JPH0583789U - Reflective display - Google Patents

Abstract

(57) [Abstract] [Purpose] In the case of displaying by a reflection image reflected by a semi-transmissive reflective member formed by forming a semi-transmissive reflective film on the surface of a transparent base material, It is an object of the present invention to provide a reflective display device capable of avoiding the occurrence of double images due to front and back surface reflection of a reflective member. [Structure] A transmissive film 13 is formed between a transparent base material 11 and a semi-transmissive reflective film 12 to form a semi-transmissive reflective member. Further, the antireflection film 14 is formed on the back surface of the base material 11. Further, the transmission film 13 is made of a colored film having wavelength selectivity.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a reflective display device, and more particularly to a reflective display device using a semi-transmissive reflective member as a reflective member.

[0002]

[Prior Art]

 The reflective display device is used by being mounted on a vehicle to display the vehicle speed, the engine speed, various warnings, etc., and conventionally, there has been a device of this type having a configuration shown in FIGS. 2 and 3. ..

In the apparatus of FIG. 2, the reflecting surface 1a of the half mirror 1 which is a semi-transmissive reflecting member is arranged toward the driver E who visually recognizes the display, and the reflecting surface 1a is located above the half mirror 1 and faces the reflecting surface 1a. In addition, a display device 2 for displaying vehicle speed, engine speed, etc. is arranged, and a display 3 for displaying various warnings by lighting a lamp is arranged on the back surface of the half mirror 1. With this configuration, the driver E always visually recognizes the virtual image 2a formed by the display of the display device 2 being reflected by the reflecting surface 1a of the half mirror 1 and behind the display, and the lamp of the display 3 is turned on. The warning display will be visible through the half mirror 1.

In the apparatus of FIG. 3, the display device 2 is arranged on the back surface of the half mirror 1, and the concave mirror 4 is arranged so as to face the display device 2 with the half mirror 1 interposed therebetween. With this configuration, the driver E always sees the virtual image 2a formed after the display of the display device 2 is transmitted through the half mirror 1 and then reflected by the concave mirror 4 and the reflecting surface 1a of the half mirror 1. ..

[0005]

[Problems to be solved by the device]

By the way, in the half mirror 1, as shown in FIG. 4, a reflective film 12 such as Al or TiO ₂ is formed by vapor deposition or sputtering on the surface which becomes the reflective surface 1a of a transparent substrate 11 which is generally transparent. It is configured. Since the reflection film 12 is formed so as to be extremely thin due to the function of the half mirror 1 and also to have a light-transmitting property, most of the light incident on the reflection surface 1a is reflected on the surface of the reflection film 12, but a part thereof is reflected. The light passes through the film 12 to reach the base material 11, passes through the base material 11, reaches the back surface of the base material 11, is reflected by the back surface, passes through the reflective film 12 again, and reaches the outside.

In this way, when the light from one point is reflected by the front surface of the reflection film 12 and the back surface of the base material 11, two virtual images can be visually recognized by two reflected lights that have passed through two different optical paths. As a result, a double image as shown in FIG. 5 is generated as a display image, and the display quality is degraded.

In order to make such a double image inconspicuous, the base material 11 may be thinned so that two virtual images are formed close to each other at a resolution lower than the resolution of the eyes. If it is made thin, problems such as strength occur and there is a limit, so it is difficult to eliminate the double image.

Therefore, in view of the above-mentioned conventional problems, the present invention displays a reflected image reflected by a semi-transmissive reflecting member, and displays a double image by front and back reflection of the semi-transmissive reflecting member. An object of the present invention is to provide a reflective display device capable of avoiding the occurrence.

[0009]

[Means for Solving the Problems]

 In order to solve the above-mentioned problems, the reflection type display device according to the present invention displays by a reflection image reflected by a semi-transmissive reflective member formed by forming a semi-transmissive reflective film on the surface of a transparent base material. The semi-transmissive reflective member is configured by forming a transmissive film between the base material and the reflective film. Further, it is characterized in that the back surface of the base material is coated with a non-reflective film. Further, it is characterized in that the transmission film is made of a colored film having wavelength selectivity.

[0010]

[Action]

 With the above structure, since the semi-transmissive reflective member is configured by forming the transmissive film between the transparent base material and the reflective film, the light transmitted through the reflective film is reflected on the back surface of the base material. Even if a double image is formed with the light reflected by the reflective film, the light transmitted through the reflective film will be transmitted through this transmissive film twice due to the presence of the transmissive film. By setting the ratio appropriately, the light that has passed through the reflective film will be greatly attenuated, and even if a double image is formed, it will be suppressed so that it is not noticed. Further, since the back surface of the base material has a non-reflective film, the reflectance at the boundary portion on the back surface of the base material is lowered and the transmittance is increased by the film, so that the reflection is suppressed. Furthermore, by forming the transmission film with a colored film having wavelength selectivity, the transmission film can also have a color filter function.

