KR101087619B1 - Overshoe for Non-Sliping - Google Patents

Abstract

The present invention relates to an anti-slip shoe, and in particular, because it is made integrally as a natural rubber or synthetic resin with high sliding resistance to water or oil, it is light in weight and simple to wear, which is universal for workers' safety shoes, general sneakers, hiking boots, etc. It relates to a non-slip booties that can be worn as.

The first embodiment according to the present invention, in the non-slip booties of the present invention, a front heel plate having a shape corresponding to the front heel of the shoe and having a shape accommodating the front heel of the shoe; A heel plate having a shape conforming to the heel as a plane that can accommodate the heel of a shoe; It characterized in that it comprises a connecting portion for fixing the shoes to be elastically locked to the instep and side of the shoe seated on the front and rear heel plate.

Anti-slip, Overshoes, Safety Shoes, Shoes, Universal Overshoes

Description

Slip-resistant Overshoes {Overshoe for Non-Sliping}

The present invention relates to an anti-slip shoe, and in particular, because it is made integrally as a natural rubber or synthetic resin with high sliding resistance to water or oil, it is light in weight and simple to wear, which is universal for workers' safety shoes, general sneakers, hiking boots, etc. It relates to a non-slip booties that can be worn as.

In general, shoes such as shoes are uncomfortable to walk when the road freezes in the winter, and the pedestrians are injured due to the sliding phenomenon, which raises safety issues.

In order to solve the above problems, the conventional anti-slip device in the Republic of Korea Utility Model Publication No. 86-1485 is provided with a round recess in the sole bottom surface of the shoe, and the round jingung after providing a separate round jing The nut is embedded in the body of the body, and the bolt is arbitrarily twisted to form the inside and outside of the rounded body, and then adhered to the bottom of the shoe sole, which is suitable for pedestrians walking on the ice. It is to walk after protruding the bolt to the outside by using, and when walking on a general road, the tool is immersed into the inside of the rounding by using a tool again to walk after the same state as general shoes.

However, in the prior art as described above, the pedestrian has to protrude the bolt to walk on the icy road, and the separate tool used at this time is inconvenient to be carried by the pedestrian at all times. The anti-slip device has a problem such as becoming useless.

In addition, the conventional Korean Utility Model Publication No. 90-7755 proposes to form a seating recess on the bottom of the shoe, and bolted to the seating recess to prevent the anti-slip projection formed on one side When the pedestrian walks on the icy road, the anti-slip protrusion is switched to be exposed to the outside, and when the general road is pedestrian, the smooth surface is switched to be exposed again.

However, the prior art as described above has a problem in that it is inconvenient to carry the tool because it requires a tool for loosening and tightening the bolt to switch the guard, and at the same time, it is impossible to switch the guard when there is no tool. .

In addition, the conventional Korean Utility Model Publication No. 90-2204 proposes to cut one side of the upper circumference of the shoe rear axle, install a rotating wheel with a bolt formed on one side exposed to the outside through the incision, the bolt The anti-slip protrusion is provided to be mounted on the bottom surface of the rear of the shoe by the operation of the rotation wheel.

However, since the installation of the anti-slip protrusion is complicated, the prior art as described above has a prevention protrusion only on a part of the heel of the shoe, and thus has some anxiety to stably prevent slipping when walking on an ice path.

In addition, the conventional Korean Utility Model Publication No. 96-2313 proposes that a screw thread is formed on the rear shaft of the shoe, and is provided with a female screw having an end portion which is fastened to the recess and exposed to the outside.

However, the prior art as described above is inconvenient to carry the tool because it is not possible to reliably guarantee the slip prevention because it only depends on the small female screw, and a separate tool is required to protrude the female screw to the outside. .

In addition, the Japanese Unexamined Utility Model Publication No. 49-13148 proposes that the concave portion is formed at the center of the rear axle side of the shoe, and a non-slip plate-shaped non-slip device is installed at the concave portion. The bent portion is made to face the bottom surface when walking on an icy road, and to face upward when walking on a general road. However, the prior art as described above has a problem in that the installation of the slipper is complicated, and at the same time, the slipper protrudes only on a portion of the shoe rear axle, so that the slippering function is not properly performed.

In addition, the Korean Patent Publication No. 91-8963, which is conventionally proposed in the sole of the sole of the shoe with an assembling protrusion and the angle hole and the support is formed in the support portion formed by the adhesive and rotatable in the support and a plurality of conical protrusions on one side The non-slip rotating plate formed at regular intervals is rotatably coupled, but the support pin is inserted into one side coupling hole of the non-slip rotating plate and the coupling hole of the support, and then the support is inserted into the rotating hole of the support to be combined with the ring, and the non-slip rotating plate The other side of the protrusion is formed by engaging with the engaging portion to be detachably locked to the locking projection.

However, the prior art as described above has a problem that the conical protrusions formed on the anti-slip rotating plate are minutely protruded due to the complicated construction, and the slip prevention is not properly performed.

