JP2876825B2 - Light tablet - Google Patents

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 even if a palm is pressed on the tablet when writing.

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

[0003] A tablet is also called a digitizer when the reading range becomes large, and is a device for decomposing a figure into coordinates and various line segments and inputting the data. The tablet is input while indicating the coordinates using a cursor or a stylus pen. To go. For reading the coordinates, various means such as magnetostriction, electromagnetic induction, electric resistance, and piezoelectricity are used. Tablets with a small reading area and low resolution are used, for example, in the OA field as handwriting input devices, and large-area, high-resolution digitizers are mainly used for CAD / CAM system inputs.

On the other hand, a scanner is also called an auto digitizer and scans a figure by dividing it into thin lines.
It is a device that inputs while doing. A method of converting reflected light from a figure into an electric signal by a photoelectric conversion element as a reading sensor and inputting the converted signal is often used, and a large CAD / CAM is used.
It is used in various fields from system input to small OA.

[0005] By the way, the tablet is used not only for inputting a graphic but also for inputting a message to a computer or inputting coordinates which are not directly related to graphic processing such as a control panel of an electronic device including conventional switches. It is also used as a human-machine interface device. The problem is how simple and reliable input can be made.

[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 writing means.

The tablet 1 utilizes electrical resistance, and includes an upper transparent conductive sheet 8a and a lower transparent conductive film 8a made of a so-called transparent conductive film on which a resistive film made of a transparent conductive film such as ITO (indium tin oxide) is adhered. Transparent conductive sheet
Consists of 8b. Electrodes 8d are provided at both ends of each sheet 8a, 8b.
Is provided, and the spacer 8c is arranged so that the resistance film faces each other.
The tablet 1 is completed by arranging the tablet 1 in the opposite direction.

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

Further, since the tablet 1 is transparent in the thickness direction, it can be used by being superimposed on various display devices 5 such as a CRT. In that case, while looking at the screen displayed on the display device 5,
In many cases, the displayed items and the like are appropriately selected.

[0010] In the use of specifying such rough position coordinates as to select an item, a means of touching with a fingertip is often used, and is often used as a so-called touch panel device instead of an input device such as a keyboard.

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

[0012]

As described above, when the tablet is used in combination with a display device, such as a stylus pen or a touch panel that presses with a finger, even if the wrist is lifted off the tablet, the tablet can be operated. ,
There is no problem in operability.

By the way, when inputting figures or characters, it is necessary to draw using a sharp-pointed writing means such as a pencil. In addition, when writing by hand, usually, the palm is fixed and the fulcrum is used. Written as

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

SUMMARY OF THE INVENTION It is an object of the present invention to provide an optical tablet which uses a light emitting pen and does not sense even if a palm is placed on the tablet and pressed when writing.

[0016]

SUMMARY OF THE INVENTION The above-mentioned object is to provide a tablet and a light-emitting pen, wherein the tablet is arranged in a stripe pattern with a light guide path made of a transparent polymer material containing a fluorescent dye. A reflective member made of a polymer material that fills a side gap and a lower side wall of the plurality of light guide paths, and an array-shaped light receiving element attached to each of at least one end of the light guide paths, The light-emitting pen is a writing unit that emits a signal light for stimulating the fluorescent dye contained in the light guide path from the pen tip, and when the pen tip is slid on the upper surface of the tablet and is written, the signal light is applied to the light guide path. The problem is solved by an optical tablet configured to be input from the upper wall.

[0017]

[Function] A conventional tablet, such as a touch panel, senses pressing on the surface, so it was not possible to place a palm on the tablet and write by hand. In contrast, the present invention uses a light-emitting pen to place a palm on a tablet so that handwriting can be performed.

That is, light guide paths made of a polymer material containing a fluorescent dye are arranged in parallel stripes, and the gap is filled with a reflection member made of a polymer material. The core in the plastic optical fiber has a function corresponding to a light guide path, and the clad has a function corresponding to a 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 through the light guide path.

On the other hand, an array-like light receiving element is provided at one end of each light guide path so as to detect the fluorescent light propagating through the light guide path. Thus, by tracing the surface of the tablet with the light emitting pen, the position of the light emitting pen that moves every moment can be read. At that time, even if the hand is put on the surface of the tablet as in the case of writing by ordinary handwriting, no adverse effect occurs.

[0020]

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

Embodiment 1 In FIGS. 1 and 2, the tablet 1 has a sheet shape in which a light guide path 11 exposes a surface and a surrounding gap and a lower wall are surrounded by a reflection member 12. At least one end of the light guide path 11 is provided with an array-like light receiving element 13 corresponding to each 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 fluorescent light having a bright 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. Further, as the transparent polymer material containing the dye, various synthetic resins such as acrylic resin, polycarbonate, polystyrene, or a copolymer 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 ,
Assuming that the refractive index of 12 is n ₂ , the relationship is n ₁ > n ₂ ────1. That is, the relationship of Equation 1 indicates that the light guide path 11 corresponds to the core in the plastic optical fiber and the reflection member 12
Indicates that it corresponds to the cladding. Therefore,
In the light guide path 11, light can efficiently propagate in a confined state.

