JPH03191389A - Display device - Google Patents

Abstract

PURPOSE:To simultaneously recognize an image and a background on a display surface by reflecting a part of light in one direction perpendicular to the optical axis of a magnifying glass by means of a half mirror and simultaneously allowing a part of the light made incident on the half mirror from the backgrounds of other directions to be transmitted. CONSTITUTION:When the contents of image information is displayed on the display surface of a display part 1, a part of the light radiated from the image information transmits the half-mirror 2 arranged between the magnifying glass 3 and the display part 1, and advances toward the magnifying glass 3. The light is reflected by the magnifying glass 3 and returns to the half mirror 2, and a part of the light is reflected by the half-mirror 2 and advances in one direction perpendicular to the optical axes of the magnifying glass 3. Simultaneously a part of the light made incident on the half-mirror 2 from other directions perpendicular to the optical axis of the magnifying glass 3 transmits the half mirror 2 and advances in one direction. Thus, light reaches the eyes of an operator, and an image displayed on the half-mirror 2 and the background of the back side of the display part 2 are simultaneously recognized.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to improvements in display devices used in computers and various electronic devices.

Conventional technology> CRT (cathode ray tube) has traditionally been used as a display device for computers and various electronic devices.
Display devices, liquid crystal display devices, EL (electroluminescence) display devices, etc. are used.

These display devices reliably convey information from computers and various electronic devices to operators in the form of images.

<Problems to be Solved by the Invention> However, the conventional display device described above is unsuitable for portable use due to its large size. Therefore, for example, if an operator wants to check whether a process being executed by a computer has finished by looking at the computer's display screen while performing other tasks, the operator can leave the location where the computer is located. First, there is a problem in that the content of work that can be done in parallel is limited. Furthermore, when performing the above-mentioned operations, the user must temporarily interrupt the work being executed in parallel and look at the computer display screen, resulting in the problem that the user cannot concentrate on the work being executed in parallel.

There are also small display devices, such as the viewfinder of a video camera. However, in the case of this small display device, when viewing the display screen, the operator must look into the screen with one eye, which causes operator fatigue.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a small-sized display device in which an image on a display screen and a background can be viewed at the same time.

<Means for Solving the Problems> In order to achieve the above object, a display device of the present invention includes a display section for displaying the content of image information, and a display device disposed opposite to a display surface of the display section, a magnifying glass that creates an enlarged image of the image displayed on the display unit by reflecting light from the display;
It is placed between the display section and the magnifying glass, and transmits a portion of the light directed from the display section toward the magnifying glass, and transmits a portion of the light reflected by the magnifying glass perpendicular to the optical axis of the magnifying glass. It is characterized by integrally forming a half mirror that reflects light in one direction while transmitting a part of light incident in the one direction from another direction perpendicular to the optical axis.

<Effect> The content of the image information is displayed on the display surface of the display unit.

Then, a part of the light emitted from the image information displayed on the display section is transmitted to the half mirror disposed between the display section and the magnifying glass disposed opposite to the display surface of the display section.
pass through it and head towards the magnifying glass. Then, the light from the display unit that reaches the magnifying glass is reflected by the magnifying glass and returns to the half mirror again, and a part of it is reflected by the half mirror and goes in one direction perpendicular to the optical axis of the magnifying glass. Proceed.

At the same time, a portion of the light incident on the half mirror in the one direction from the other direction perpendicular to the optical axis of the magnifying glass passes through the half mirror and travels in the one direction.

In this way, the light from the display unit traveling in one direction and the light from the other direction reach the operator's eyes, and the operator simultaneously recognizes the image displayed on the display unit and the background behind the half mirror. Ru.

<Example> Hereinafter, the present invention will be explained in detail with reference to illustrated embodiments.

FIG. 1 is a perspective view of a display device of this invention, and FIG. 2 is a diagram showing the principle of this invention.

In FIG. 2, a part of the luminous flux emitted from the image on the display screen of the display unit 1 passes through the half mirror 2 and passes through the magnifying glass 3.
reflected by. The light flux from the display section I reflected by the magnifying glass 3 reaches the half mirror 2 again, and a part of it is reflected by the half mirror 2 and reaches the eyes of the operator 4. In this way, the operator 4 can view the enlarged image (virtual image) 5 of the image on the display section i.

