JPH05197487A - Stylus pen - Google Patents

Abstract

PURPOSE:To reproduce a writing sense on paper in an input operation and also to suppress the damage of a contact surface by forming a pen tip ball- shaped with high friction coefficient material so as to make the ball freely rotatable. CONSTITUTION:A void is provided at the tip of a pen mainbody 60 and the ball 61 of high friction coefficient material is held so as to be put between a contact line L1 and a contact point P1 inside the void. The pen mainbody 60 is brought into contact with the surface of a liquid crystal 5 so as to be moved at the time of an input. At this time, the ball 61 moves by rotating on the surface of the liquid crystal 5 by friction force F (P0) at the contact point P0. But, the rotation is braked by the resultant of friction force F (L1) and F (P1) at the contact line L1 and the contact point P1. Thus, the braking sense is given to the movement of the pen mainbody 60 and the writing sense on paper is reproduced in the input operation. The ball 61 moves on the surface of the liquid crystal 5 while braking and rotating so that the damage of the surface of the liquid crystal 5 is prevented. The ball can be formed of soft material and the rotation braking can be adjusted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stylus pen which is an input pen for a tablet input device.

[0002]

2. Description of the Related Art In recent years, computers, which are widely used in various fields, are being reduced in size and weight, and laptop computers and notebook computers are being commercialized.

In order to further reduce the size and weight of a notebook computer, an input / output integrated computer in which a liquid crystal display which is a display device and a tablet which is an input device are integrated has been actively developed.

Under these circumstances, the stylus pen, which is the input pen in the conventional tablet input device, is as described on page 13 of the instruction manual (March 1990) of the tablet SD-510C of Wacom Co., Ltd. In addition, the pen tip has a columnar shape, and its tip moves while rubbing on the tablet to reproduce the feeling of writing on paper.

[0005]

In order to extend the life of the input / output integrated computer, it is essential to suppress damage to the contact surface of the stylus pen.

It is an object of the present invention to provide a stylus pen capable of reproducing the feeling of writing on paper in the input operation in an input / output integrated computer and suppressing the contact surface damage of the stylus pen.

[0007]

As a first means for achieving the above object, in a stylus pen which is an input pen in a tablet input device, a pen tip of the stylus pen is made into a ball shape with a high friction coefficient material. It is formed and the ball is rotatable.

As a second means, the rotation of the ball can be braked in the stylus pen.

As a third means, in the stylus pen, the rotational braking of the ball can be adjusted.

As a fourth means, in the stylus pen described above, the ball of the pen tip is made of a soft material having a high friction coefficient, and the rotational braking of the ball is adjusted according to the writing pressure.

[0011]

With the above means, the input / output integrated computer reproduces the feeling of writing on paper in the input operation, and
Damage to the contact surface of the stylus pen can be suppressed.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An input / output integrated computer using a stylus pen of the present invention will be described with reference to FIG.

FIG. 5 is a sectional view of an input / output integrated computer.

In the figure, 1 is a housing of an input / output integrated computer, 2 is an electronic circuit, 3 is a digitizer for sensing the input of a stylus pen, 4 is a backlight for making it easy to see the liquid crystal display, 5 is liquid crystal, and 6 is It is a stylus pen for input operation.

The computer inking a character string of a command or data input with the stylus pen 6 into the liquid crystal 5, recognizes the written character string, and displays the recognition result on the liquid crystal 5. In addition, processing is performed according to the content of the recognized character string.

The stylus pen of the first embodiment of the present invention will be described with reference to FIG.

FIG. 1 is a sectional view of a nib of a stylus pen according to a first embodiment of the present invention.

In the figure, 5 is a liquid crystal, 60 is a stylus pen body, and 61 is a ball made of a high friction coefficient material provided at the tip of the stylus pen. Further, P0 is a contact point between the liquid crystal and the ball, L1 is a tangent line between the main body and the ball, and P1 is a contact point between the main body and the ball.

As shown in FIG. 1, the pen tip of the stylus pen has a cavity in the tip of a pen body 60, and holds a ball 61 so as to be wrapped with a tangent line L1 and a contact point P1. Equation 1 shows the relationship between the contact point P0, the tangent line L1 and the frictional force F (P0), F (L1) and F (P1) at the contact point P1 due to friction on the ball 61 in this state.

[0020]

[Equation 1]

As is clear from the equation 1, the frictional force F (P0) at the contact point P0 is larger than the resultant force of the frictional forces F (L1) and F (P1) at the tangent line L1 and the contact point P1.

