal point.
That is, the light from the light source 2 that has passed through the display panel 3 having a display image is focused by the projection lens 4 in the middle of the optical system from the display 61 to the hologram screen 1, and is inverted on the hologram screen 1. The displayed image is formed. A pinhole 8a is installed at this focal point. Therefore, the display light passes through the pinhole 8a, but the display 61 on the back side of the light shield plate 8 cannot be seen from the viewer 7 side due to the light shield plate 8.

Here, the projection lens 4 shown in FIG.
The imaging optical system will be described for the case of one sheet. As shown in this figure, when the display panel 3 capable of displaying a display image is installed outside the object space focus F of the lens 4, this display image is condensed at the image space focus F ′, and then as an inverted image 5. Form an image. The same applies to the case of a plurality of lenses, and the display image can be obtained as an inverted real image by providing the display panel 3 outside the synthetic focus.

FIG. 2 shows an embodiment in which the display device 11 using the transmission type hologram screen of FIG. 1 is incorporated in a combination meter 50 of an automobile, and FIG.
2A is a sectional view of the combination meter 50, and FIG. 2B is a front view of the combination meter 50 of FIG. 2A.
In this embodiment, the hologram screen 1 of the display device 11 using the hologram screen is installed on the meter front glass 10 of the combination meter 50, and the light source 2, the display panel 3, the projection lens 4, and the pin are provided below the meter dial 9. A light shielding plate 8 having a hole 8a is provided.

The display image by the display device 11 using the transmission type hologram screen is displayed under the tachometer 51 and the speedometer 52 provided in the combination meter 50 as shown in FIG. 2 (b). Are displayed respectively. In the combination meter 50 of this embodiment, even if the viewer (driver) looks into the display images 1a and 1b, the light shield plate 8 prevents the display device 11 from being seen, and the visibility is improved. .

FIG. 3 is a cross-sectional view showing a structure in which a concave mirror 15 is used in place of the projection lens in the optical system of the display device 11 using the transmission hologram screen of FIG. In this embodiment, the inside of the display device 11 is divided into two rooms 11A and 11B by a light shielding plate 8, and the hologram screen 1 is attached to the room 11A above.
The light shielding plate 8 is provided with a pinhole 8a. In the lower room 11B, the light source 2, the display panel 3 and the concave mirror 15 are provided.
Is provided, and the focal point of the concave mirror 15 is at the position of the pinhole 8 a of the light shielding plate 8. Therefore, the display image on the display panel 3 is reflected by the concave mirror 15 by the light emitted from the light source 2, and the display image on the display panel 3 is formed as a real image 5 on the hologram screen 1.

Also in this embodiment, even if a viewer looks into the display image 5, the internal members such as the concave mirror 15, the display panel 3 and the light source 2 are prevented from being seen by the light shielding plate 8 and the visibility is improved. To do.

FIG. 4A is a structural diagram showing the structure of the display device 12 using the transmission hologram screen of the second embodiment of the present invention using the louver filter 30.
FIG. 4B is an enlarged cross-sectional view of the main part of FIG. The display device 12 of this embodiment also has a built-in display device 6, and the hologram screen 1 is provided on the front surface of the display device 6 in an inclined manner. The viewer 7 views the display device 6 through the hologram screen 1. Further, below the tilted hologram screen 1, another display 61 composed of the light source 2, the display panel 3 and the projection lens 4 is provided, and the display image of the display panel 3 is illuminated by the light from the light source 2. The projection lens 4 forms an image 5 on the hologram screen 1.

Since the transmissive hologram screen 1 is transparent, the viewer 7 sees both the image displayed on the display device 6 through the hologram screen 1 and the image 5 imaged on the hologram screen 1 by the display 61. What can be done is as described above.

In the display device 12 of the second embodiment,
In addition to the above configuration, a louver filter 30 is provided on the front side (viewer side) of the hologram screen 1 in order to prevent the internal members such as the display 61 from being seen by the viewer 7. This louver filter 30 is shown in FIG.
As shown in, the partition walls 32 are parallel to the line of sight of the viewer 7 when viewing the display device 6, and transparent cells are provided between the partition walls.

