JPH01147422A - Display system - Google Patents

Abstract

PURPOSE:To prevent display information in a display element from being read by the other party by selecting suitably plural input display information and displaying it on at least one of the display element or a display part. CONSTITUTION:An observer 1 observes simultaneously display information of a display element 2 and the other party 4 through a luminous flux coupling element 3, and also, selects display information 7 which is prevented from being known to the other party in the input display information 7 from the outside, by an input circuit 5 and displays it on only the display element 2 by a discriminating circuit 6 and a display driving circuit 8, and displays the display information 7 which is allowed to be known to the other party on the display element 2 and a display part 9. In such a way, even when a distance to the other party 4 is continuous, the display information on the display element 2 surface is not read by the other party 4, the display information and a face and an action of the other party 4 can be observed in the same visual field, and also, by selecting suitably the input display information from the outside, it can be displayed on at least one of the display element 2 or the display part 9.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a display system, and in particular to a display system that combines first image information of, for example, a person in front and an artificial simultaneously observing both pieces of information on the second display information created by the user, and discriminating a plurality of input display information from the outside according to the input signal from the input circuit, and displaying the information on at least one display section. The present invention relates to a display system suitable for.

(Prior Art) Conventionally, various display systems using display elements such as CRT, liquid crystal, and plasma have been devised. Among these, there are special usage situations, such as reading the necessary information without taking your eyes away from the other person's face, and selecting information that is input one after another from the outside as appropriate, so that you can read information that you do not want to share with others. There are cases where it is desired to display information that one wishes to observe or make public to others on a large screen display section where anyone can observe it.

For example, in education, there are cases where only the teacher can view the answers to practice questions and important points for instruction, while displaying necessary information on a display such as an electronic blackboard.

In this case, it is necessary to keep your eyes on the other person's face and figure.

In addition, during meetings and negotiations, it is important to see the other party's expressions and reactions to your proposals, and to display only the necessary information on the display. It is desirable to estimate the degree and reflect it in the way classes are conducted.

However, in the past, there was no such display system, which was extremely inconvenient.

(Problems to be Solved by the Invention) The present invention superimposes both image information such as the opponent's face and behavior and display information from a display element such as a CRT via a light beam coupling element, in the same field of view, and appropriately selects and displays multiple input display information input from the outside on at least one of the display elements or display sections, and at the same time, when the distance from the other party is close to a certain extent. An object of the present invention is to provide a display system in which information displayed on a display element cannot be read by another party even when the information is displayed on a display element.

(Means for solving the problem) A display means for superimposing and observing a front field of view and display information on a display element via a beam coupling element, at least one display section, and a plurality of inputs input from the outside. For display information,
a discrimination circuit that discriminates based on an input signal from an input circuit;
and a display drive circuit for displaying the input display information discriminated by the discrimination circuit on at least one of the display section or the display element.

(Example) FIG. 1 is a schematic diagram of one embodiment of the present invention.

In the figure, 1 is an observer, and 2 is a display element such as a CRT, which displays display information for the observer 1. 3 is a luminous flux coupling element;
A member having an optical property that guides a lot of light in the direction of the observer 1 with respect to the incident light from the display element 2, and hardly guides light in the 4 directions of the observed person, for example, a volume phase type member. It consists of a diffraction grating, etc. The display element 2 and the light beam coupling element 3 constitute a part of display means.

By using such a light beam coupling element 3, the displayed information on the display element 2 is prevented from being observed by the person 4 to be observed.

5 is an input circuit having a keyboard, a floppy disk, etc. Reference numeral 6 denotes a discrimination circuit which discriminates input display information 7 from among a plurality of input display information 7 inputted from the outside according to an input signal from the input circuit 5. Reference numeral 8 denotes a display drive circuit, which displays the input display information 7 discriminated according to the signal from the discrimination circuit 6 on at least one display section 9 or on the display element 2.

In this embodiment, the observer 1 simultaneously observes the information displayed on the display element 2 and the person to be observed 4 via the light beam coupling element 3, and
Out of the input display information 7 from the outside, display information 7 that you do not want others to know is selected by the input circuit 5 and displayed only on the display element 2 by the discrimination circuit 6 and display drive circuit 8, so that the display information 7 can be shown to others. 7 is a discrimination circuit 6 and a display drive circuit 8
The image is displayed on the display element 2 and the display section 9 by using the above method.

FIG. 2 is an explanatory diagram of an embodiment showing the optical characteristics of the display means shown in FIG. 1.

The light beam from the light source 21 becomes a condensed beam by a condenser lens system 22, and after entering the imaging lens 23, it is guided to the observer 1 as a condensed beam by the condensing action of the beam coupling element 3 bonded to the transparent substrate 24. There is. 4 is the observed person.

On the other hand, the image of the display element 2 is converted into an intermediate image 2 by the imaging lens 23.
a, and this intermediate image 2a is generated as a virtual image at a position infinitely far from 10CII+ behind the light flux coupling element 3 due to the action of the light flux coupling element 3.

