KR20110130861A - Capacitive type touch pen - Google Patents

Abstract

PURPOSE: A capacitive type touch pen is provided to secure enough contact area by widely unfolding conductive fabric of an elastic tip end. CONSTITUTION: A capacitive type touch pen comprises a grip part. An elastic tip end includes a conductive fabric(10) and sponge material(20). The conductive fabric is made of conductive material and touched to a capacitive touch screen. The sponge material is closely adhered to the conductive fabric and applies cushion effect to the conductive fabric. A tip end connector(30) made of the conductive material supports the sponge. A spring(60) installed in the rear side of the tip end applies pressing force to the tip end.

Description

Capacitive type touch pen

The present invention relates to a capacitive touch pen, and more particularly, to a capacitive touch pen having improved stability, durability, and ease of use.

As is well known, the touch screen is a mobile phone, MP3 player, PDA (Personal Digital Assistant), PMP (Portable Multimedia Player), PSP (Play Station) from various monitors such as navigation, industrial terminals, notebook computers, financial automation devices and game machines. Portable devices, portable game consoles, DMB receivers, as well as a variety of portable electronic devices such as refrigerators, microwave ovens, washing machines, etc. are widely used as input devices.

The touch screen is a device that is used together with a display device that displays predetermined contents so that when a finger or the like touches a touch screen stacked on the display device, the contents displayed on the display device below are input. By the resistive film method, the infrared method, the ultrasonic method and the capacitance method can be classified.

Among them, the resistive film is a structure in which two panels coated with a transparent electrode layer are bonded so that the transparent electrode layers face each other with a dot spacer interposed therebetween, and an electrical signal for position detection is applied to one transparent electrode. When the upper transparent electrode is contacted with the lower transparent electrode by finger or pen, it operates on the principle of detecting the electrical signal and determining the position coordinate by using the size of the detected electrical signal. There is a problem that the durability is weak and vulnerable to scratching.

Infrared method is a structure in which an infrared sensor composed of an infrared light emitting element and a light receiving element receiving infrared signal therefrom is operated on the principle of determining the position coordinate by the short circuit of the signal by an external object (finger). Although it can maintain up to 100%, it has a disadvantage of high manufacturing cost.

The ultrasonic method is a structure that operates on the principle of determining the touched position coordinates by transmitting and receiving ultrasonic waves along the touch surface, and has the advantage of being durable without being affected by contact objects, but having a slow response speed, high manufacturing cost, and low precision. Has its drawbacks.

Lastly, the capacitive type is a structure in which a pole plate is placed on a substrate to apply a voltage to the pole plate, and when a human hand contacts the pole plate, it detects parasitic capacitance according to the dielectric constant between the hand and the pole plate. It operates on the principle of determining position coordinates, and because of the advantages of superior transparency and durability compared to the resistive method, smooth operation and scrolling, and multi-touch that can be touched in various places, these capacities have recently been increased. The touch screen type is gradually increasing.

On the other hand, such a capacitive touch screen should use a salim hand or a capacitive touch pen, and the capacitive touch pen should maintain a contact area of approximately 3 mm * 3 mm, and further, approximately 30,000 contacts should be guaranteed.

On the other hand, a conventional capacitive touch pen may be classified into a brush type, a probe type, or a flat type according to the tip shape, and may be classified into a conductive silicon rubber type and a conductive sponge type according to the tip material. However, in the case of the brush type, there was a problem of poor aesthetics and inferior durability, and in the case of the flat type, the contact surface is fixed in one direction, so the convenience of use is inferior, and in the case of the probe type, it is usually made of a conductive silicone rubber. Not only the durability was lowered, but the friction coefficient was turned on, so the operation was not smooth.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a capacitive touch pen having improved stability, durability and ease of use.

Capacitive touch pen of the present invention for achieving the above object, at least the grip portion of the human hand is a body consisting of a conductor; It is made of a conductive material and is arranged to protrude to the front end of the cylinder is made of a conductive textile paper and a conductive material that is in direct contact with the capacitive touch screen, and is placed in close contact with the rear side of the conductive textile paper inside the cylinder to cushion the conductive fabric paper Stretch tip including a sponge to give; A spring made of a conductive material and installed inside the cylinder to support the sponge and electrically connected to the cylinder by being made of a conductive material, which is installed on the rear side of the tip connector and always applies a force to the tip connector. It is made, including.

In the above-described configuration, the cylinder is made of a hollow cylindrical body made of a synthetic resin material, the front end cylinder for accommodating the front end portion so that the conductive textile paper protrudes outside the front end, and the front end connector and the spring on the rear side; A cylindrical body made of a conductive material, the grip part connected to the rear side of the front end cylinder, and a cylindrical body made of a synthetic resin material, characterized in that it comprises a rear end cylinder connected to the rear side of the grip part.