In addition, the conventional Korean Utility Model Publication No. 92-6016 suggests that the indentation protrusion and the shaft seating protrusion are indented on the bottom surface of the shoe rear window to inject a rotor having a plurality of protrusions and a compression spring into the first stage. And a two-segment deep hole to mount the shaft, and the two-segment deep hole is equipped with a torsion spring, and a fixing member having an exposure port is fixed to coincide with the lower surface of the shoe rear window so that the rotating body is eccentrically rotated through the exposure hole. will be.

However, the prior art as described above has a problem in that it is difficult to prevent slipping because it is difficult to manufacture due to a complicated configuration and at the same time, the slip prevention depends only on the projection of the finely protruded rotating body.

In addition to the above technical contents, Japanese Unexamined Utility Model Publication No. 61-43404 and Korean Utility Model Publication No. 88-3639 provide a shoe cover with a front windshield sheet and a rear windshield sheet in which hard particles are adhered with an anti-slip boot. It is attached to the bottom surface of the shoe to prevent slipping by wearing it on shoes when walking on the icy road, and Japanese Unexamined Utility Model Publication No. 53-1488465 and Korean Utility Model Publication No. 90-9013 provide non-slip devices. However, they are not only complicated, but also difficult to obtain a lot of effects in preventing slipping.

Therefore, due to the above problems, non-slip devices of the shoes which are conventionally implemented have a certain limit in productivity and economical efficiency as they are used as a product, and at the same time, the reliability and satisfaction of the users who use them due to the decrease in efficiency. There are always problems that are minimized.

In addition, the conventional slipper for the conventional slip can be achieved by a mechanical device as well as the increase in its own weight and manufacturing cost, as well as the need for additional work or time for management to prevent corrosion after wearing have. In addition, the prior art as described above is a device for preventing slipping suitable for the natural environment, such as snow roads and ice roads, the weight is heavy and inconvenient to wear in the indoor working environment. In other words, the conventional non-slip device is a tool for preventing safety accidents caused by slippage by foreign substances on the floor in construction sites or manufacturers, such as indoors and outside, which increases the fatigue of the worker and damages the floor surface of the room. There is a problem that can be done.

The present invention has been made to solve the conventional problems, in detail to safety shoes or general shoes worn by the worker to prevent safety accidents by sliding in the slippery workplace due to foreign substances or moisture on the floor in the indoor and outdoor workplace. It is to provide a wearable slipper.

In addition, another object of the present invention is to provide a non-slip booties that can be easily overlaid even when wearing safety shoes or other shoes because of having a high elastic rubber material and light and easy to wear.

In addition, another object of the present invention is a general purpose for hiking shoes or work safety shoes, general shoes, etc. to prevent slipping in normal walking in the natural environment, such as ice road or snow road, and slip in indoor or outdoor working environment such as construction sites or manufacturers. It is to provide an anti-slip boot, which can be applied as an example.

In addition, another object of the present invention is to provide a non-slip shoelace, which is light in weight and easy to wear as it is manufactured integrally as a natural rubber or a composition having high sliding resistance to water or oil.

The present invention includes the following embodiments in order to achieve the above object.

According to a first embodiment of the present invention, an anti-slip shoe of the present invention includes: a front hoof plate having a shape corresponding to the front heel of the shoe and having a space accommodating the shoe; A heel plate having a shape corresponding to the heel as a plane in which the heel of the shoe can be accommodated; It characterized in that it comprises a connecting portion for fixing the shoes to be elastically locked to the instep and side of the shoe seated on the front and rear heel plate.

In the second embodiment according to the present invention, in the first embodiment, the connecting portion is formed in a semi-circular frame at the upper side of the front hoof plate, and is fixed in close contact with the upper front of the front shoe of the shoe introduced between the front hoof plate With a fore hook; A heel ring for supporting a heel of a shoe that extends upward from both sides or end edges of the heel plate; It is formed to have a predetermined width is characterized in that it comprises a connecting piece connected to the heel ring from the front heel ring to tighten tightly on both sides of the shoes introduced.

According to a third embodiment of the present invention, in the second embodiment, the front hoof plate and the rear hoof plate are connected to each other by the connection part at regular intervals from each other.

According to a fourth embodiment of the present invention, in the third embodiment, at least one of the front and rear heel plates includes at least one indentation protrusion formed at the bottom surface thereof.

In a fifth embodiment according to the present invention, in at least one of the first to fourth embodiments, the non-slip boot is a first group comprising a natural rubber material having a property of not slipping in water It is characterized by being produced integrally as a composition of the group.

In the sixth embodiment according to the present invention, in the fifth embodiment, the composition of the first group group is 25 to 35% by weight of natural rubber (NR), 15 to 25% by weight of carbon M / B, buta 5-15% by weight of polybutadiene rubber (BR), 10-20% by weight of zinc, 0.2-0.3% by weight of stearic acid (ST / acid), 10-20% by weight of iron oxide, 10-20% by weight of titanium oxide, adhesion 0.5 to 1.0 wt% imparting agent, 0.5 to 1.0 wt% of Cubic Zirconia (CZ), 0.2 to 0.3 wt% of D, titanium silica (TS) 0.05 to 0.15 wt%, sulfur 0.5 to 1.5 wt% It is done.

