KR20140036581A - Gloves - Google Patents

Abstract

The present invention discloses gloves for outdoor activity. The present invention comprises: a body part molded by a non-conductive material; and a finger part molded by the same material continuously from the body part. Conductive fibers are successively sewn on an end part of the finger part, and a conductive part is formed by the conductive fibers in a desired pattern. By forming the conductive part on the end part of the finger part through the conductive fibers which are successively sewn by a sewing machine, various patterns of conductive parts can be formed, which may improve the appearance of gloves. In addition, by forming the conductive part, users can use a touch type device with ease and receive no feelings of alien substance; thereby, an efficient use of devices is made possible while wearing the gloves for outdoor activities.

Description

Evangelion Gloves for Outdoors {Gloves}

The present invention relates to conductive gloves, and more particularly, to an outdoor conductive gloves that can easily operate the electrostatic portable device even during outdoor activities.

Recently, with the rapid development of digital technology and communication technology, portable electronic devices are widely used. In particular, it is possible to send and receive various data by connecting to the Internet using next-generation portable electronic devices such as smart phones or tablet PCs, and also easily access various multimedia such as video and music. It became available.

Such next-generation portable electronic devices use a so-called 'touch panel', and the user is configured to operate the electronic device by accessing desired information or data using a finger. For example, a smart phone such as an 'iPhone' is used as a so-called 'touch phone' because it can move to desired data or information by detecting a portion indicated by a finger.

To this end, a transparent touch panel is generally provided with a 'touch sensor' and is configured to detect a user's finger and to access a desired service. The touch sensor is largely classified into a pressure-sensitive type (pressure sensing type) that senses the pressure when a user's finger contacts the touch panel and an electrostatic type that recognizes a minute current flowing in the human body.

In the case of a pressure-sensitive touch panel, it is composed of a layer made of a thin and fluid material, a stable layer that does not conduct electricity away from the liquid crystal screen, and a conductive layer that senses a touch point. This is a method of locating the conductive layer to detect changes in current and resistance. The pressure-sensitive touch panel is inexpensive and has the advantage of using other objects such as a touch pen because it is sensed by physical force.However, the touch screen film reduces the sharpness and damages the film itself. In addition, there are inaccuracies.

In recent years, portable electronic devices employing a touch panel using a capacitive touch method have become mainstream.

The capacitive touch panel consists of a glass coated with a conductive compound such as phosphorus / tin oxide, and a sensor is attached to the edge of the glass.

The electric current flows continuously through the glass. Since the minute current flows through the human body, when the user touches the touch screen using a finger light, the electrons in the glass move to the body, and the sensor detects the change of the electrons and measures its position. .

In the case of the capacitive touch panel, the sharpness is much better than that of the pressure-sensitive type, and the touch screen is operated with a finger.

However, unlike a pressure-sensitive type, there is a disadvantage in that a part of the human body such as a finger flowing with a small current flows.

Thus, for example, if a portable electronic device equipped with a capacitive touch panel is to be used, it must be operated using a finger.

For this reason, for example, if you want to operate a portable electronic device equipped with a capacitive touch panel while wearing gloves in a cold winter or wearing outdoor gloves to enjoy outdoor activities in recent years, synthetic fibers Gloves that are woven and manufactured in leather, etc., are non-conductive materials. Therefore, users must operate portable electronic devices with their gloves removed.

Therefore, it is very annoying to the user if the user has to take off the gloves to use the portable electronic device outdoors in the cold winter season or while wearing outdoor gloves for outdoor activities. In order to cause inconvenience to move to a warm room, there is a problem that must stop the action to perform outdoor activities.

In order to solve this problem, recently, a conductive glove capable of operating a portable electronic device equipped with a capacitive touch panel while wearing gloves has been proposed.

For example, Patent Application No. 10-2010-093303 proposes a glove made of carbon fiber, which has a body which is woven using a non-conductive material, and a carbon that is a conductive fiber with a finger end portion continuous to the body. A conductive portion that is woven using fibers, the conductive portion being woven at least on the thumb end and the index finger end.

However, in the case of gloves made of carbon fiber, the body part and the conducting part are molded with different materials, and thus the manufacturing is difficult, and in particular, there is a problem that spoils the aesthetics by molding with different materials.