Here, the beam coupling element 3 is, for example, a volume phase type hologram, which will be described later, and has a property of reflecting only a beam of a specific wavelength and transmitting other beams.

Moreover, since it acts as a simple parallel plate for the transmitted light flux, the observer 1 can clearly see the forward visual field information of the person 4 to be observed. Also, since it acts as a concave mirror for the reflected light flux, it magnifies the intermediate image 2a and creates a virtual image in the distance (it moves).

FIGS. 3(A) and 3(B) are schematic diagrams of an embodiment showing a method for manufacturing a light beam coupling element according to the present invention.

FIG. 2A is a schematic diagram showing an exposure optical system using holography technology for producing a volume phase diffraction grating.

FIG. 2B is a perspective view showing a method of manufacturing a light beam coupling element using a concave Fresnel lens.

In the same figure (A), 31 is a laser light source, 32 is a half mirror, 133 and 331 are mirrors, 34 and 341 are microscope objective lenses, 35 and 351 are convergent lenses, 36 is a convergent light, 37 is a diverging light, and 38 is a transparent substrate , 39 are recording material layers bonded to the transparent substrate 38.

A beam of light from a laser light source 31 is processed by a half mirror 32. Among these, the reflected light beam is reflected by a mirror 33, expanded by a microscope objective lens 34, becomes convergent light 36 by a converging lens 35, passes through a transparent substrate 38, and enters a recording material layer 39. do. At this time, the convergent light beam 3
6 may have an appropriate aberration, such as astigmatism or coma.

Further, as the hologram recording material 39, dichromium gelatin, polyvinyl carbazole type photosensitive material, photopolymer, etc. are used.

On the other hand, the light beam transmitted through the beam splitter 32 is reflected by a mirror 331, passes through a microscope objective lens 341, becomes a diverging beam 37, and passes through a lens 351 to form a diverging beam 37 on a recording material 39.
incident on . Here, as the lens 351, in addition to a convex lens and a concave lens, a parallel plate or a cylindrical lens is used as necessary.

The exposed recording material 39 is developed to form a volume phase type diffraction grating, which is used as a beam coupling element.

In the same figure (B), 30B is a transparent reflection plate having a serrated reflection surface, a concave Fresnel lens is formed on one surface, and a reflection film is formed on the slope thereof. The serrated reflective surface has the property of reflecting only a specific wavelength of light or an appropriate amount of light in the entire visible light range, and transmitting light of other wavelengths.

30C is a transparent cover plate which is bonded to the transparent reflector 30B using an adhesive having a substantially concave refractive index.

As a result, it acts as a parallel plate for straight transmitted light,
In addition, a light beam coupling element having the function of a spherical or aspherical concave mirror for reflected light can be obtained.

Incidentally, in terms of manufacturing, it is desirable that the slopes of the transparent reflector 30B have a concentric structure, but the slopes of each slope may be adjusted or
It is also possible to produce an aspherical effect by using a shape other than a circular arc.

FIG. 4 is a perspective view showing one element of a second embodiment of the invention.

This embodiment is a combination of a laptop computer and a display system according to the present invention. In the figure, 40 is a laptop computer, 41 is an imaging lens,
44 is a substrate, 45 is a light beam coupling element, and 46 is an observer.

As shown in the figure, an imaging lens 4 is mounted on the computer 40.
1. A transparent substrate 44 and a light beam coupling element 45 are arranged,
The user 46 can read the contents of the displayed information with a natural posture and line of sight.

In this embodiment, the beam coupling element 45 has a cylindrical shape, but it is preferable that the shape can be freely selected from a conical surface, a spherical surface, a spheroidal surface, etc., as required.

If the beam coupling element has a shape other than a plane as described above, the transmitted diffracted light toward the observed person (not shown) will be subject to large astigmatism or coma, so that it will be difficult for the observed person 4 to
It becomes even more difficult to read.

FIG. 5 is a schematic diagram showing the laptop computer of the embodiment shown in FIG. 4 being used as a conference terminal. In the same figure, 501,502°503.504
are personal laptop computers, and 51 is a large display screen. Each attendee brings their own materials in the form of a floppy disk, and the content to be shared by all participants is displayed on the display screen 51 via the input circuit, discrimination circuit, etc. shown in FIG. At the same time, use the head-up display device of the present invention as display information on your own computer 501, 502, etc. for information that only you want to see as presentation content or reference materials, or that you do not want other attendees to see. . The information displayed on the head-up display device is visible only from the user's position, so the content cannot be read even if an attendee next to you looks in or an attendee in front of you looks at it.

Therefore, you can proceed with negotiations with the other party while always checking what you are doing.

Also, by using e-mail technology, it is possible to obtain information about changes in the external situation during negotiations, and to exchange information among colleagues without informing the other party of the negotiations.

