KR101487766B1 - Manufacturing Method for Non-Slip Gloves - Google Patents

Abstract

The present invention relates to a method for manufacturing a flocked glove in which a fiber powder or a pile is flocked to prevent slipping, and more particularly to a flocked glove comprising a coating layer containing an adhesive in a glove, The present invention relates to a method for manufacturing a flocked glove for slip prevention in which treated fiber powder or pile is uniformly coated on a coating layer.
To this end, the present invention provides a method for forming a coating layer, comprising the steps of: forming a coating layer including an adhesive on a portion of a glove; and forming a fillet layer on the coating layer of the coating glove before the coating layer is cured, Wherein the step of forming the flocked layer comprises the steps of disposing the fibrous powder or the fiber pile subjected to the electrification treatment with the electrode plate on each of the upper and lower portions, placing the coating glove on which the coating layer is formed between the fibrous powder or the fiber pile and the electrode plate, Applying a power to the next electrode plate so that the electrode plate has a charged electrode of a fiber powder or fiber pile and an opposite electrode so that the fiber powder or fiber pile floating on the electrode plate side is uniformly coated on the coating layer of the glove do.

Description

{Manufacturing Method for Non-Slip Gloves}

The present invention relates to a method for manufacturing a flocked glove in which a fiber powder or a pile is flocked to prevent slipping, and more particularly, to a method for manufacturing a flocked glove comprising a coating layer containing an adhesive in a glove, The present invention relates to a method of manufacturing a flocked glove for slip prevention in which a flock is evenly coated on a coating layer.

Gloves are widely used for work in industrial sites or factories. Coating gloves, which apply only the entire surface of the gloves or the palms of the gloves, are used to protect the hands of the workers and to perform the work more efficiently. It is widely used to

Gloves are made of one layer, so they are weak in durability and weak in penetration of moisture and oil. Therefore, when an operator of a car center or the like who wears a lot of oil, wears gloves first, there are often cases where a glove is first used after wearing a vinyl glove.

Coating gloves, on the other hand, are superior in durability to general gloves because the coating layer is formed in one layer. However, after wearing the coating gloves, it has the disadvantage of slipping easily when gripping tools or workpieces with moisture, oil, or dust sticking on them.

A technique has been disclosed in which a coating layer is formed on a glove and then a fiber grain is adhered on a coating layer to form a fiber grain layer, thereby completing the disadvantage of slipping when gripped. However, when a fiber grain is adhered onto a coating layer, So that the problem of increasing the work flow rate and the difficulty in uniformly attaching the fiber grains are caused.

In addition, since the entire thickness of the glove is increased due to the formation of the fibrous granular layer on the coating layer, when the operator grips the object, the finger and the palm of the hand due to the thickness are not free.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a method of forming a coating layer containing an adhesive on a glove, In addition to forming the fiber pile of the fiber pile, it is possible to uniformly pile up the pile and to place the pile-protecting mold in the electric field forming area where the pile of the pile is formed. The present invention provides a method for manufacturing a flocked glove for preventing slippage and a flocked glove manufactured by the method, wherein the flocking of the fiber pile is prevented at the finger and palm of the coated glove, It has its purpose.

The present invention has the following features in order to achieve the above object.

The present invention provides a method for manufacturing a cotton knitted fabric, comprising the steps of: forming a coating layer including an adhesive agent on a part of a cotton glove; and forming a fiber layer or fiber pile on the coating layer of the cotton glove before the coating layer is cured, Wherein the step of disposing the electrode assembly includes the steps of disposing the electrode plate and the fiber powder or the fiber filament subjected to the electrification treatment on the upper and lower portions, respectively, and disposing a cotton glove on which the coating layer is formed between the fiber powder or the fiber pile and the electrode plate, A step of applying power to the plate so as to have a charged electrode and a counter electrode of the fiber powder or the fiber pile, so that the fiber powder or fiber pile floating on the electrode plate side is uniformly deposited on the coating layer of the cotton glove.

A step of arranging a flocking prevention frame having a plurality of flocking prevention frames positioned corresponding to the positions of the fingers or palms of the cotton gloves between the fiber powder or fiber pile and the cotton glove before the power is applied to the electrode plate .

In addition, the step of disposing the cotton gloves may include a step of disposing the wearing glove in a wearable frame formed of a hand glove, wherein each finger of the wearing glove has a semicircular shape with a vertical cross section and a horizontal bottom, Any one selected from a liquid natural rubber material, a synthetic rubber material or a PVC material and a glue are mixed and applied to a certain part of the cotton gloves.

In addition, the cotton glove according to the present invention is formed such that a coating layer including an adhesive and a flocked layer formed of a fiber powder or a fiber pile are formed on the coating layer, but no flocked layer is formed on a finger or a palm.