In addition, after forming a glove form using a non-conductive material, a conductive glove has been proposed for coupling a conductive material into and out of the finger region of the glove. There is a problem in that the use of the device is not made smoothly because the contact with the hand is not made smoothly.

In addition, after forming the body portion of the non-conductive material in the form of conductive gloves, a method of embroidering the conductive material, that is, the conductive yarn on the finger portion by the embroidery method has been proposed.

However, in the case of the felling gloves by the embroidery method, when the stitches are sewn by embroidery, the conduction function is lost because the mutual connection is not made. To prevent this, the conduction function must be formed in a continuous agglomeration form. This is done.

Therefore, the embroidery time is not only very long, but also has a problem in that the user feels unpleasant to the area in contact with the finger in the completed state, which also gives the user a discomfort.

An object of the present invention for solving the above problems is to form a conductive part easily and quickly by forming a conductive part on the finger by a sewing machine after forming the body portion of the non-conductive material, and the discomfort caused by the feeling of foreign matter even in the use process It does not provide, and to provide an outdoor conductive gloves that can form a beautiful appearance.

Outdoor conductive gloves according to the present invention for achieving the object, the outdoor conductive gloves comprising a body portion molded from a non-conductive material, and a finger portion molded continuously from the body portion and molded of the same material The conductive part is formed on the distal end of the finger by a sewing machine and is formed in a desired pattern by a conductive yarn continuously connected to the finger.

One preferred feature of the present invention is that the conductive portion is formed on the thumb and index finger of the distal end of the finger.

Advantageous effects due to the above-described features of the present invention, by forming the conductive portion at the finger end through the conductive thread continuously connected by the sewing machine, it is possible to form a conductive pattern of various patterns, thereby making it possible to beautify the beauty .

In addition, since the conduction portion is formed by successive conductors, the use of the touch device is not only made smoothly, but also it does not feel any foreign matter, so that the efficient use of the device while wearing gloves during outdoor activities is possible.

1 to 3 is an exemplary photo of the conductive gloves for outdoor according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: FIG.

As shown, the conductive gloves for outdoor according to the present invention, the body portion 10 is formed of a non-conductive material, and the finger portion 20 is continuously formed from the body portion 10 and formed of the same material Is made of.

At this time, the end of the finger portion 20 having the characteristic elements of the present invention, the conductive portion 30 is formed in a desired pattern.

The formation of the conductive portion 30 is made by a weaving method of the form that continues the conductive yarn through the sewing machine.

That is, when the pattern is formed by the conductive yarns by the sewing machine, the pattern is formed in a continuous form without generating a broken portion.

In this case, the conductive yarn woven by the sewing machine may be formed in one strand, but weaving two or more strands simultaneously is preferable in terms of efficiency, which will be known to those skilled in the art.

Therefore, the user naturally wears the finger portion is in contact with the conduction portion 30 and the use of the touch device without the feeling of foreign matter is to be able to faithfully fulfill the function as outdoor gloves during outdoor activities.

On the other hand, the conductive portion 30 may be provided in the entirety of the finger portion 20, but preferably, it is preferably formed on the site where the touch device is most in contact, that is, the thumb and index finger.

In the present invention as described above, the conductive yarn 30 is formed in the desired pattern at the end of the finger portion 20 of the glove through the sewing machine, that is, the conductive portion 30 can be formed without interruption in various patterns.

Therefore, the outdoor device, that is, the operation of the touch device can be easily operated while wearing gloves for outdoor.

As a result, when various outdoor activities are performed, the touch device can be operated without any unnecessary action of taking off gloves, thereby obtaining an effect of not inhibiting outdoor activities of a glove wearer.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

Claims (2)

In the outdoor conductive glove consisting of a body portion formed of a non-conductive material, and a finger portion formed continuously from the body portion and formed of the same material,
Conductive gloves for outdoor, characterized in that the conductive portion is woven by a sewing machine on the distal end of the finger portion is formed in a desired pattern by the conductive yarn continuously connected. The method of claim 1,
The conductive portion is an outdoor conductive gloves, characterized in that formed on the thumb and index finger of the distal end of the finger.

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