On the other hand, the light beam emitted from the object 6 in the background of the half mirror 2 passes through the half mirror 2 and reaches the eyes of the operator 4. Therefore, the operator 4 can simultaneously view the enlarged image 5 of the image on the display section 1 and the background in a superimposed manner.

Figure 1 shows the display section I, half mirror 2, and enlarged #!
3 shows a display device according to the invention consisting of t3. A display section 1 for displaying the contents of image information outputted from an image information output means such as a computer is installed on the upper seat of a case 7 constituting the outer shell of the display device with the display surface facing downward. expansion#! 3 is the display unit 1 at the bottom of the box 7 with the reflective surface facing upward.
installed facing the display screen. This magnifying glass 3 is curved along two axes so that the magnified image 5 of the image on the display screen of the display unit l obtained as shown in FIG. 2 is equally magnified in all directions. I have to. And, between the display unit 1 and the magnifying glass 3 is a display screen! The half mirror 2 is installed at an angle of 459 with respect to the mirror.

At this time, the optical axis of the magnifying glass 3 passes through the center of the half mirror 2 and further passes through the center of the display section 1 perpendicularly to the display screen of the display section 1. The sizes of the magnifying glass 3 and the half mirror 2 are set to such a size that they can reflect the image displayed on the display section 1 without interruption. By configuring the display device in this way, A part of the light from the display section 1 passes through the half mirror 2, is reflected by the magnifying glass 3, and returns to the half mirror 2 again.

Then, a part of the light is reflected by the half mirror 2 in one direction perpendicular to the optical axis of the magnifying glass 3, and reaches the operator's eyes. On the other hand, a part of the light emitted in the one direction from the background object in the other direction perpendicular to the optical axis of the magnifying glass 3 passes through the half mirror 2 and reaches the operator's eyes. .

2. A light transmitting portion 7a is provided on the side surface of the box 7 on the one direction side to allow the light beam from the half mirror 2 to pass toward the operator. On the other hand, a light transmitting part 7b is provided on the side surface of the box 7 opposite to the light transmitting part 7a, which allows the light beam from an object in the background to pass toward the half mirror 2.

In the display device having the above-mentioned structure, if the display section is formed of, for example, a small liquid crystal display 8 as shown in FIG. 3, the entire display device can be made very compact. Therefore, the display device in this embodiment is convenient to carry, and by configuring it in a headset type, for example, it can always be located at the eye position of the operator 4 even when the operator 4 moves. By doing so, the operator 4 can view the small LCD display 8 no matter where he or she is in any position or posture, as long as the image information from the image information output device such as a computer is transmitted. The enlarged image of the displayed image information and the background can be superimposed and viewed at the same time.

In other words, according to the display device of this embodiment, there are no limitations on the content of the work that is performed in parallel with processing by a computer or the like. In addition, the operator 4 can constantly view the information displayed on the small liquid crystal display 8 without interrupting parallel work, and does not have to have a strong sense of checking the displayed information. This allows you to concentrate on tasks that are being carried out in parallel. Therefore, the operator 4 does not become fatigued. At that time, the magnification of the magnified image obtained by the magnifying glass 3 can be changed by changing the distance between the display screen I and the magnifying glass 13.

In addition to the small liquid crystal display 8 shown in FIG. 3, the display unit l in FIGS. 1 and 2 includes a small CRT display, a small EL display, a slide film mounting device, and an OHP (overhead projector).
A film mounting device etc. can be used.

- When using the slide film mounting device or OHP film mounting device as the display section 1, as shown in FIG. 4, the slide film 9 (Of-
It is necessary to provide the (P film) with a light transmitting portion 7c for guiding external light.

As described above, the display device in this embodiment has a display section l.
A part of the light beam emitted from the image displayed on the screen, transmitted through the half mirror 2, reflected by the magnifying glass 3, and reached the half mirror 2 again is led to the operator 4 side by the half mirror 2. On the other hand, half mirror
A part of the light beam emitted from a background object 6 on the opposite side of the operator 4 with respect to the operator 4 is transmitted through the half mirror 2 and guided to the operator 4 side. Therefore, the operator 4 can see the enlarged image on the display section l and the background object 6 superimposed, and can perform other tasks while checking the contents of the display screen l.

