JPH0519945A - Optical tablet - Google Patents

Abstract

PURPOSE:To prevent sense even when a hand is put on the tablet and presses it in the case of description using a light emitting pen concerning the optical tablet. CONSTITUTION:This is composed of a tablet 1 and a light emitting pen 2. For the tablet 1, a light guiding path 11 is composed of a transparent high polymer material containing fluorescent color, the side space and lower side wall of the plural light guiding paths 11 arranged in the shape of stripes are embedded by a reflecting member 12 composed of a high polymer material, and an array- shaped photodetector 19 is provided at one terminal part of each light guiding path 11 at least. The light emitting pen 2 is a describing means to generate signal beams 4 for generating fluorescent beams 3 from a tip 21 of the pen by stimulating the fluorescent color contained in the light guiding path 11. When the tip 21 of the pen is slid on the surface of the tablet 1 and executes description, the fluorescent beams 3 are made incident from the upper side wall of the light guiding path 11.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical tablet which uses a light-emitting pen and does not sense when a hand is placed on the tablet and the palm is pressed during writing.

In recent years, OA related to facsimile and electronic filing, and CAD / CAM related to design / manufacturing
In such fields, there is an increasing demand for reading and inputting pictures and characters as figures and printing and outputting them. The so-called coordinate input device that reads a figure and inputs it to an external device such as a computer is roughly classified into a tablet and a scanner.

A tablet, which is also called a digitizer when the reading range becomes large, is a device that divides a figure into coordinates and various line segments for inputting, while inputting the coordinates using a cursor or a stylus pen. To go. Various means such as magnetostriction, electromagnetic induction, electric resistance, and piezoelectric are used to read the coordinates. A tablet having a small reading area and a low resolution is used, for example, in the field of OA as a handwriting input device, and a digitizer having a large area and high resolution is mainly used as an input for a CAD / CAM system.

On the other hand, a scanner is also called an auto digitizer, and a figure is divided into fine lines and scanned (scanning).
It is a device for inputting while inputting. A method of converting the reflected light from a figure into an electric signal by a photoelectric conversion element which is a reading sensor and inputting the electric signal is often used.
It is used in various fields from system input to small OA.

By the way, the tablet is not only used for simple graphic input, but also in the field of coordinate input which is not directly related to graphic processing such as input of a message to a computer or a control panel of an electronic device which is conventionally composed of a switch. It is also used as a human-machine interface device. Then, how to easily and surely input data is a problem.

[0006]

2. Description of the Related Art FIG. 7 is an exploded perspective view of an example of a conventional tablet. In the figure, 1 is a tablet, 5 is a display device, 8a is an upper transparent conductive sheet, 8b is a lower transparent conductive sheet, 8c is a spacer, 8d is an electrode, and 9 is a writing means.

This tablet 1 uses electric resistance, and for example, an upper transparent conductive sheet 8a and a lower part made of a so-called transparent conductive film to which a resistance film made of a transparent conductive film such as ITO (indium oxide-tin) is attached. Transparent conductive sheet
It consists of 8b. Electrodes 8d on both ends of each sheet 8a, 8b
Is provided, and the spacer 8c is placed so that the resistance film faces each other.
The tablet 1 is completed if the tablets 1 are arranged opposite to each other.

In use, the upper transparent conductive sheet 8a is pressed by a writing means 9 such as a pencil to bring both resistance films into contact with each other, and the potential at this contact point corresponds to the distance from each electrode of the resistance films. The resistance value is apportioned. Therefore, if this change in potential is detected, the writing means 9
The position coordinates of can be read.

Since the tablet 1 is transparent in the thickness direction, it can be used by stacking it on various display devices 5 such as a CRT. In that case, while looking at the screen displayed on the display device 5,
It is often used to select the displayed items.

For the purpose of designating such a rough position coordinate as to select an item, a means for touching with a fingertip is often used, and it is widely used as a so-called touch panel device replacing an input device such as a keyboard.

On the other hand, when drawing and drawing figures and characters on the tablet 1 by using the writing means 9 and finely specifying the position coordinates of the shapes themselves and inputting them, the tip of a stylus pen or the like is used. Pointed tools are used.