Therefore, when the pen body 60 is brought into contact with the surface of the liquid crystal 5 and the pen is moved to write a character or the like, the ball 61 is rotated on the surface of the liquid crystal 5 by the frictional force F (P0) at the contact point P0. While moving. However, the rotation depends on the frictional force F at the tangent line L1 and the contact point P1.
Braking is performed by the resultant force of (L1) and F (P1).

According to this embodiment, the movement of the pen body 60 gives a braking feeling, and the input operation can reproduce the feeling of writing on paper. Further, the ball 61 moves on the surface of the liquid crystal 5 while rotating while braking, which prevents damage to the surface of the liquid crystal 5.

The stylus pen of the second embodiment of the present invention will be described with reference to FIG.

FIG. 2 shows a sectional view of the nib of the stylus pen of the second embodiment of the present invention.

In the figure, 5 is a liquid crystal, 60 is a stylus pen body, and 61 is a ball made of a material having a high friction coefficient provided at the tip of the stylus pen. Further, P0 is a contact point between the liquid crystal and the ball, L1 is a tangent line between the main body and the ball, A1
Is the contact surface between the body and the ball.

As shown in FIG. 2, the stylus pen tip has a cavity at the tip of the pen body 60, in which the ball 61 is held so as to be wrapped by the tangent line L1 and the tangent surface A1.

Equation 2 shows the relationship between the frictional force F (P0), F (L1) and F (A1) at the contact point P0, the tangent line L1 and the contact surface A1 due to the friction with the ball 61 in this state.

[0029]

[Equation 2]

As is clear from the equation 2, the frictional force F (P0) at the contact point P0 is larger than the resultant force of the frictional forces F (L1) and F (A1) at the tangent line L1 and the tangent surface A1.

Therefore, when the pen body 60 is brought into contact with the surface of the liquid crystal 5 and the pen is moved to write characters, the ball 61 rotates on the surface of the liquid crystal 5 due to the frictional force F (P0) at the contact point P0. While moving. However, the rotation depends on the frictional force F between the tangent line L1 and the tangent surface A1.
Braking is performed by the resultant force of (L1) and F (A1).

According to the present embodiment, the movement of the pen body 60 gives a braking feeling, and the input operation can reproduce the feeling of writing on paper. Further, the ball 61 moves on the surface of the liquid crystal 5 while rotating while braking, which prevents damage to the surface of the liquid crystal 5.

The stylus pen of the third embodiment of the present invention will be described with reference to FIG.

FIG. 3 shows a sectional view of the nib of the stylus pen of the third embodiment of the present invention.

In the figure, 5 is a liquid crystal, 60 is a stylus pen body, 61 is a ball made of a high friction coefficient material provided at the tip of the stylus pen, 62 is a cap for adjusting the rotation of the ball, and 63 is a ball. A washer that absorbs the slight movement of the cap. Further, 600 is a male screw at the tip of the main body, and 620 is a female screw inside the cap. Further, P0 is a contact point between the liquid crystal and the ball, L1 is a tangent line between the main body and the ball, and A1 is a contact surface between the main body and the ball.

As shown in FIG. 3, the pen tip of the stylus pen is provided with a cavity by the tip of the pen body 60 and the cap 62, in which the ball 61 has a tangent line L1 and a tangential surface A1.
The ball 6 is held by wrapping it with the contact surface A1.
Brakes in 1 revolution. Further, by tightening the cap 62, the braking on the contact surface A1 is adjusted.

Equation 3 shows the relationship between the frictional force F (P0), F (L1) and F (A1) at the contact point P0, the tangent line L1 and the contact surface A1 due to the friction with the ball 61 in this state.

[0038]

[Equation 3]

As is clear from Equation 3, the frictional force F (P0) at the contact point P0 is larger than the total force of the frictional forces F (L1) and F (A1) at the tangent line L1 and the tangent surface A1.

Therefore, when the pen body 60 is brought into contact with the surface of the liquid crystal 5 and the pen is moved to write a character, the ball 61 rotates on the surface of the liquid crystal 5 due to the frictional force F (P0) at the contact point P0. While moving. However, the rotation depends on the frictional force F (L1) and F (A1) on the tangent line L1 and the contact surface A1 depending on the tightening of the cap 62.
It is braked by the resultant force of.

According to the present embodiment, the movement of the pen body 60 is given a braking feeling in accordance with the tightening of the cap 62, and the input operation can reproduce the feeling of writing on paper. Further, the ball 61 rotates while braking, and the liquid crystal 5
The surface of the liquid crystal 5 is moved, and damage to the surface of the liquid crystal 5 can be prevented.

