KR20130087142A - Electrostatic touch apparatus for glove - Google Patents

Abstract

PURPOSE: An electrostatic touch tool for gloves is provided to enable a user to use his or her portable devices while wearing gloves. CONSTITUTION: An electrostatic touch tool for gloves comprises a clip member (110) having conductance and a conduction member (120) having conductance. The clip member is located on the inner side of the finger part (210) of gloves. The conduction member is located outside the finger part.

Description

Electrostatic touch apparatus for glove

The present invention relates to a capacitive touch device for gloves that allows to use a personal portable device such as a smart phone to which a capacitive touch screen is applied even while wearing gloves.

In general, when a user wants to input and select desired information in a personal mobile device or an information processing device, a keyboard or a keypad is generally used. However, in recent years, according to the development of technology, a touch screen technology is widely used to input or select information by touching a screen by having a switching structure in various places of the screen without using a keyboard or a keypad.

Such touch screen methods include resistive film, capacitance, ultrasonic wave, optical, etc. Among them, a transparent electrode film is placed on a liquid crystal, a certain space is placed, and a surface lens is covered to make contact between the lens and the transparent electrode. It is a resistive type sensing method, and a capacitive type method of sensing a loss or gain of a charge when a contact is made after charging a charge on a surface of a touch screen and installing sensors.

In the capacitive touch screen, a signal can be input by causing the capacitance value of the capacitive pad to change according to a minute current. Therefore, the desired information can be input or selected only when the touch screen is brought into contact with a touch means capable of changing the capacitance value of the capacitive pad, such as a human finger.

Such capacitive touch screens have excellent input response and sensitivity compared to resistive touch screens, and thus are recently being widely applied to personal mobile devices such as smart phones.

However, when using a personal mobile device such as a smart phone with a capacitive touch screen, the user has to touch the touch screen with a finger of a human body or a specially made capacitive touch pen. As a state, there was an inconvenience in that a personal portable device such as a smart phone to which a capacitive touch screen is applied cannot be used.

Therefore, there is a demand for development of an electrostatic touch mechanism for gloves that can be used to use a personal mobile device such as a smart phone while wearing gloves.

The present invention has been made to solve the above-mentioned conventional problems, an object of the present invention is configured to be installed directly on a general glove, such as a smart phone such as a capacitive touch screen is applied in a state wearing a glove If you want to use a portable device to provide a glove electrostatic touch mechanism that can be used as it is conventional gloves.

The electrostatic touch mechanism for gloves according to the present invention for achieving the above object, in the electrostatic touch mechanism for gloves installed on the finger portion of the glove, includes a clip member formed to have electrical conductivity, and a conductive member formed to have electrical conductivity. However, the clip member is located inside the finger portion of the glove, characterized in that the conductive member is located outside the finger portion.

In addition, the clip member or the conductive member is characterized in that coupled to each other through the finger portion.

In addition, yaw is formed on one of the clip member and the conductive member, and iron is formed on the other one of the clip member and the conductive member that is not formed.

According to the electrostatic touch mechanism for gloves according to the present invention, when the glove is configured to be installed directly on a general glove and wants to use a personal portable device such as a smart phone to which a capacitive touch screen is applied while wearing a glove, It can be used as it is.

In addition, by using the conventional glove production process and equipment as it is to be manufactured with only minimal processes and equipment addition, the demand for gloves of various uses equipped with an electrostatic touch function can be satisfied.

1 is a view showing an electrostatic touch mechanism for gloves according to the present invention.
FIG. 2 is a cross-sectional view of the 'a-a' part of FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an electrostatic touch mechanism for gloves according to the present invention, Figure 2 is a cross-sectional view 'a-a' portion of FIG.

1 to 2, the electrostatic touch mechanism for a glove according to the present invention installed on the finger portion 210 of the glove 200 includes a clip member 110 formed to have electrical conductivity and an electrical conductivity. Including the formed conductive member 120, the clip member 110 is located inside the finger portion 210 of the glove 200, so that the conductive member 120 is located outside the finger portion 210 It is composed.

In addition, the clip member 110 or the conductive member 120 is coupled to each other through the finger portion 210.

Specifically, yaw is formed in one of the clip member 110 and the conductive member 120, and the other of the clip member 110 and the conductive member 120 is not formed. Iron is formed.

In addition, the conductive member 120 is formed of a conductive rubber material or a material moved thereto.

On the other hand, the conductive member 120 is preferably provided with a conductive fiber to enlarge the contact area with the finger.

In addition, the conductive fiber, the clip member 110 is preferably installed in a ring shape so that the contact with the finger is firmly maintained.

In addition, the conductive member 120 is preferably formed in a convex lens shape so as to gently touch the capacitive touch screen.

According to the electrostatic capacitive touch mechanism for gloves of the present invention, when the glove is configured to be installed directly on a general glove and a personal portable device such as a smart phone to which a capacitive touch screen is applied while wearing a glove, the conventional glove is intact. Become available.

In addition, by using the conventional glove production process and equipment as it is to be manufactured with only minimal processes and equipment addition, the demand for gloves of various uses equipped with an electrostatic touch function can be satisfied.

Although the preferred embodiments of the present invention have been described in detail, the technical scope of the present invention is not limited to the above-described embodiments, but should be construed according to the claims. It will be understood by those skilled in the art that many modifications and variations are possible without departing from the scope of the present invention.

110: clip member 120: conductive member

Claims (3)

In the electrostatic touch mechanism for gloves provided in the finger portion of the glove,
Including a clip member formed to have electrical conductivity, and a conductive member formed to have electrical conductivity,
The clip member is located inside the finger portion of the glove,
Capacitive touch mechanism for gloves, characterized in that the conductive member is located on the outside of the finger portion.
The method of claim 1,
The clip member or the conductive member penetrates the finger and is coupled to each other electrostatic touch mechanism for the gloves.
The method of claim 2,
A yaw is formed on one of the clip member and the conductive member, and an iron is formed on the other one of the clip member and the conductive member that is not formed.

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