KR100962977B1 - Capacitive stylus - Google Patents

Abstract

PURPOSE: An electrostatic stylus is provided to enable a residual material of a sensing unit not to remain on a screen even though a sensing unit is stuck to a screen by coupling a coating unit having a gap to the sensing unit. CONSTITUTION: A sensing unit(12) is coupled to a lower end portion of a conductive body unit(11), and has conductivity by distributing a conductive material to a synthetic resin. A coating unit(13) is coated on the surface of the sensing unit and has a gap(131). When the sensing unit presses the coating unit, the gap is opened by the elasticity of the coating unit so that some portion of the sensing unit provides the region that contacts a touch screen. The current of the touch screen is moved toward the body unit through the sensing unit.

Description

Capacitive stylus {capacitive Stylus}

The present invention relates to a stylus which is an input tool of a capacitive touch screen, and more particularly, to a capacitive stylus which prevents the sensitive part of the stylus from coming out.

Currently, electronic products having a touch input function, such as a personal digital assistant (PDA), a mobile phone terminal, a car navigation system, and a tablet PC, are widely used. The display screens of these products are sensitive by pressure sensitive or electrostatic sensitive. The capacitive touch screen is made of highly conductive glass called Indium Tin Oxide (In2O₃ + SnO₂). Sensors are attached to the four corners of the glass so that a current flows through the glass surface. It is the principle of the electrostatic that recognizes the change of current through this.

The moment the finger touches the sensitive touch screen, the electrons that flowed on the glass flow into the body through the finger, and the sensor detects the position where the change occurred. However, different users have different finger sizes, which causes errors in input.

For a delicate touch, a tool called the capacitive stylus is used. Conventional electrostatic stylus is composed of a body portion 1 made of a conductor as shown in Figure 1, and a sensitive portion (2) coupled to the end of the body portion. The sensitive part 2 has a structure in which conductive powder is dispersed in a synthetic resin and is electrically conductive. When the sensitive part 2 is rubbed on the screen, the conductive powder component and the synthetic resin component are separated to leave a residue. These residues can get on your hands or get inside the unit and cause malfunctions.

An object of the present invention is to provide an electrostatic stylus that does not come out to the outside even if the sensitive portion causes friction with the screen.

According to one aspect of the invention,

A conductive body portion;

A sensitive portion coupled to the end of the body portion, the conductive material being distributed in a synthetic resin;

The capacitive stylus is coated on the surface of the sensitive portion, and the capacitive stylus includes a coating formed with a void so that the current of the sensitive touch screen moves to the body portion through the sensitive portion when the sensitive portion presses the sensitive touch screen.

In addition, the coating unit may be any one selected from the group consisting of polyurethane, urethane, and silicone.

In addition, the thickness of the coating portion may be 0.01mm ~ 1mm.

As mentioned above, by bonding the coating part in which a space | gap was formed in the sensitive part, even if the sensitive part is in close contact with the screen, no residue of the sensitive part remains on the screen. In addition, because a minute current can flow through the pores of the coating portion, the capacitive stylus can smoothly operate the sensitive touch screen.

2 is a cross-sectional view of an electrostatic stylus in accordance with one aspect of the present invention.
2 is a cross-sectional view of a form in which the sensitive portion of the electrostatic stylus is pressed in accordance with an aspect of the present invention.

DETAILED DESCRIPTION Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to explain in detail enough to enable those skilled in the art to easily carry out the present invention. This does not mean that the spirit and scope of the present invention is limited.

2 is a cross-sectional view of an electrostatic stylus according to one aspect of the present invention. Electrostatic stylus 10 of the present embodiment, the conductive body portion 11 and; It is coupled to the end of the body portion 11, the conductive material 122 is distributed in the synthetic resin 121, the sensitive portion 12 is conductive; The air gap 131 is covered on the surface of the sensitizer 12, and when the sensitizer 12 is pressed on the screen, the air current of the screen can move to the body 11 through the sensitizer 12. It includes a coating 13 formed.