According to the present invention, a relatively simple process has the effect of reducing the number of workpieces by forming a fiber pile on the coating layer of the glove to prevent slippage.

In addition, when the user wears a finger, the user can freely move his / her finger and palm so that the user can grasp the finger.

1 is a flowchart illustrating a process for manufacturing a flocked glove according to the present invention.
FIG. 2 is a view showing a file building process according to the present invention.
Fig. 3 is a view showing a flock prevention frame according to the present invention.
4 is a view showing a wearing glove wearing frame according to the present invention.

Hereinafter, a method of manufacturing a flocked glove according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a flow chart showing a process of manufacturing a flocked glove according to the present invention, FIG. 2 is a view showing a flocking process according to the present invention, FIG. 3 is a view showing a flocking prevention mold according to the present invention, 1 is a view showing a wearing glove wearing frame according to the invention.

Referring to the drawings, a method of manufacturing a flocked glove according to the present invention includes forming a coating layer 110 to prevent liquid components such as water or oil from penetrating onto a glove 100, A step S20 in which the charged fibrous powder or fiber piles 200 are respectively disposed at upper and lower portions and a glove 100 in which a coating layer 110 is formed between the fibrous powder or fiber piles 200 and the electrode plate 300 A step of arranging the end plate glove 100 in a position where the finger or palm of the endothelial glove 100 is positioned between the fibrous powder or fiber pile 200 and the endothelial glove 100 before the step of applying power to the electrode plate 300, A step S40 of placing a flocking prevention frame 400 having a plurality of flocking prevention frames 420 positioned in correspondence with the plurality of flocking protrusions 400, (S) applying power to have a charged electrode and an opposite electrode of the capacitor 200 And a step S60 of forming a fillet layer 120 in which the fibrous powder or the fiber pile 200 is lifted to the electrode plate 300 side and is deposited on the coating layer 110 of the glove 100. [

Here, the coating layer forming step is performed by applying a liquid natural rubber material, a synthetic rubber material, or a PVC material to a certain portion of the glove 100. The coating layer 110 may be formed of any one of the natural rubber material, The first coating layer may be formed by first coating one of the first coating layer and the second coating layer.

In addition, the natural rubber material may be applied through a natural rubber latex. In addition to the natural rubber latex, sulfur, a vulcanization accelerator, an extender, a pigment, and the like are mixed and applied, followed by heat treatment The coating layer 110 may be formed.

Such a natural rubber latex coating layer is not only flexible and flexible, but also can be used stably and conveniently, but nitrile rubber (NBR), which is a synthetic rubber, can be used because of strong friction and weak disadvantages in petroleum solvents.

Herein, the nitrile rubber is an acrylonitrile butadiene rubber, which is an emulsion polymerized butadiene and acrylonitrile in a ratio of about 2: 1, and has excellent oil resistance against hydrocarbon and excellent heat resistance, ozone resistance and abrasion resistance.

The coating layer 110 may be formed on the entire surface of the glove 100. However, it is preferable that the coating layer 110 is applied to the palm side which is mainly in contact with the grip.

In addition, when the coating layer 110 is formed on only a certain portion of the glove 100, water repellency and oil treatment are separately performed on the portion where the coating layer 110 is not formed, .

Here, the water-repellent and oil-repellent treatment processes are carried out by carrying the glove 100 on the water-repellent / oil-repellent agent for a certain period of time, and such water-repellent and oil-repellent treatment processes can be performed in various forms.

In addition, various forms such as cotton gloves or synthetic resin gloves may be applied to the glove 100 in which the coating layer 110 is formed, but the present invention is not limited thereto.

Meanwhile, the flocking layer 120 is formed before the coating layer 110 formed as described above is completely cured, that is, in a curing process having a certain degree of tackiness and adhesiveness. In order to form the flocking layer 120, The step S20 of preparing the electrode plate 300 for allowing the fiber powder or the fiber pile 200 to be floated on the upper side and the fiber powder or fiber pile 200 to float on the upper side using the static electricity is performed do.

The fibrous powder or fiber pile 200 may be in the form of a powder or a three-dimensional file such as a cotton fiber, a synthetic fiber, a rayon room, or the like. However, the fibrous powder or the fiber pile 200 may be composed of various forms of fiber powder or fiber pile, 300 are electrostatically charged according to the electrode formation and are provided on the lower side.

When the fiberglass or fiber pile 200 and the electrode plate 300 are prepared on the lower and upper sides, respectively, the step of arranging the gloves 100 is performed (S30) It is preferable to be worn on the wearing frame 500 that imitates a certain portion and the shape of the hand and is moved by the conveying means.