The grip part comprises a rubber grip part made of a cylindrical body made of conductive silicon rubber material and connected to the rear side of the front end cylinder, and a metal grip part made of a cylindrical body made of metal and connected to the rear side of the rubber grip part.

On the other hand, the tip of the sponge is preferably made of a hemispherical shape.

According to the capacitive touch pen of the present invention, stability, durability, and ease of use can be improved.

1 is an external perspective view according to an embodiment of a capacitive touch pen of the present invention;
2 is an exploded perspective view of a capacitive touch pen of the present invention;
3 is a cross-sectional view of FIG. 1.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the capacitive touch pen of the present invention.

1 is an external perspective view according to an embodiment of the capacitive touch pen of the present invention, Figure 2 is an exploded perspective view of the capacitive touch pen of the present invention, Figure 3 is a cross-sectional view of FIG. As shown in Figures 1 to 3, the capacitive touch pen of the present invention is a capacitive touch is disposed so that at least the grip portion of the human hand is projected to the body of the conductor, the front end of the cylinder Conductive textile paper 10 which is in direct contact with the screen, a sponge 20 disposed in close contact with the conductive textile paper 10 inside the cylinder to impart a cushion to the conductive textile paper 10, and the sponge 20 installed inside the cylinder. In addition to supporting the front end connector 30 to secure the front end of the spring 60, the rear end of the front end connector 30 is installed on the spring (60) acting a constant pushing force to the front end connector 30 and It may be made to include an intermediate connector 70 which is installed at the rear of the front end connector 30 inside the cylinder to fix and support the other end of the spring (60). Here, the conductive textile paper 10 may form a stretchable tip portion together with the sponge 20.

In the above-described configuration, the cylinder is a plurality of cylinders, for example, the front end cylinder 50, the rubber grip portion 80, the metal grip portion 90 and the rear end cylinder in view of reducing the material cost, ease of processing and improved grip feeling, etc. It is preferred that 110) is combined. First, the front end cylinder 50 may be implemented as a hollow cylindrical body made of a synthetic resin material, for example, polycarbonate (Poly Carbonate) material. On the other hand, the distal end portion 50 is inserted into the distal end portion 50 so that the conductive textile paper 10 protrudes out of the distal end thereof, and the diameter of the distal end portion 50 is smaller than the diameter at the distal end portion of the distal end portion 50 so as not to be separated. Break prevention jaw 52 made of a formed.

Next, the conductive textile paper 10 of the stretched front end portion may be made of a material having conductivity by itself or by performing metal plating, for example, gold plating or silver plating, on a general fabric paper having strong durability. It is preferable that the sponge 20 of the elastic tip portion is also made of a high-density material having its own conductivity, and the contact area with the touch screen surface of the conductive textile paper 10 disposed in close contact with the front side is increased. It is preferable to implement the tip in a hemispherical shape so that the feeling of operation is good. By such a configuration, the distal end portion can be widened when contacting the touch screen to secure a contact area with the required touch screen, and when the contact is released, it contracts again and returns to its original state. The rear side of the sponge 20 may be implemented in a tapered shape in which the width becomes narrower to the rear end so as to be seated on the front end connector 30.

Next, the tip connector 30 may be formed of a disc shape made of a conductive material, preferably copper having good conductivity. The middle disc part 38, the O-ring inserting part 36, and the sponge seating groove are located in the middle. 32 and a spring support protrusion 34 may be included. In more detail, the O-ring insertion portion 36 having a smaller outer diameter is protruded at the tip of the middle disc portion 38, and the sponge (eg, the center portion of the O-ring insertion portion 36) is formed as described above. 20 is formed with a sponge seating groove 32 is seated. At the rear end of the intermediate disc portion 36, a spring support protrusion 34 is formed in which the spring 60 is inserted to the outside. On the other hand, the rear end of the conductive textile paper 10 is pressed by the O-ring inserting portion 36 by the O-ring 40 to prevent the separation.

The spring 60 may be implemented as a compression spring that is always extended.

Next, the intermediate connector 70 is made of a solid cylinder made of a metal material, for example, SUS material to combine the front end cylinder 50 and the rubber grip portion 80, the outer diameter is relatively large than the other fran Branch portion 78 and the screw coupling portion 74, 76 having a thread formed on both sides with it therebetween may be made. In such a configuration, the rear end of the front end cylinder 50 is screwed to the screw engaging portion 74 on the front side, and the rubber grip portion 80 is screwed to the screw engaging portion 76 on the rear side. On the other hand, the spring support protrusion 72 which fixes and supports the rear end of the spring 60 is formed in the center part of the screw engagement part 74 of the front side of the intermediate connector 70.