Also, at that time, the display section! Since the upper image can be enlarged and viewed using the magnifying glass 3, the display section I can be made compact. Therefore, the entire display device is miniaturized and made portable, and the operator 4 can freely perform other tasks in parallel while easily checking the contents of the image displayed on the display section (3).

In the above embodiment, the display section l is installed above the box 7, and the magnifying glass 3 is installed below the box 7. However, in the present invention, there is no problem even if the display section 1 is placed on the lower side and the magnifying glass 3 is placed on the upper side.

The following embodiment is an application of the above-described display device to a videophone.

Conventionally, in videophone calls, the position of the image-receiving camera that captures the image of the person speaking is misaligned with the position of the display screen that displays the image of the other party, making it difficult for the other party on the display screen to see the speaker. There is a problem.

Therefore, as shown in FIG. 5, an image receiving camera 10 is placed at the position of the background object 6 in FIG. ) is placed on the axis connecting the image receiving camera IO and the speaker's 13 eyes. By doing this, when the speaker looks into the other person's virtual image eyes, the speaker's line of sight is exactly at the receiving camera! Since the speaker is in the 0 position, the line of sight of the enlarged image (virtual image) of the speaker on the other party's display device having the same structure will be directed to the front.

Therefore, when the other party looks at the virtual image of the speaker, the line of sight between the virtual image of the speaker and the other party will match.

In that case, a part of the light beam directed from the display section i toward the magnifying glass 3 is reflected by the half mirror 2 and sent to the image receiving camera 10.
It will be incident on. So, the display section! and half mirror
A polarizing plate 11 is arranged between the image receiving camera 10 and the image receiving camera 10.
A polarizing plate 12 is arranged between the half mirror 2 and the half mirror 2. The polarizing planes of both polarizing plates 11 and 12 are orthogonal to each other, so that the light beam from the display unit 1 transmitted through the polarizing plate 11 and reflected by the half mirror 2 toward the image receiving camera 10 is transferred to the polarizing plate I.
2 is used for cutting.

<Effects of the Invention> As is clear from the above, the display device of the present invention reflects light from an image displayed on the display surface of the display section using a magnifying glass, and a part of the reflected light is reflected by the magnifying glass using a half mirror. While reflecting in one direction perpendicular to the optical axis, a part of the light incident on the half mirror from a background object in the other direction perpendicular to the optical axis of the magnifying glass is transmitted in the one direction. Therefore, an operator located in one direction can view the image on the display screen and the background at the same time. Therefore, the operator can perform other tasks in parallel while monitoring the image on the display surface.

Furthermore, since the image on the display section can be viewed in an enlarged manner, the display section can be made compact. Therefore, the entire display device is configured to be compact so that the display surface can be easily monitored while performing other tasks, the content of tasks that can be processed in parallel is not limited, and parallel tasks can be performed in a concentrated manner. can.

[Brief explanation of drawings]

FIG. 1 is a perspective view of one embodiment of the display device of the present invention, FIG. 2 is a detailed explanatory diagram of the invention, and FIGS.
This figure shows a specific example of FIG. 1, and FIG. 5 shows a case where the display device of the present invention is used in a videophone. ! ...display section, 2...half mirror 3...magnifying glass, 5...magnified image, 6...object, 8.
・・Small LCD display, 9 ・Slide film,
IO...image receiving camera, 11, +2...polarizing plate.

Claims (1)

[Claims] (1) A display section that displays the contents of image information, and a display section that is arranged to face the display surface of the display section, and creates an enlarged image of the image displayed on the display section by reflecting light from the display section. a magnifying glass disposed between the display section and the magnifying glass, which transmits a portion of the light directed from the display section toward the magnifying glass and transmits a portion of the light reflected by the magnifying glass; It is characterized by integrally forming a half mirror that reflects light in one direction perpendicular to the optical axis and transmits a part of the light incident in the one direction from another direction perpendicular to the optical axis. display device.