The capacitive stylus 10 is a tool used as a finger substitute for the sensitive touch screen. It can also look like a pen. When the body 11 of the electrostatic stylus 10 of the present embodiment is held by hand and is in contact with the sensitive touch screen, the current flowing to the sensitive touch screen is moved by hand along the body 11. The sensitive touch screen recognizes the flow of electric current, and the electronic device with the sensitive touch screen operates.

Body portion 11 is a conductive object, it may be manufactured in the form of coating the outside of the non-conductive material with a conductive material. The body portion 11 may be made of a metal material.

At the end of the body portion 11, the sensitive portion 12 is coupled. The sensitive part 12 has a form in which the conductive material 122 is distributed in the synthetic resin 121. The sensitive portion 12 is electrically connected to the body portion 11 so that a current can flow. If the body portion 11 directly touches the sensitive touch screen, a scratch may be formed, which may damage the sensitive touch screen. Therefore, by combining the sensitive portion 12 including the soft and elastic synthetic resin 121 at the end of the body portion 11, the problem caused by scratches were solved.

The main material of the synthetic resin 121 may be natural rubber, synthetic rubber, silicone rubber, urethane rubber, polyurethane, or the like. The conductive material 122 may be carbon, gold, silver, copper, nickel, graphite, or the like. The conductive material 122 may be prepared in powder form and dispersed in the synthetic resin 121. The conductive material 122 causes current to flow from the surface of the sensitive portion 12 to the body portion 11. Therefore, the conductive material 122 is fairly densely distributed in and out of the synthetic resin 12.

Since the conductive material 122 as well as the conductive material 122 are densely dispersed, the bonding force between the components of the synthetic resin 121 is weak. As a result, residues remain externally with slight friction.

In this embodiment, in order to solve this problem of the sensitive portion 12, the coating portion 13 is covered with the sensitive portion 12. The coating part 13 prevents the synthetic resin 121 and the conductive material 122 of the sensitive part 12 from coming out.

The coating part 13 may be any one selected from the group consisting of polyurethane, urethane, and silicon. In addition, various synthetic resins can be selected.

The thickness of the coating part 13 may be as thin as about 0.01 mm to about 1 mm. When the thickness of the coating part 13 is thin, the gap 131 as shown in FIG. 2 may naturally be formed while the coating part 13 is formed. In addition, when the thickness of the coating part 13 is thin, the coating part 13 may be torn due to slight friction or pressure, and thus the void 131 may be naturally formed.

The gap 131 becomes a sufficient space for the current to flow. When the capacitive stylus 10 of the present embodiment is in contact with the sensitive touch screen, the sensitive part 12 presses the coating part 13 as shown in FIG. 3, and at this time, the air gap 131 is opened and the sensitive part 12 is opened. Is part of the contact with the sensitive touch screen. Through the air gap 131, the current of the sensitive touch screen is moved to the human hand through the body portion 11.

Such a gap 131 may be formed in plural and may be distributed over the entire area of the sensitive portion 12.

In this way, by covering the sensitive portion 12 with the coating portion 13 in which the voids 131 are formed so that the current can flow, the outflow of the synthetic resin 121 and the conductive material 122 of the sensitive portion 12 is minimized. It becomes possible.

Although the embodiment of the present invention has been described in detail above, this is only one embodiment, and thus, does not limit the claims of the present invention. Based on the present embodiment, modifications and additions made by those skilled in the art to the equivalent range will also belong to the scope of the present invention.

Capacitive Stylus 10 Body Part 11
Synthetic Resin (121) Conductive Material (122)
Induction part 12 air gap 131
Coating part (13)

Claims (3)

A conductive body portion;
A sensitive portion coupled to the end of the body portion, the conductive material being distributed in a synthetic resin;
Is coated on the surface of the sensitive portion, including a coating formed with voids,
When the sensitive part is pressed against the coating part, the voids are opened by the elastic force of the coating part to provide an area where a part of the sensitive part contacts the sensitive touch screen so that a current of the sensitive touch screen is passed through the body. Capacitive stylus, characterized by moving to the negative.
The method of claim 1,
The coating part is an electrostatic stylus, characterized in that any one selected from the group consisting of polyurethane, urethane and silicone.
The method of claim 1,
The thickness of the coating is a structure of the electrostatic stylus, characterized in that 0.01mm ~ 1mm.

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