KR101067246B1

KR101067246B1 - A finger touch tool

Info

Publication number: KR101067246B1
Application number: KR1020100029658A
Authority: KR
Inventors: 김학호
Original assignee: (주)상문
Priority date: 2010-04-01
Filing date: 2010-04-01
Publication date: 2011-09-27

Abstract

The present invention is configured to operate the touch screen by inserting the finger, but the user can finely adjust the angle of the touch tip touching the touch screen, the finger touch configured to be conveniently used by women with long nails It relates to a tool, the tip base 20 is fixed to the front end of the main rubber 10, the space portion 15 is formed so that the finger is inserted, the rotation base fixed to the tip base 20 to be rotatable at regular intervals ( 30 is fixed, it characterized in that the touch tip 40 is fixed to the rotating base (30).

Description

A finger touch tool {A finger touch tool}

The present invention relates to a finger touch tool, and more particularly, it is configured to operate the touch screen by inserting a finger, but the user can finely adjust the angle of the touch tip touching the touch screen, and the touch tip is energized. Since it is possible to use a capacitive touch screen pad without leaving the fingerprint of the finger on the touch pad, and relates to a finger touch tool configured to be conveniently used by women with long nails and users.

The touch screen is called a touch screen, which is a screen designed to execute a command or move the position of a cursor by recognizing a contact portion when a user directly touches the screen using a finger or a ballpoint pen.

The principle of how touch screens work varies, but the most common case is the tight installation of sensor strings that respond to the pressure on the screen surface to determine the location in coordinates when pressure is applied. Although this method is used a lot, it has some disadvantages in precision. This method is called a reduced pressure expression.

The method developed to increase the precision of the screen is to charge the electric charge (current flow) on the screen surface, install sensors around it, and detect the loss of electric charge at the time of contact to determine where the contact is made. This method is relatively expensive and is called electrostatic.

You can work with your finger on large screens such as monitors, but it is very inconvenient to work with your finger on very small screens such as navigation, GPS, PDAs, and cell phones.

In addition, when a user touches the monitor or the large screen with his or her finger, fingerprints or oils may cause stains and messy appearances, causing inconveniences of having to clean the product all the time.

Due to this problem, products with small-screen touchscreen technology are provided with a pen that is similar to a ballpoint pen but rounded and smoothed at the end to prevent damage to the screen. This is commonly called a touch pen.

Conventional technologies include adding a function to a conventional bar touch pen or mounting a touch pen to a device more conveniently. However, due to the miniaturization of the device, the touch pen is made thinner and shorter, but such a touch pen is inconvenient to hold. In the event of a loss, the device itself becomes less valuable, resulting in an incomplete product with one missing part.

This product has been developed to fit the finger, but it was formed into a ring shape just put on the finger and pointed one side of the ring to press the touch screen. Such a product is easy to turn from the finger when inserted into the finger, it is inconvenient to be directed toward the touch screen when the end of the finger bent.

And if you put an object on the tip of your finger, if you press the straight line when the finger is stretched, it is difficult to control precisely, and when the finger tip is bent down, the precise control is made. It was desirable to do so, but none of these were developed.

In addition, when a finger is inserted into a space formed in a thimble shape, long nails are broken or not inserted, so women have felt a lot of inconvenience.

The touchscreen panel market to which touch pens will be applied is expected to grow centering on mobile phones, and the share of mobile phones will account for 62% of all applications with touchscreen panels.

In 2010, the number of mobile phones equipped with touch screen panels is expected to increase by 42% compared to the previous year to 2.6 billion units, and the proportion of mobile phones equipped with touch screen panels will increase from 12.8% in 2009 to 20.2% in 2010.

As touch pad products are spreading, the thumb tribe and index finger tribe are rising. This is a change in usage behavior due to the disappearance of numbers and letters on mobile phones and the increase in the share of touch screens.

Nowadays on subways and buses it is not difficult to see a person who is touching his cell phone with his index finger. Officer A is the representative of such index finger. Every morning, about an hour's drive from a town bus or subway, Mr. A enjoys playing DMB and professional baseball mobile games on her long full-touch screen phone. At this time his fingers are index finger. If you adjust the DMB channel and volume with your index finger and press the bet button of a batter in a baseball game, the free time to go to work will pass quickly.