[0012]

As described above, in the case of a usage form such as a stylus pen or a touch panel in which a tablet is combined with a display device and the tablet is pressed, even if the wrist is lifted from the tablet, the operation is performed. ,
There is no problem in operability.

By the way, in the case of inputting a figure or a character, it is necessary to draw using a writing means having a sharp tip such as a pencil. Moreover, when writing by hand, the palm is usually fixed and the fulcrum is used. Write as.

However, since the conventional tablet senses when the surface is pressed, it cannot be touched with the palm of the hand. Therefore, there is a problem that the operability of writing is extremely poor when inputting fine figures or characters.

Therefore, an object of the present invention is to provide an optical tablet which uses a light-emitting pen and does not sense even when the palm is placed on the tablet and pressed when writing.

[0016]

[Means for Solving the Problems] The problems described above include a tablet and a light-emitting pen, and the tablet is arranged in a stripe pattern with a light guide path made of a transparent polymer material containing a fluorescent dye. A plurality of reflective members made of a polymer material for filling the side gaps and the lower side wall of the light guide path, and an array-shaped light receiving element attached to each of at least one end of the light guide path, The light-emitting pen is a writing means that emits signal light that stimulates the fluorescent dye contained in the light guide path from the pen tip, and when the pen tip slides on the upper surface of the tablet to write, the signal light is emitted from the light guide path. Solved by a light tablet configured to be input from the top wall.

[0017]

[Function] The conventional tablet represented by the touch panel cannot detect handwriting by placing the palm on the tablet because it senses when the surface is pressed. Therefore, operability for inputting fine figures and characters is not possible. However, in the present invention, the palm is placed on the tablet for handwriting in the present invention.

That is, light guide paths made of a polymer material containing a fluorescent dye are arranged in parallel stripes, and the gaps are filled with a reflection member made of a polymer material. The core of the plastic optical fiber has a function corresponding to the light guide path, and the clad has a function corresponding to that of the reflecting member. Then, when the signal light input from the light emitting pen stimulates the fluorescent dye contained in the light guide path to emit fluorescence, the fluorescent light propagates in the light guide path.

On the other hand, an array-shaped light receiving element is attached to one end of each light guide path to detect the fluorescent light propagating through the light guide path. In this way, by tracing the surface of the tablet with the light emitting pen, it is possible to read the position of the light emitting pen that moves every moment. At that time, even if the palm of the tablet is attached to the surface of the tablet as in writing by handwriting, no bad influence occurs.

[0020]

1 is a perspective view of a first embodiment of the present invention, FIG.
1 is an enlarged sectional view of an essential part of FIG. 1, FIG. 3 is an enlarged sectional view illustrating position detection of the present invention, FIG. 4 is an enlarged sectional view of an essential part of a second embodiment of the present invention, and FIG. FIG. 6 is an enlarged sectional view of the essential part of the third embodiment of the present invention, and FIG. 6 is a perspective view of the fourth embodiment of the present invention. In the figure, 1 is a tablet, 11 is a light guide path, 12 is a reflecting member, 13 is a light receiving element, 2 is a light emitting pen, 21 is a pen tip, 3
Is fluorescent light, 4 is signal light, 5 is a display device, 6 is a filter, and 7 is ambient light.

Embodiment 1 In FIGS. 1 and 2, the tablet 1 is in the form of a sheet in which the surface of the light guide path 11 is exposed and the surrounding gap and the lower side wall are surrounded by a reflecting member 12. An array of light receiving elements 13 corresponding to each light guide path 11 is attached to at least one end of the light guide path 11.

The light guide path 11 is a thin fibrous material made of a transparent polymer material containing various fluorescent dyes that emit fluorescence having a glittering color. As a fluorescent dye,
For example, various dyes such as a perylene dye, a coumarin dye, an imidazole dye, and a xanthene dye are used. As the transparent polymer material containing the dye, various synthetic resins such as acrylic resin, polycarbonate, polystyrene, or copolymers thereof can be used.