Then, the display image of the display panel 3 which is illuminated by the light from the light source 2 and formed on the hologram screen 1 by the projection lens 4 is the hologram screen 1.
Is diffracted by and becomes parallel to the line of sight of the viewer 7,
The viewer 7 can be reached through the louver filter 30. On the other hand, even if the viewer 7 tries to look into the display 61, the viewer 7 cannot see the internal optical members because the partition 32 of the louver filter 30 blocks the view, and only the display image 5 can be viewed. The display quality of the display device 12 using the transmission hologram screen is improved.

Although the louver filter 30 is provided on the front side of the hologram screen 1 in the embodiment shown in FIGS. 4 (a) and 4 (b), the louver filter 30 is also provided on the back side of the hologram screen 1. It can be attached. At this time, as shown in FIG. 4 (c), in the louver filter 30, the partition 32 is parallel to the optical path from the display 61 to the hologram screen 1, and a transparent cell is provided between the partitions. You can use what you have.

FIG. 5 (a) is a constitutional view showing the constitution of the display device 13 using the transmission hologram screen of the third embodiment of the present invention using the view control film 24.
FIG. 5B is an enlarged sectional view of the main part of FIG. The display device 13 of this embodiment also has the display device 6 built therein.
Here, its illustration and description are omitted. Also in the display device 13 of this embodiment, another display 61 composed of the light source 2, the display panel 3 and the projection lens 4 is provided below the tilted hologram screen 1.
Is displayed by the light from the light source 2, and the projection lens 4
Is formed as an image 5 on the hologram screen 1.

Since the transmissive hologram screen 1 is transparent, the viewer 7 can see the image displayed on the display device 6 (not shown) through the hologram screen 1 and the display 61.
As described above, both of the images 5 formed on the hologram screen 1 can be seen.

In the display device 13 of the third embodiment,
In addition to the above configuration, in order to prevent the internal members such as the display 61 from being seen by the viewer 7, the visibility control film 24 is provided on the front side (viewer side) of the hologram screen 1.
Is provided. The view control film 24 is a filter having optical characteristics in which the opacity and the transparent state change depending on the viewing angle. For example, "Lumisty" (trademark) manufactured by Sumitomo Chemical Co., Ltd. can be used. For this field-of-view control filter 24, a type called X type in which a predetermined angle becomes opaque from a direction orthogonal to the filter is used, and if an indicator 61 is provided in the opaque region 26, the indicator 61 is provided. Is not visually recognized by the viewer 7. On the other hand, the light from the display 61 is transmitted by the view control filter 2
The holographic screen 1 is transmitted through the opaque area 26 of
Since the light is diffracted above and becomes parallel to the light from the display device (not shown), it can be visually recognized by the viewer 7. As a result, even if the viewer 7 tries to look into the display 61, the viewer 7 is blocked by the view control filter 24.
Cannot see the internal optical member, and can visually recognize only the display image 5, and the display quality of the display device 13 using the transmission hologram screen is improved.

As described above, in the display device 11 using the light shielding plate 8 having the pinhole 8a placed at the focal position of the lens 4 for forming the image of the display device 61, the display device 61 is used.
Image passes through pinhole 8a and hologram screen 1
An image is formed on the upper side, and the internal members of the display device 11 are invisible to the viewer due to the light shielding plate 8. Further, in the display device 12 in which the louver filter 30 is provided on the front surface side or the back surface side of the hologram screen 1, the image of the display device 61 reaches the viewer 7 through the louver filter 61, but the viewer 7 and the display device 61. Since the louver filter 30 blocks the optical path connecting to the internal member, the internal member cannot be seen by the viewer. Furthermore,
In the display device 13 provided with the visibility control film 24 attached to the front surface side of the hologram screen 1, the viewer 7
The field-of-view control film 24 looks transparent only at a predetermined viewing angle with respect to the transparent hologram screen 1 and looks opaque like frosted glass in other angle ranges. Internal members are not visible to the operator. Therefore, the visibility of the display is improved in the display devices 11, 12, and 13 of any of the above embodiments.