The touch screen operates the device by finger pressure or static electricity between the finger and the screen, and many users use the index finger. It's a bit different from the way you used your thumb to send text to numbers and dials.

With the spread of smartphones, there are some side effects. The number of patients with wrist tunnel syndrome has increased as they enjoy texts and games on their mobile phones. Carpal tunnel syndrome usually occurs in office workers who use computers at work and personally smartphones. There is a problem that women in their 30's and 60's are more likely to take women than men.

Carpal tunnel syndrome is a disease in which the nerves from the arm to the hand are pressed against the ligaments of the wrist, causing the hand to numb or dull. In particular, the second, third, and fourth of the fingers have a problem that mainly causes pain due to pain.

At some point, the hand is weakened when you hold the handle, pen, etc. It is a typical symptom. If you use your index finger for a long time, you may experience severe pain in your entire palm.

This symptom is due to the characteristics of the smartphone. Smartphones have a high error rate because there is no boundary between the keypads. People with large hands often press two or three buttons at the same time, and the finger and wrist joints tend to follow in the process of trying to touch the fingertips with the finger straight up.

The present invention has been made in order to solve the above problems, it is configured to expose the nail to the outside of the main rubber so that the nail is not broken or disturbed even when inserted into the female finger with long nail, the touch tip is It can be used for capacitive touch screen panel because it is energized with finger, and it is designed to change the angle of touch tip directly touching the touch screen to provide finger touch tool that can be fixed and used by the user at a convenient angle. The purpose is to.

The present invention is the tip base is fixed to the front end of the main rubber formed with a space to insert the finger in order to achieve the above object, the rotation base is fixed to the tip base to rotate at a predetermined interval, the touch tip is fixed to the rotation base Characterized in that the space portion of the main rubber is formed according to the size of the user's finger, the finger guide is formed to be selected by the user is inserted, the finger guide to the touch tip so that the finger is energized Is formed, the nail hole is formed on the upper side of the support body of the main rubber, the tip base is formed a pair of rotating base fixing to the front end of the body, the rotating base is fixed between the rotating base fixing the touch tip Is rotatably fixed, a spring groove is formed between a pair of rotating base fixing, the spring is inserted into the spring groove The locker is fitted to the end in a state, the locker provides a finger touch tool, characterized in that the angle is adjusted by being fitted into the stop groove formed on the rotating base at a predetermined interval.

As described above, the present invention has the effect of manipulating the touch screen precisely because the person can adjust the touch tip in the most convenient and fine direction.

The tip of the finger is inserted into the main rubber, but the tip of the finger is divided according to the size of the finger so that it can be inserted into a small and medium finger guide.

In the case of a woman who grows long nails, the long raised nail is exposed to the outside through the nail hole formed in the main rubber, and thus the nail is not broken and the nail is not broken.

1 is a perspective view of a use state showing a state where a finger touch tool of the present invention is fitted to a finger;
2 is a perspective view of a finger touch tool of the present invention.
3 is a cross-sectional view showing a finger touch tool of the present invention.
4 is an exploded perspective view showing a finger touch tool of the present invention.
5 is a perspective view showing a state where the finger touch tool of the present invention is fitted.
6 is a cross-sectional view showing a state where the finger touch tool of the present invention is fitted to a finger.
Figure 7 is an exploded perspective view showing a state in which the finger touch tool of the present invention is configured in the energized manner.
8 is a cross-sectional view showing a state in which the finger touch tool of the present invention is configured in an energized manner.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

Unlike the conventional touch pen, the present invention is configured to be easily manipulated by inserting it into an index finger and to transmit a force of a finger sensitively.

The main rubber 10 is a space 15 is formed so that the finger is inserted, the main rubber 10 is made of a soft elastic material such as silicone or rubber is preferably configured to have a heterogeneity when fitted to the finger. However, even if made of other materials will be included in the scope of the present invention.

The tip base 20 is fixed to the front end of the main rubber 10, the rotation base 30 is fixed to the tip base 20 to be rotatably fixed at a predetermined interval. Touch tip 40 is fixed to the rotation base 30, the touch tip 40 may be rotated to stop at a certain angle.