The reflecting member 12 is also made of a polymer material. Then, the refractive index of the light guide path 11 is n ₁ , and the reflecting member is
Assuming that the refractive index of 12 is n ₂ , there is a relationship of n ₁ > n ₂ ───── ₁ . That is, in the relationship of Expression 1, the light guide path 11 corresponds to the core of the plastic optical fiber, and the reflection member 12
Indicates that it corresponds to the clad. Therefore,
Light can be efficiently propagated in the light guide path 11 in a confined state.

At one end of the light guide path 11, each light guide path is
Light receiving elements 13 corresponding to 11 are attached in an array.
This light receiving element 13 is, for example, a photodiode array,
The fluorescent light 3 propagating through the light guide path 11 is received.

In the light emitting pen 2, the signal light 4 which stimulates the fluorescent dye contained in the light guide path 11 to emit the fluorescent light 3 emits the fluorescent light 3.
It is a writing means that is emitted from. Then, the relationship between the emission wavelength λ ₁ of the signal light 4 emitted from the light emitting pen 2 and the emission wavelength λ ₂ of the fluorescent dye contained in the light guide path 11 is λ ₁ ≦ λ ₂ --2 Energy of the fluorescent dye is higher than that of the fluorescent dye.

If the handwriting on the tablet 1 is performed with the light emitting pen 2 under the condition of satisfying the relation of the expression 2, the light guide path 11
The signal light 4 is incident from the side wall of the, the signal light 4 stimulates the fluorescent dye, and the fluorescent light 3 is generated.
Propagate through.

On the other hand, in the tablet 1, the light guide path 11 is colored with a fluorescent dye, but both the reflecting member 12 and the reflecting member 12 can be made transparent. Therefore, if it is placed on a display device 5 such as a CRT display or a PDP (plasma display device) or an LCD (liquid crystal display device), the light emitting pen 2 can be operated while watching the surface screen of the display device 5. It is also used for selecting items.

By the way, in FIG. 3, a light receiving element 13 is used on both sides of the light guide path 11 in the tablet 1. Then, the light emitting pen 2 is brought into contact with the surface of the tablet 1 to cause the signal light 4 to enter, and X from the incident position to the light receiving element 13 is reached.
The distances in the directions are X ₁ and X ₂ , respectively. Also, the distance X
I ₁ the light energy of the fluorescent light 3 light-receiving element 13 corresponding to the ₁ detects the intensity of the fluorescence light 3 corresponding to the distance X ₂ is referred to as I _2. Then, the relationship of LogI ₁ / LogI ₂ = X ₁ / X ₂ ───── 3 is established.

Therefore, the respective light receiving elements provided at both ends
If the light energy is measured by 13, the position of the light emitting pen 2 in the X direction can be known from the relationship of Expression 3. The position in the Y direction can be known from the position of the plurality of light guide paths 11 themselves arranged in stripes.

Embodiment 2 In Embodiment 1, the light-emitting pen 2 requires a power source for lighting a light-emitting source such as a miniature bulb or an LED, or a light guide or the like guides the light to generate a signal from the pen tip 21. It is configured to emit light 4.

On the other hand, in FIG.
Is made of a rod-shaped polymer material, and the polymer material contains a fluorescent dye. When the relationship of Expression 2 is satisfied, this fluorescent dye is stimulated by the ambient light 7 to emit fluorescence, and the fluorescence can be emitted from the pen tip 21 as the signal light 4.

By doing so, it is not necessary to incorporate a power source into the light emitting pen 2 or to attach a light guide to the light emitting pen 2, so that a so-called self-light emitting type light emitting pen 2 with improved operability for writing can be obtained. be able to.

Embodiment 3 In FIG. 5, the signal light 4 of the light emitting pen 2 is placed on the light guide path 11.
A filter 6 that transmits only the light is provided so that the ambient light 7 does not enter the light guide path 11. Even if the filter 6 is a filter that selectively absorbs the ambient light 7 other than the signal light 4,
A filter that selectively reflects the ambient light 7 other than the signal light 4 may be used.

The light emitting pen 2 can be used under bright illumination. Moreover, under such ambient light 7, it is suitable to use the self-luminous type light emitting pen 2 containing the fluorescent dye shown in Example 2.