At one end of the light guide path 11, each light guide path
Light receiving elements 13 corresponding to 11 are provided 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.

The light emitting pen 2 emits a fluorescent light 3 by stimulating a fluorescent dye contained in the light guide path 11 to emit a fluorescent light 3.
It is a writing means emitted from the 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, and Is higher than the emission energy of the fluorescent dye.

When handwriting is performed on the tablet 1 with the light emitting pen 2 under the condition satisfying the relationship of the equation 2, the light guide path 11
Signal light 4 is incident from the side wall of the light emitting device, and the signal light 4 stimulates a fluorescent dye to generate fluorescent light 3, and the fluorescent light 3 is
Propagating in

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

In FIG. 3, the tablet 1 has light receiving elements 13 on both sides of the light guide path 11. Then, the light emitting pen 2 is brought into contact with the surface of the tablet 1 so that the signal light 4 is incident thereon.
The distances in the directions are X ₁ and X ₂ , respectively. Also, the distance X
The light energy of the fluorescent light 3 detected by the light receiving element 13 corresponding to ₁ is defined as I ₁ , and the intensity of the fluorescent light 3 corresponding to the distance X ₂ is defined 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 using the equation (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 positions of the plurality of light guide paths 11 themselves arranged in stripes.

Second Embodiment In the first embodiment, the light-emitting pen 2 needs a power source for turning on a light-emitting source such as a miniature light bulb or an LED. It is configured to emit light 4.

On the other hand, in FIG.
Is composed of a rod-shaped polymer material, and the polymer material contains a fluorescent dye. If the relationship of Expression 2 is satisfied, the 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.

This eliminates the need for the light-emitting pen 2 to have a built-in power supply or a string connected to a light guide, thereby obtaining a so-called self-light-emitting light-emitting pen 2 with improved operability for writing. 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 light is provided so that disturbance light 7 does not enter the light guide path 11. This filter 6 is a filter that selectively absorbs disturbance light 7 other than the signal light 4,
A filter that selectively reflects disturbance light 7 other than the signal light 4 may be used.

The light emitting pen 2 can be used under bright illumination. In addition, under such disturbance light 7, the use of the self-emission type light-emitting pen 2 containing the fluorescent dye described in the second embodiment is good.

Embodiment 4 In FIG. 6, two sheet-like tablets 1 are connected to a light guide path.
11 are overlapped so as to be orthogonal. In this configuration, at least the tablet 1 overlapping on the upper side is transparent, and the signal light 4 of the light emitting pen 2 reaches the lower tablet 1 through the upper 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 of each tablet 1. This optical tablet has a light receiving element
It is only necessary to judge in which light guide path 11 the fluorescent light 3 is generated in 13. Since 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, the control is simple and accurate. Good position detection.

Various modifications can be made to the constituent materials of the tablets and the fluorescent dyes shown here. Also, the light guide path
The cross-sectional shape of 11 is square, but may be circular or elliptical, and various modifications are possible.

[0038]

According to the present invention, since the conventional tablet senses pressing of the surface and cannot be touched by the palm, the operability of writing is extremely poor. Therefore, it can be handwritten with a palm.

As a result, even in the case of inputting fine figures and characters, the operability of handwriting by handwriting is improved, and the present invention contributes to the development of a simple tablet which is expected to be used more and more. However, it is big.

[Brief description of the drawings]

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

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

FIG. 3 is an enlarged sectional view illustrating position detection according to the present invention.

FIG. 4 is an enlarged sectional view of a main part of a 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 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 Disturbance light

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-63-184823 (JP, A) JP-A-64-21520 (JP, A) JP-A-63-285822 (JP, A) JP-A 54-184 88734 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) G06F 3/03 G06F 3/033

Claims (7)

(57) [Claims] 1. A tablet (1) having a light emitting pen (2), wherein the tablet (1) is arranged in a stripe pattern 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 a side gap and a lower side wall of the plurality of light guide paths (11), and an array-shaped member attached to at least one end of the light guide path (11); The light emitting pen (2) is a signal that stimulates a fluorescent dye contained in the light guide path (11) from a pen tip (21) to generate fluorescent light (3). Writing means for emitting light (4), wherein when the pen tip (21) is slid in contact with the upper surface of the tablet (1) for writing, the signal light (3) is applied to the upper wall of the light guide path (11). An optical tablet characterized by being incident from a light source. 2. The optical tablet according to claim ₁ , wherein the refractive index n ₁ of the light guide path is larger than the refractive index n ₂ of the reflecting member. 3. The light emitting pen (2), wherein the light emission wavelength λ ₁ of the signal light (4) is equal to or shorter than the light 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), wherein the reflection member (12) is made of a transparent polymer material and the display device (5).
The optical tablet according to claim 1, wherein the optical tablet is mounted on a tablet. 5. The optical tablet according to claim 3, wherein the light-emitting pen (2) contains a fluorescent dye and is made of a rod-shaped polymer material having one end forming a pen tip (21). 6. The light according to claim 1, wherein the tablet has a filter on its upper surface that transmits only the signal light of the light emitting pen. Tablet. 7. The tablet (1) has two light guide paths.
2. The optical tablet according to claim 1, wherein (11) are stacked so as to be orthogonal.