And by forming a cover to protect the main rubber 10 and the touch tip 40, and to produce a variety of cover to protect the main rubber 10 and the touch tip 40 can maximize the promotional effect of the suppliers.

The finger guide 50 is inserted into the space portion 15 of the main rubber 10. The finger guide 50 may be selected by the user because the space portion is formed differently according to the size of the user's finger.

Therefore, if only the finger guide 50 is produced by size, the user can select according to the size of the finger, the manufacturing process is simplified.

And the nail hole 13 is formed in the upper one side of the support body 11 of the main rubber 10, the nail managed by the long through the nail hole 13 comes out of the nail is broken or give power by the nail This prevents you from failing.

The touch tip 40, the tip base 20, and the rotating base 30 are made of metal so as to be used in a capacitive touch pad, and the contact end 25 is formed at the end of the fixing part 25 of the tip base 20. -1) is formed to penetrate through the hole 52 of the finger guide 50 to touch the space 51 to allow the finger to directly touch the current. A hook is formed in the fixing part 25 and a locking jaw is formed in the hole 52 so that the hook is caught. It may be fixed using another method.

In the case of not energizing, the touch tip 40, the tip base 20, and the rotation base 30 may not be made of metal, and the contact end 25-1 may not be formed.

The tip base 20 has a pair of rotating base fixing parts 22 formed at the front end of the body 21, and the rotating base 30 having the touch tip 40 fixed between the rotating base fixing parts 22 is formed. The pin 26 is rotatably fixed.

A spring groove 27 is formed between the pair of rotation base fixing parts 22, and the locker 36 is fitted at the end with the spring 37 inserted into the spring groove 27. The projection 36-1 is formed at the end of the locker 36 so that the projection 36-1 is fitted into the stop groove 35 formed in the rotation base 30 at a predetermined interval to adjust the angle. The locker 26 is formed in a cap shape with one end open, and one end of the spring 37 is inserted and supported therein.

Conventional touch pens cause frequent loss if they are not inadvertently remounted or inserted into the lid after use. However, the FTT is closely attached to the user's finger when using the user, so even if the hand is freely used, the possibility of loss can be lowered.

10: main rubber 11: support body
12: incision 13: nail hole
14: hole 20: tip base
21 body 22: rotating base fixing
23: engaging end 24: pinhole
25 fixing part 26 pin
27: spring groove 30: rotating base
31: disk 32: fixing hole
33: stopper 34: hole
35: stop groove 36: rocker
36-1: protrusion 37: spring
40: touch tip 50: finger guide
51: space 52: hole
53: inclined end 15: space part

Claims

The tip base 20 is fixed to the front end of the main rubber 10 in which the space portion 15 is formed so that the finger is inserted, and the rotating base 30 is fixed to the tip base 20 to be rotatably fixed at a predetermined interval. Finger touch tool, characterized in that the touch tip 40 is fixed to the rotating base (30).

The finger touch of claim 1, wherein a finger guide 50 is inserted into the space part 15 of the main rubber 10 so that the space part is formed differently according to the size of the user's finger. Tools.

The finger touch tool according to claim 1 or 2, wherein a nail hole (13) is formed at an upper side of the support body (11) of the main rubber (10).

The tip base 20 has a pair of rotating base fixing 22 formed at the front end of the body 21, the touch tip 40 is fixed between the rotating base fixing 22 Rotating base 30 is rotatably fixed, a spring groove 27 is formed between a pair of rotation base fixing portion 22, the locker at the end with the spring 37 is inserted into the spring groove 27 36 is fitted, the locker 36 is inserted into the stop groove 35 formed in the rotation base 30 at a predetermined interval to adjust the angle, the fixing portion 25 is formed at the rear end of the tip base 20 Finger touch tool, characterized in that.

The method according to any one of claims 1, 2, and 4,
The tip base 20, the rotating base 30, and the touch tip 40 are made of an electrically conductive metal, and a contact end 25-1 is formed at the fixing portion 25 of the tip base 20 to form a finger guide. The finger touch tool, which is exposed to the space portion 51 of the finger guide 50 while being inserted into the hole 52 of the 50, and the contact end 25-1 is in contact with the finger and is energized.