The display device using the transmissive hologram screen of the present invention is not limited to the above-mentioned embodiment, but can be applied to various display forms.

[0033]

As described above, according to the display device using the transmission type hologram screen of the present invention, the structure is simple, and the members inside the device are not seen from the viewer side, and the visibility is improved. The effect is that it can be done.

[Brief description of drawings]

FIG. 1A is a configuration diagram showing a configuration of a display device using a transmission hologram screen according to a first embodiment of the present invention,
(b) is an explanatory view for explaining the function of the shield plate with pinholes in (a).

2A is a cross-sectional view of an example of a combination meter in which the display device using the transmission hologram screen of FIG. 1 is incorporated in a combination meter of an automobile,
(b) is a front view of the combination meter of (a).

FIG. 3 is a cross-sectional view showing a configuration of a display device when a concave mirror is used instead of a projection lens in an optical system of the display device using the transmission hologram screen of FIG.

FIG. 4 (a) is a second embodiment of the present invention using a louver filter.
The configuration diagram showing the configuration of the display device using the transmission hologram screen of the embodiment of, (b) is an enlarged cross-sectional view of the main part of (a),
(c) is an enlarged cross-sectional view of the same part as (b) in the case where the louver filter of (a) is attached to the transmission hologram screen at different positions.

5A is a configuration diagram showing a configuration of a display device using a transmission type hologram screen according to a third embodiment of the present invention using a view control film, and FIG. 5B is a diagram showing a main part of FIG. FIG.

6A is a configuration diagram showing a configuration of a display device using a conventional transmission hologram screen, FIG. 6B is a diagram for explaining light diffusion when the screen is frosted glass, and FIG. It is a figure explaining the diffusion of the light when a screen is a transmissive hologram screen.

FIG. 7 (a) shows a plurality of display images by a plurality of display devices.
Configuration diagram showing the configuration of a display device using a conventional transmission hologram screen for forming an image on one transmission hologram screen, (b) is a configuration for explaining the problems of the display device using a conventional transmission hologram screen It is a figure.

FIG. 8 is an enlarged cross-sectional view of a main part of a display device for explaining another configuration of the display device using the conventional transmission hologram screen.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Hologram screen 2 Light source 3 Display panel 4 Projection lens 5 Display image 6 Display device 7 Viewer 8 Light shielding plate 8a Pinhole 11 Display device of the first embodiment of the present invention 12 Display of the second embodiment of the present invention Device 13 Display device of the third embodiment of the present invention 15 Concave mirror 24 View control filter 26 Opaque region 30 Louver filter 31 Transparent cell 32 Partition wall 50 Combination meter 61 Indicator

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shinji Narama 1-7-1 Yokoi, Shimada City, Shizuoka Yazaki Keiki Co., Ltd.

Claims (4)

[Claims] 1. A transmissive hologram screen that is provided at a predetermined angle with respect to the line of sight of the viewer, and a transmissive hologram screen that is provided on the back side of the transmissive hologram screen and that provides a predetermined image on the transmissive hologram screen. A display device using a transmissive hologram screen having a lens for forming an image and a display device, wherein the transmissive hologram screen and the display device,
Alternatively, a transmissive hologram is provided on the transmissive hologram screen, wherein a light control member is provided so that an image formed on the transmissive hologram screen can be seen from a viewer side, but the display is invisible. Display device using a screen. 2. The display device using a transmissive hologram screen according to claim 1, wherein the light control member is a light shield plate having a pinhole at a focal position of the lens. 3. The display device using the transmissive hologram screen according to claim 1, wherein the light control member is a louver filter attached to a front surface side or a back surface side of the transmissive hologram screen. . 4. The display device using a transmissive hologram screen according to claim 1, wherein the light control member is a view control film attached to a front surface side of the transmissive hologram screen.