The stylus pen of the fourth embodiment of the present invention will be described with reference to FIG.

FIG. 4 is a sectional view of the nib of the stylus pen of the fourth embodiment of the present invention.

In the figure, 5 is a liquid crystal, 60 is a stylus pen body, 61 is a ball provided at the tip of the stylus pen and made of a material having a high coefficient of friction, and 62 is a cap for adjusting the rotation braking of the ball. , 63 are washers for absorbing fine movements of the cap. Further, 600 is a male screw at the tip of the main body, and 620 is a female screw inside the cap. Further, P0 is a contact point between the liquid crystal and the ball, L1 is a tangent line between the main body and the ball, and A1 is a contact surface between the main body and the ball.

As shown in FIG. 4, the pen tip of the stylus pen is provided with a cavity by the tip of the pen body 60 and a cap 62, in which the ball 61 has a tangent line L1 and a tangential surface A1.
The ball 6 is held by wrapping it with the contact surface A1.
Brakes in 1 revolution. Further, by tightening the cap 62, the braking on the contact surface A1 is adjusted. This allows
The ball 61 is made free while braking its rotation. Furthermore, since the ball 61 is soft, it deforms according to the writing pressure,
Thereby, the braking by the contact surface A1 can be adjusted.

Equation 4 shows the relationship between the frictional force F (P0), F (L1) and F (A1) at the contact point P0, the tangent line L1 and the contact surface A1 due to the friction with the ball 61 in this state.

[0047]

[Equation 4]

As is clear from the equation 4, the frictional force F (P0) at the contact point P0 is larger than the total force of the frictional forces F (L1) and F (A1) at the tangent line L1 and the tangent surface A1.

Therefore, when the pen body 60 is brought into contact with the surface of the liquid crystal 5 and the pen is moved to write a character or the like, the ball 61 rotates on the surface of the liquid crystal 5 due to the frictional force F (P0) at the contact point P0. While moving. However, the rotation is braked by the resultant force of the frictional forces F (L1) and F (A1) on the tangent line L1 and the contact surface A1 according to the writing pressure.

According to this embodiment, the movement of the pen body 60 is given a braking feeling according to the writing pressure, and the writing operation on paper can be reproduced by the input operation. Also, the ball 6
1 moves on the surface of the liquid crystal 5 while rotating while braking, and prevents damage to the surface of the liquid crystal 5.

In this embodiment, the replacement of the pen tip has not been described, but the ball or the tip of the pen including the ball may be replaced.

Although the electronic circuit for sensing in the stylus pen has not been described in this embodiment, it can be realized by a known technique.

Although the stylus pen sensing method has not been described in the present embodiment, it can be realized by a known technique such as an electromagnetic induction method, an electrostatic induction method, or a piezoelectric method.
Further, it is known that the laminated structure of the digitizer, the backlight and the liquid crystal differs depending on the method.

[0054]

According to the present invention, in the input / output integrated computer, the feeling of writing on paper is reproduced for the input operation,
In addition, it is possible to suppress damage to the contact surface of the stylus pen.

[Brief description of drawings]

FIG. 1 shows a sectional view of a pen tip of a stylus pen according to a first embodiment of the present invention.

FIG. 2 is a sectional view of a pen tip of a stylus pen according to a second embodiment of the present invention.

FIG. 3 shows a sectional view of a pen tip of a stylus pen according to a third embodiment of the present invention.

FIG. 4 is a sectional view of a nib of a stylus pen according to a fourth embodiment of the present invention.

FIG. 5 shows a sectional view of an input / output integrated computer.

[Explanation of symbols]

1 ... Housing, 2 ... Electronic circuit, 3 ... Digitizer, 4 ... Backlight, 5 ... Liquid crystal, 6 ... Stylus pen. 60 ... Main body,
61 ... Ball, 62 ... Cap, 63 ... Washer. 60
0 ... Male screw, 620 ... Female screw. P0, P1 ... contacts,
L1 ... tangent line, A1 ... tangent surface.

Claims (4)

[Claims] 1. A stylus pen which is an input pen in a tablet input device, wherein the stylus pen has a pen tip made of a material having a high coefficient of friction and formed into a ball, and the ball is rotatable. Stylus pen. 2. The stylus pen according to claim 1, wherein
A stylus pen characterized by being able to brake the rotation of the ball. 3. The stylus pen according to claim 1, wherein
A stylus pen with adjustable ball rotation braking. 4. The stylus pen according to claim 1, wherein
A stylus pen characterized in that the ball of the pen tip is formed of a soft material having a high friction coefficient, and the rotational braking of the ball is adjusted according to the writing pressure.