FIG. 6 is a schematic diagram showing the laptop computer according to the embodiment shown in FIG. 4 being used in a classroom of a school or the like. In the figure, 61 and 62 are students, 64 is a teacher,
63 is a laptop computer, and 65 is a display screen that corresponds to a blackboard.

The teacher 64 brings a floppy disk containing educational software for teachers, and inserts the floppy disk into the disk drive of the laptop computer 63 before starting class. The class proceeds according to the contents of the educational software, and the contents that the teacher 64 and the students 61 etc. need to see together are displayed on the laptop computer 63 and the display screen 65, and the information that the students 61 do not want to see (the layer between exercises) is displayed on the laptop computer 63 and the display screen 65. answers, teaching techniques (for example, telling a joke like this) are programmed to be displayed only on the laptop computer 63. The teacher 64 does not have to take his eyes off the students 61 and the like when reading the displayed content, and can proceed with the lesson while watching the reactions of the students, so that he can conduct an effective lesson.

As the light beam coupling element used in the above embodiments, in addition to a simple half mirror, a volume phase type diffraction grating, and a relief grating, various devices having similar functions can be used. In addition to the reflective type, a transmissive type can also be used.

FIG. 7 is a schematic diagram showing a third embodiment of the present invention.

This embodiment shows a configuration in which a light beam coupling element such as a transmission type total reflection hologram is used. In the figure, 72 is a display element such as a CRT, 70 is a laptop computer, and 74 is a transparent substrate.

Information entered from the keyboard of the laptop computer 70 or displayed on the floppy disk is transferred to the CRT.
A virtual image is formed at infinity by the imaging lens 73.

The beam coupling element 75 is a transmission type total reflection hologram (
Something similar is disclosed in US Pat. No. 4,309,070. ) The light beam guided through the transparent substrate 74 through repeated total reflections is emitted into the air only after reaching the light beam coupling element 75. At this time, the virtual image (display information) is displayed superimposed on the person to be observed (not shown).

In this embodiment, since the light beam is guided through the transparent substrate 74 by total reflection, the dimension in the depth direction of the laptop computer 70 can be made considerably shorter than that in the embodiment shown in FIG.

In addition, in this embodiment, even if the observation eye 71 is placed very close to the transparent substrate 74, an aerial image with sufficiently corrected aberrations can be generated at a sufficiently far distance, so that it is possible to generate an aerial image with sufficiently corrected aberrations. It can be placed even in a narrow space.

Moreover, similar to the embodiments shown in FIGS. 1 and 3, information that you do not want to show to the other party while looking closely at the other party's face (for example, the other party's ID number, name, privacy matters, criminal history, whether or not he or she is wanted, etc.) It is possible to read
Its practical effects are significant. The hologram 75 used here may be an amplitude type hologram using a silver salt photosensitive material in addition to a polyvinyl carbazole recording material, or a bleach hologram obtained by bleaching this silver salt hologram, so that reflection diffraction can be achieved. It is easily achieved that the amount of light 9 is 3% or less, preferably 1% or less, of the light 75 incident on the hologram.

(Effects of the Invention) According to the present invention, by deflecting only a light beam of a specific wavelength toward an observer using a display means using a light beam coupling element, the distance to the observed person (object) can be reduced. Even if the person being observed does not read the displayed information on the display element surface, the displayed information and the person's face and behavior can be observed within the same field of view. It is possible to achieve a display system that can appropriately select input display information input from the input display and display it on at least one of a display element or a display section.

In particular, if this display system is used in a conference room, school classroom, etc., while observing the reactions of the other party (students in the case of a classroom).
Since it is possible to read displayed information that you do not want the other person to know (without looking away from the other person), it has the advantage of allowing effective meetings and classes.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing a first embodiment of the present invention, FIG. 2 is an explanatory diagram showing optical characteristics of the display means of FIG. 1, and FIG.
), (11) are explanatory diagrams showing the manufacturing method of the light beam coupling element according to the present invention, FIG. 4 is a schematic diagram showing one element of the second embodiment of the present invention, and FIG. 5 is an implementation of FIG. 4. FIG. 6 is a schematic diagram showing the embodiment of FIG. 4 being used in a classroom lesson, and FIG. 7 is a schematic diagram showing the embodiment of the present invention being used in a conference room. FIG. 2 is a schematic diagram showing an element of an embodiment. In the figure, 1 is an observer, 2 is a display element, 3 is a luminous flux coupling element,
4 is a person to be observed, 5 is an input circuit, 6 is a discrimination circuit, 7 is input display information, 8 is a display drive circuit, 9 is a display section, 21 is a light source, 22 is a condenser lens system, 23 is an imaging lens, 2
4 is a transparent substrate. Ki 3 Figure (A) 30C Car 4 Figure also 5 Figure 6 Figure

Claims (1)

[Claims] (1) A display means for superimposing and observing the front field of view and display information on the display element via a beam coupling element, at least one display section, and an input circuit for multiple input display information input from the outside. and a display drive circuit that displays the input display information discriminated by the discrimination circuit on at least one of the display unit or the display element. display system.