It is preferable that the wearing frame 500 is formed of a conductive material such as a conductor or the like so that the fiber powder or the fiber pile 200 charged in the process of forming the fiber powder 200 or the fiber pile 200, So that it can be planted.

In addition, the glove 100 to be worn by the wearer 500 is formed in a horizontal semicircular shape so that the finger portion of the wearer 500 is uniformly buried in the bottom of the finger in the step S60 of forming the footwear layer to be described later, So that the lower side of the portion is formed in a horizontal state.

If a round shape is formed, a large amount of fiber powder or fiber pile 200 is densely piled up at the lower center portion, and a small amount of fiber powder or fiber pile 200 is put on both sides thereof. The shape of the finger is formed in a semicircle shape so as to prevent the formation of the flocking layer.

When the glove 100 is disposed, the power is applied to the electrode plate 300 (S50). Here, the electrode plate 300 is provided with the fiber powder or fiber pile 200 provided on the lower side, And a positive power source opposite to the negative electrode to be processed is applied.

The fibrous powder or fiber pile 200 located on the lower side of the glove 100 is lifted by the electrode plate 300 positioned on the upper side of the glove 100 and is attracted to the electrode plate 300, The fiberglass or fiber pile 200 is attached to the lower side of the glove 100 disposed between the upper and lower portions of the glove 100 (S60).

One of the greatest features of the present invention is that before the flocking layer 120 is formed, that is, before the electrode plate 300 is powered on, the flocking layer 120 is formed at the position of the finger and palm of the glove 100, And the support frame 410 and the fingers of the glove 100 and the support frame 410 are connected to each other so as to connect the support frame 410 with the support frame 410. [ And a flocking prevention frame 420 having a predetermined curvature corresponding to the position of the palm of the hand.

Here, the fingertip and the palm of the hand indicate the main fingernail positions for pinching or spreading the palm between the fingertips to bend or straighten the fingers to grasp the object.

Therefore, the flocking prevention frame 420 of the flocking prevention frame 400 is formed to be bent to correspond to the fingers and the main palm rest position. Such a flocking prevention frame 420 is described as an embodiment of the present invention, And may be formed in various shapes so as not to form a flocked layer at the bending position of the finger and the palm.

In addition, the step S40 of disposing the flocking prevention mold 400 may be performed in a step S20 in which the fiber powder or the fiber pile and the electrode plate are prepared according to the case, and then the glove may be arranged.

When the flock is formed on the coating layer 110 of the glove 100 excluding the palm or fingertip position through the flocking prevention frame 420 of the flocking prevention frame 400 in step S60, And a process for removing the flocked layer that is weakly bound to the flock.

The coating layer and the flock layer of the glove 100 according to the present invention can be formed not only on the outer surface of the glove 100 but also on the inner surface of the glove 100 as needed, It is needless to say that the glove 100 can be variously changed according to the environment and the taste of the glove 100.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to those precise embodiments, and many alternatives, modifications, and variations will be apparent to those skilled in the art. I will understand.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: glove 110: coating layer
120: flocking layer 200: fibrous powder or fiber pile
300: Electrode plate 400: Molding frame
410: support frame 420: flock prevention frame
500: Wearing frame

Claims (5)

A coating layer forming step in which a coating layer including an adhesive is formed on a predetermined portion of the glove;
And forming a fiber layer or fiber pile on the coating layer of the glove before the coating layer is cured,
The flocked layer forming step
A step of disposing a fibrous powder or a fiber pile subjected to electrification treatment with an electrode plate on upper and lower sides respectively; and a step of disposing a coating glove on which a coating layer is formed between the fibrous powder or the fiber pile and the electrode plate; A method according to claim 1, further comprising the step of disposing a flocking frame having a plurality of flocking frames located in correspondence with the fingers of the coating glove or the palm of the palm between the electrode fingers Further comprising a step of applying power to the electrode plate side so that the fiber powder or fiber pile floating on the electrode plate side is uniformly coated on the coating layer of the coating glove.
The method according to claim 1,
Wherein the step of disposing the glove is carried out by being worn on a wearing frame in which the glove is formed in a hand shape,
Wherein each finger portion of the wearing frame has a semicircular shape with a vertical cross section and a lower horizontal shape.
The method according to claim 1,
The coating layer forming step
Characterized in that a certain part of the glove is coated with any one selected from a liquid natural rubber material, a synthetic rubber material and a PVC material.
4. The method according to any one of claims 1 to 3,
Characterized in that the glove is provided with a coating layer including an adhesive and a flocked layer formed by coating a fiber powder or a fiber pile on the coating layer so that a flocked layer is not formed at a point where the finger or the palm is bent. Gt;
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