[0011]

【Example】

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1A shows an example of a sectional structure of a half mirror 1 which is a semi-transmissive reflective member used in a reflective display device according to the present invention. The half mirror 1 is made of a transparent base material 11, a transparent film 13 made of a metal film formed by vapor deposition or sputtering of chromium, copper, gold or the like on the surface of the reflective surface 1a of the base material 11, and the transparent film 13. And a reflective film 12 such as Al or TiO ₂ formed on the surface of the substrate by vapor deposition or sputtering.

Now, assuming that the reflectance of the reflective film 12 is R1, the transmittance of the transmissive film 13 is T1, and the reflectance and the transmissivity of the base material 11 are R2 and T2, the transmissivity T1 of the transmissive film 13 is It can be easily adjusted by controlling the material and thickness of the metal film that is being formed.

Due to the presence of the transparent film 13, the light A incident on the reflecting surface 1 a of the half mirror 1 is partially B₁Is reflected by the reflective film 12 and reaches the eyes of the driver, and another part B ₂ Passes through the reflective film 12, the transmissive film 13 and the base material 11 to reach the back surface of the base material 11. After being reflected on the back surface, the light passes through the base material 11, the transmissive film 13 and the reflective film 12 and the driver's To the eyes. The amount of light incident on the base material 11 can be adjusted by changing the thickness of the transparent film 13 to change the transmittance.

The light B ₂ that reaches the driver's eyes is transmitted through the reflective film 12, the transmissive film 13, and the base material 11 twice, and is reflected once by the base material 11. Therefore, the transmittance of the transmissive film 12 is reduced. Then, the product of the transmittance and the reflectance of the base material 11, that is, the attenuation of (T1 · T2) ² · R2 is received, and the light becomes extremely weak as compared with the light B ₁ . Therefore, even if a double image is formed by the light B ₁ and the light B ₂ , the driver cannot visually recognize the image by the light B _2, so that it is not recognized as a double image.

[0015] In the above embodiment, although invisible to double image by the action of the permeable membrane 13, as shown in FIG. 1 (b), on the back surface of the base material 11, for example, H ₃ F ₂ Toka refraction By forming a non-reflective film 14 by laminating multi-layered films made of materials having different ratios to reduce the reflectance on the back surface of the base material 11, the reflective film 12, the transmissive film 13 and the base material 11 are transmitted. Most of the light B ₂ reaching the back surface of the base material 11 passes through the non-reflective film 14 and goes out to the back surface side of the base material 11, and the reflection on the back surface of the base material 11 is reduced. The light B _{3 which} is reflected on the back surface of 11 and then passes through the rear base material 11, the transmission film 13, and the reflection film 12 and reaches the eyes of the driver becomes extremely weak, which may cause a double image. Absent .

By the way, a fluorescent display tube (VFD) is often used as a display device of a reflection type display device, but in the case of a fluorescent display tube, its display color is limited to the fluorescent paint used for the fluorescent display tube. It In such a case, a color filter plate for changing the display color to a desired color is arranged on the display surface of the fluorescent display tube, and the display device and the concave mirror are arranged with the half mirror 1 interposed therebetween. In the case of the reflection type display device having the above structure, by forming a colored film having wavelength selectivity as the transmissive film 13 of the half mirror 1, the transmissive film 13 can also have a function as a color filter, It is not necessary to dispose a separate color filter plate on the fluorescent display tube.

[0017]

[Effect of the device]

 As described above, according to the present invention, since the semi-transmissive reflective member in which the transmissive film is formed between the transparent base material and the reflective film is used, the transmissivity of the transmissive film is appropriately set. By doing so, the light that has passed through the reflective film will be greatly attenuated, and even if a double image is formed, it will be suppressed enough not to notice it. It is possible to avoid the occurrence of a double image due to.

Further, the reflection-free film on the back surface of the base material reduces the reflection on the inner surface of the base material, so that the double image can be prevented from occurring more reliably. Since the transmittance increases, it is possible not to reduce the brightness of the display image that is reflected and transmitted to form an image.

Further, by forming the transmissive film with a colored film having wavelength selectivity, the transmissive reflective member can also have a color filter function.

[Brief description of drawings]

FIG. 1 is a view showing a cross-sectional structure of a half mirror used in a reflective display device according to the present invention.

FIG. 2 is a view showing an example of a reflective display device according to the present invention.

FIG. 3 is a view showing another example of a reflective display device according to the present invention.

FIG. 4 is a diagram showing an example of a half mirror conventionally used in the reflective display device of FIGS. 2 and 3.

5 is a diagram showing a double image problem that occurs in the half mirror of FIG. 4. FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Semi-transmissive reflective member (half mirror) 11 Base material 12 Reflective film 13 Transparent film 14 Non-reflective film

Claims (3)

[Scope of utility model registration request] 1. A display for displaying a reflection image reflected by a semi-transmissive reflective member comprising a semi-transmissive reflective film formed on a surface of a transparent base material, wherein: A reflective display device characterized in that a transmissive film is formed between the translucent reflective members. 2. The reflection type display device according to claim 1, wherein the back surface of the base material is coated with a non-reflective film. 3. The reflective display device according to claim 1, wherein the transmission film is a colored film having wavelength selectivity.