Example 4: 4 In FIG. 6, two sheet-shaped tablets 1 are used as light guide paths.
It has a structure in which 11 are stacked so as to be orthogonal to each other. In this configuration, at least the tablet 1 that overlaps the upper side is transparent, and the signal light 4 of the light emitting pen 2 passes through the upper tablet 1 and reaches the lower tablet 1.

In this way, it is possible to obtain an optical tablet having a resolution of the pitch of the light guide paths 11 arranged in stripes on each tablet 1. This optical tablet is a light receiving element
Since it is only necessary to determine in which light guide path 11 the fluorescent light 3 is generated by 13, and it is not necessary to measure the light energy of the fluorescent light 3 by the light receiving element 13 as in the first embodiment, control is simple and accurate. The position can be detected well.

Various modifications can be made to the constituent materials of the tablet shown here, the fluorescent dye, and the like. Also, the light guide path
Although the cross-sectional shape of 11 is rectangular, it may be circular or elliptical and various modifications are possible.

[0038]

Since the conventional tablet senses that the surface is pressed, it cannot be touched by the palm, so that the operability of writing is extremely poor, whereas according to the present invention, input is performed using the light emitting pen. Therefore, you can write with your palm.

As a result, even when inputting fine figures or characters, the operability of writing by handwriting is improved, and the present invention contributes to the development of a simple tablet which is expected to be further expanded in use. However, it is big.

[Brief description of drawings]

FIG. 1 is a perspective view of a first embodiment of the present invention.

FIG. 2 is an enlarged cross-sectional view of a main part of FIG.

FIG. 3 is an enlarged cross-sectional view illustrating position detection of the present invention.

FIG. 4 is an enlarged sectional view of a main part of the second embodiment of the present invention.

FIG. 5 is an enlarged sectional view of a main part of a third embodiment of the present invention.

FIG. 6 is a perspective view of a fourth embodiment of the present invention.

FIG. 7 is an exploded perspective view of an example of a conventional tablet.

[Explanation of symbols] 1 tablet 11 light guide path 12
Reflecting member 13 Light receiving element 2 Light emitting pen 21 Pen tip 3 Fluorescent light 4 Signal light 5 Display device 6 Filter 7 Ambient light

Claims (7)

[Claims] 1. A tablet (1) and a light-emitting pen (2), wherein the tablet (1) is arranged in stripes with a light guide path (11) made of a transparent polymer material containing a fluorescent dye. A reflecting member (12) made of a polymer material that fills the side gaps and the lower side wall of the plurality of light guide paths (11) provided, and an array shape attached to each of at least one end of the light guide paths (11). The light-emitting pen (2) is a signal for stimulating the fluorescent dye contained in the light guide path (11) from the pen tip (21) to generate fluorescent light (3). A writing means that emits light (4), and when the pen tip (21) is in sliding contact with the upper surface of the tablet (1) for writing, the signal light (3) is the upper wall of the light guide path (11). An optical tablet characterized by being incident from. 2. The optical tablet according to claim 1, wherein the tablet (1) has a refractive index n ₁ of the light guide path (11) larger than a refractive index n ₂ of the reflecting member (12). 3. The light-emitting pen (2) is such that the emission wavelength λ ₁ of the signal light (4) is equal to or shorter than the emission wavelength λ ₂ of the fluorescent dye contained in the light guide path (11). The optical tablet according to claim 1, wherein 4. The tablet (1) has a reflective member (12) made of a transparent polymer material, and a display device (5).
The optical tablet according to claim 1, which is mounted on the optical tablet. 5. The optical tablet according to claim 3, wherein the light-emitting pen (2) is made of a rod-shaped polymer material containing a fluorescent dye and having one end serving as a pen tip (21). 6. The light according to claim 1, wherein the tablet (1) has an upper surface coated with a filter (6) which transmits only the signal light (4) of the light emitting pen (2). Tablet. 7. The tablet (1) has two light guide paths.
The optical tablet according to claim 1, wherein (11) are stacked so as to be orthogonal to each other.