KR20090065753A - Gloves - Google Patents

Abstract

Gloves are provided to protect the end part of fingers from the external impact more safely. Gloves(10) comprise a wrist putting part(12); a palm putting part(14) where the back of the hand and a palm part are put; and a plurality of finger putting parts(16). A protective layer made of the material having excellent impact absorption and friction is covered by the determined thickness along the outer circumference of the end part of the each finger putting part, and a moisture discharge hole is formed at the end part of the finger putting parts and at the inner surface and outer surface of the protective layer to discharge the moisture generated inside the gloves.

Description

Gloves {GLOVES}

The present invention relates to a glove, and more particularly, in a state of wearing gloves by improving the structure of the end portion of each finger-fitting in a ranch or cotton gloves worn by a worker during work by weaving into a relatively thick cotton thread. During operation, the moisture generated from the inside of the glove can be quickly discharged to the outside, and in case of heavy loads, the friction between the glove and the cargo can be increased to prevent slippage, and the tip of the finger from external impact It is to make the part more secure.

In general, gloves are worn to protect hands when lifting and transporting heavy cargo or performing work in various industrial sites.

One of the typical examples of such work gloves is a ranch glove, which is woven into a form that can be fitted with a hand using a relatively thick cotton thread. It consists of a palm fitting portion covering and a finger fitting portion into which each finger is fitted.

Such work gloves are made of cotton and have high thermal insulation effect, and are widely used in various work sites to protect hands from external shocks. There is a high risk of safety accidents, such as dropping the lifted cargo because it slips frequently during the process, and when working while wearing gloves, the moisture generated from the inside of the gloves cannot be discharged to the outside of the gloves themselves. Because of permeation, there is a problem that the wear becomes very unpleasant due to dampness due to sweat and moisture after a certain time.

Especially, in winter, when the temperature of the outside air is relatively low, it is not discharged to the outside and sweat and moisture permeated by the glove itself are cooled by the outside air, which causes severe hand discomfort. The problem is that the movement becomes unnatural and the cargo is not lifted properly or it is a big obstacle in performing the correct work.

Accordingly, in recent years, a work glove has been proposed and commercialized by coating a palm with rubber to increase friction. However, in this case, the glove may be more stably lifted or moved due to increased friction. The sweat and moisture generated inside of the body are not discharged more than the conventional rubber-free gloves, so the wearing feeling becomes very poor after a certain period of time. As this hardens, there is a problem that it does not work properly.

In addition, if an unexpected shock is applied to the fingertips, such as a finger being inadvertently hitting a finger with a hammer during the loading or nailing operation of the fingertips, the shock force may not be absorbed properly. This causes serious problems such as seriously injuring the finger.

The present invention is to solve such a conventional problem, a state of wearing gloves by improving the structure of the end portion of each finger fitting in the padded glove or cotton glove worn by the worker at work when weaved into a relatively thick cotton thread During work in the house, the moisture generated from the inside of the glove can be quickly discharged to the outside, and when heavy cargo is loaded, the friction force between the glove and the cargo can be increased to prevent slippage, The challenge is to make the end of the line more secure.

In order to solve the above problems, the glove according to the present invention is a glove composed of a wrist fitting portion and a palm fitting portion and a plurality of finger fittings, the shock absorbing effect of the external force on the outer peripheral surface of the end of each finger fitting portion is excellent , A protective layer made of a material having excellent frictional force is formed to be covered with a predetermined thickness according to the design, so that the moisture generated from the inside of the glove is discharged to the outside at the end of the finger portion and the inner and outer surfaces of the protective layer Moisture discharge hole for has a feature formed.

In the present invention, the protective layer is made of any one material selected from the group consisting of silicon, urethane, rubber, and has a feature formed to be covered with a thickness of 0.1 to 5mm with respect to the surface of the finger fitting portion.

Each finger fitting in the present invention has a feature formed with a plurality of moisture discharge holes.

According to the present invention, when a heavy load is to be lifted while working in a state of wearing gloves, since a protective layer of silicone, urethane or rubber is formed on the inner surface of the tip of the finger-fitting portion, the friction force is strengthened and heavy When lifting a load, you can strengthen the fingertips.

In addition, since the protective layer of silicone, urethane or rubber is formed on the inner surface of the fingertip and the outer surface with a predetermined thickness, it is possible to prevent the injury of the finger by the shock absorption effect when an external impact is applied. It is possible to increase safety.

In addition, since one or more moisture discharge holes are formed at the end of the finger-fitting part, the sweat and moisture generated from the inside of the glove are quickly discharged to the outside when working while wearing the glove, so that a comfortable wearing state can be maintained. In winter, finger hardening can be prevented.

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

1 is a perspective view showing the outside of the glove according to the invention, Figure 2 is a perspective view showing the inside of the glove according to the invention.

In addition, Figure 3 is a perspective view showing the outside of the state wearing a glove according to the invention, Figure 4 is a perspective view showing the inside of a state wearing a glove according to the present invention.