Here, the rubber grip part 80 is given to improve the grip feeling, and the metal grip part 90 may be directly coupled to the screw coupling part 76 on the rear side of the intermediate connector 70 without interposing the grip part. The rubber grip part 80 is preferably implemented with a conductive silicon rubber.

Next, the metal grip part 90 may be formed of a hollow cylindrical body made of a material having good conductivity, for example, copper, and the rubber grip part 80 described above to describe the electrical characteristics of the human body by being held in the hand of the human body. The intermediate connector 70, the spring 60, the front end connector 30, and the stretchable front end portion are transferred to the touch screen. Screws coupled to the front end and the rear end of the metal grip portion 90 and the screw engaging portion 102 formed on the front side of the rear end connector 100 and the screw coupling portion 76 formed on the rear side of the intermediate connector 70, respectively, will be described later. Coupling portions 92 and 94 are formed.

Next, the rear end connector 100 is also made of a solid cylindrical body made of a metal material, for example, SUS material, similar to the middle connector 70 to combine the metal grip portion 90 and the rear end cylinder 110, the outer diameter is different It may comprise a screw coupling portion (102), 104, each of which is formed with a thread on both sides with the intermediate flange portion 106 of the relatively larger than the portion between. The rear screw engaging portion 102 is screwed to the rear end of the metal grip portion 90, and the rear screw engaging portion 104 is screwed to the rear screw engaging portion 104.

Finally, the rear end cylinder 110 may be made of a synthetic resin material, for example, a polycarbonate material, and may be made of a cylindrical body whose rear end is rounded. Furthermore, it is preferable to make the outer diameter of the front cylinder 50, the metal grip part 90, and the rear cylinder 110 the same, so that a step | step may not arise between them.

In using the capacitive touch pen of the present invention having the above-described configuration, when the user grips the touch pen with his hand, the rubber grip part and the metal grip part come into contact with the palm of the human body. Lightly pressing the tip of the human body is transmitted to the touch screen via the rubber grip portion 80, the intermediate connector 70, the spring 60, the tip connector 30 and the stretched tip as described above You can see where the device is pressed. In this process, the conductive textile paper 10 of the distal end portion is double-folded by the cushioning action of the sponge 20 and the stretching action of the spring 60 so that a sufficient contact area between the touch screen and the touch screen can be achieved in a state where the operation feeling is improved. It can be secured.

The capacitive touch pen of the present invention is not limited to the above-described embodiment, and can be modified in various ways within the scope of the technical idea of the present invention.

10: conductive textile paper, 20: sponge,
30: tip end connection, 32: sponge seating groove,
34: spring support projection, 40: O-ring,
50: tip cylinder, 52: release prevention jaw,
60: spring, 70: intermediate connector,
72: spring support projection, 74, 76: screw connection,
78: flange part, 80: rubber grip part,
90: metal grip portion, 92, 94: screw joint portion,
100: rear end connector, 102, 104: screw connection,
106: frangipani, 110: rear end body

Claims (4)

At least a grip portion held in the hand of the human body is made of a conductor;
It is made of a conductive material and is arranged to protrude to the front end of the cylinder is made of a conductive textile paper and a conductive material that is in direct contact with the capacitive touch screen, and is placed in close contact with the rear side of the conductive textile paper inside the cylinder to cushion the conductive fabric paper Stretch tip including a sponge to give;
A tip connector made of a conductive material and installed inside the cylinder to support the sponge;
Capacitive touch pen made of a conductive material and electrically connected to the cylindrical body, the spring is installed on the rear side of the distal end connector, and includes a spring for exerting a constant pushing force on the distal end connector. The method of claim 1,
The cylinder includes a hollow cylindrical body made of a synthetic resin material, and includes a front end portion for accommodating the flexible front end portion so that the conductive textile paper protrudes outward from the front end thereof, and the front end connector and a spring at the rear side thereof;
A grip portion made of a cylindrical body made of a conductive material and connected to a rear side of the tip cylinder;
A capacitive touch pen comprising a cylindrical body made of synthetic resin and comprising a rear end cylinder connected to a rear side of the grip part. The method of claim 2,
The grip part comprises a rubber grip part which is formed of a cylindrical body made of conductive silicone rubber and connected to the rear side of the front end cylinder.
The capacitive touch pen, characterized in that made of a cylindrical body made of a metal material comprising a metal grip connected to the rear side of the rubber grip. The method according to any one of claims 1 to 3,
The tip of the sponge is a capacitive touch pen, characterized in that consisting of a hemisphere.

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