5 is a partially enlarged cross-sectional view of a finger-fitting part of the glove according to the present invention.

Referring to this, the glove 10 according to the present invention allows the moisture generated inside the glove to be quickly discharged to the outside during operation, and when the heavy cargo is loaded to increase the friction between the glove and the cargo to prevent slipping On the other hand, to protect the tip of the finger from external shocks more secure.

To this end, the gloves 10 according to the present invention are basically fitted with a wrist fitting portion 12 that is covered with a wrist when worn, a palm fitting portion 14 that is covered with a palm and a hand when fitted, and a finger fitted when worn. It consists of a plurality of finger-fitting parts 16.

In the present invention, the outer peripheral surface of the end portion of each finger fitting portion 16 is configured to be covered with a predetermined thickness according to the design of the protective layer 18 made of a material having excellent impact absorption effect against external force and excellent friction force. .

In addition, the moisture discharge hole 20 for quickly discharging the moisture generated from the inside of the glove 10 to the inner side and the outer surface of the finger fitting portion 16 and the protective layer 18 to the outside. It is configured to be formed.

In the present invention, the protective layer 18 is made of any one material selected from the group consisting of silicon, urethane, rubber, and is configured to be covered with a thickness of 0.1 to 5mm with respect to the surface of the finger fitting portion 16.

If the thickness of the protective layer 18 is less than 0.1mm, of course, the external impact force can not be properly absorbed, as well as easily worn, if the thickness of the protective layer 18 is formed thicker than 5mm of the glove 10 The thickness of the protective layer 18 is preferably 0.1 to 5 mm because a step with the outer surface is severely generated and there is some difficulty in bending and avoiding fingers while wearing gloves.

In the present invention, each of the finger fitting portion 16 and the end of the protective layer 18, as illustrated in the accompanying drawings of the present invention may be formed with a single moisture discharge hole 20, a plurality of moisture discharge The ball 20 may be formed.

In addition, the protective layer 18 is formed on the ends of the finger fittings 16, and the moisture discharge holes 20 are formed at the ends of the finger fittings 16 and the inner and outer sides of the protective layer 18. FIG. Of course, the technical configuration of the present invention can be applied to the rubber-coated gloves on the inner surface of the palm fitting portion 14 of course.

The operation of the present invention made as described above is as follows.

1 to 5, first, the user's hand is pushed through the wrist fitting portion 12, and a finger is inserted into each of the finger fitting portions 16, the palm and the back of the hand are the palm fitting portions 14. 3 and 4, the wearing state of the glove 10 according to the present invention is completed.

In this state, when the user carries out a load or the like, the protective layer 18 formed on the outer circumferential surface of the finger portion 16 is directly in contact with the cargo, and the protective layer 18 Since friction does not occur in the contact surface with the frictional force of, it is possible to apply more force to the hand holding the cargo.

As described above, the sweat and moisture generated in the inside of the glove 10 during the operation in the state of wearing the glove 10 according to the present invention are formed at the end of the finger fitting part 16 and the protective layer 18. It is quickly discharged to the outside through the moisture discharge hole 20 formed to penetrate the inner and outer surfaces.

In addition, when an unexpected impact force is applied to the fingertips, such as when the tip of the finger wearing the glove 10 is caught between the cargoes or hits the tip of the finger with a hammer while nailing during the loading of the cargo, As the impact force is absorbed and dispersed by the protective layer 18 formed at the tip of the finger fitting portion 16, the impact force applied to the tip of the finger is greatly alleviated.

1 is a perspective view of the outer side of the glove according to the present invention.

Figure 2 is a perspective view of the inside of the glove according to the present invention.

Figure 3 is a perspective view showing the outside of the state wearing a glove according to the present invention.

Figure 4 is a perspective view showing the inside of the state wearing a glove according to the present invention.

5 is a partially enlarged cross-sectional view of the finger fitting portion in the glove according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: gloves 12: wrist fitting

14: palm part 16: finger part

18: protective layer 20: moisture discharge hole

Claims (3)

In the glove 10 consisting of a wrist fitting portion 12, a palm fitting portion 14 into which the back of the hand and the palm portion are fitted, and a plurality of finger fitting portions 16, A protective layer 18 made of a material having excellent impact absorption effect against external force and excellent frictional force along the outer circumferential surface of each end of the finger fitting portion 16 is formed to be covered with a thickness determined according to the design; Moisture discharge hole (20) for discharging the moisture generated from the inside of the glove (10) to the outside and the inner surface and the outer surface of the finger fitting portion 16 and the protective layer 18 is formed Gloves. The method of claim 1, The protective layer 18 is made of any one material selected from the group consisting of silicon, urethane, rubber, characterized in that formed to be covered with a thickness of 0.1 to 5mm with respect to the surface of each finger fitting portion 16 Gloves. The method of claim 1, Gloves, characterized in that each of the finger fitting portion 16 is formed with a plurality of moisture discharge holes (20).

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