In the seventh embodiment according to the present invention, in at least one of the first to fourth embodiments, the anti-slip boot is a composition of the second group group comprising a synthetic rubber material which is not slippery in oil. It is characterized in that the one-piece molding.

Eighth embodiment according to the present invention, in the seventh embodiment, the second group group is nitrile butadiene rubber (NBR, Nitrile Butadiene Rubber) 25 to 35% by weight, carbon master batch (M / B) 15 to 25 % By weight, 5 to 15% by weight of butadiene rubber (BR), 10 to 20% by weight of zinc, 10 to 20% by weight of stearic acid (ST / acid), 10 to 20% by weight of iron oxide, 10 to 20% by weight of titanium oxide %, 0.5 ~ 1.0 wt% of tackifier, 0.5 ~ 1.0 wt% of cubic zirconia (CZ), 0.2 ~ 0.3 wt% of D, 0.05 ~ 0.15 wt% of titanium silica (TS), 0.5 ~ 1.5 wt% of sulfur Characterized in that made.

Non-slip booties according to the present invention can be easily overlaid on safety shoes or general shoes in a slippery workplace due to foreign substances or moisture on the floor at indoor and outdoor work sites, which can prevent safety accidents due to slippage at indoor and outdoor work sites. It works.

In addition, since the present invention has a high elastic rubber material, it is light and easy to wear and can be easily overlaid even when wearing safety shoes or other shoes, and can be easily worn even in a complicated surrounding environment, and is manufactured as a thin and light high elastic rubber material. Therefore, even after wearing it has no effect on the activity at all.

In addition, the present invention is widely applied to hiking shoes, work safety shoes, general shoes, etc. so as to prevent slipping in normal walking in the natural environment, such as ice road or snow road, and slip in indoor or outdoor working environment such as construction sites or manufacturers. It is very effective in generating economic profits.

In addition, the present invention by forming a non-slip rubber sole as a rubber or a composition that does not slip in water and oil, so that the material itself can prevent slippery, slippery can be prevented by the material itself, lightweight and easy to wear Production is possible.

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

1 is a perspective view showing a non-slip boot in accordance with the present invention, Figure 2 is a plan view of a non-slip boot in accordance with the present invention.

1 and 2, the non-slip booties according to the present invention is a front heel plate 10 for supporting the front heel of the shoe, a heel plate 20 for supporting the heel of the shoe, and the front heel plate 10 and It is connected to the heel plate 20, respectively, and includes a connection portion 30 for supporting the instep of the shoe, and the front heel plate 10 and the heel plate 20 and the connection portion 30 as described above has elasticity and water or oil It is molded and made of natural rubber or synthetic material with high degree of resistance to slip.

The front plate 10 is made of a natural rubber or synthetic resin having an elastic material and does not have a degree of slipping against water or oil and is a plane having a space where the front heel can be accommodated in the sole of the shoe, and matches the front heel of the shoe. It has a shape.

The heel plate 20 is made of a natural rubber or synthetic resin having an elastic material made of a material that does not slip in water or oil is formed integrally with the front heel plate 10, the heel can be accommodated in the sole It is a plane having a space and has a shape corresponding to the heel of the shoe. In this case, the rear heel plate 20 is spaced apart from the body by a predetermined interval to form an empty space between the front heel plate 10 is connected by the connecting portion 30 is formed integrally.

The connecting portion 30 is composed of a ring and a piece having an elastic force that connects the front heel plate 10 and the heel plate 20 and tightens the shoes to be introduced to the front heel plate 10 and the heel plate 20 It is connected so as to be an integrated configuration, and secures the shoe by elastically engaging the instep and the side of the shoe seated on the front heel plate 10 and the heel plate 20. To this end, the connection portion 30 is a front heel ring 31 for fixing the foot of the shoe in the upper portion of the front heel plate 10, and a heel ring for supporting to fix the heel of the shoe in the upper portion of the heel plate 20 (33) and the connecting piece (32) for supporting a close contact with both sides of the shoe including the heel in the front heel of the shoe by connecting between the front heel ring 31 and the heel ring (33).

The front heel ring 31 is formed in a semi-circular frame at the upper side of the front heel plate 10, is fixed in close contact with the upper front heel of the shoes introduced between the front heel plate 10. Since the front heel ring 31 extends upward from the left and right sides of the front heel plate 10 to form an edge, the front heel plate 31 is opened forward and rearward between the front heel plate 10 so that the front heel of the shoe is retracted. Form. Here, the front heel ring 31 has elasticity and tightens the front heel of the shoe while extending when the front heel of the shoe is larger than the space between the front heel plate 10.

The heel ring 33 extends from both sides of the heel plate 20 to the upper side, and is formed into the heel plate 20 by forming a jaw 331 to be locked when the heel of the shoe is received by its own configuration. Support the heel of the shoe. Here, the heel ring 33 is formed in a plate shape having a predetermined width so that the flat surface 321 is formed on both sides of the heel plate 20 toward the heel plate 20. Tighten the seated heel with elastic force.

The connecting piece 32 has a predetermined width to connect the front heel ring 31 and the heel ring 33 and is connected to the heel ring 33 from the front heel ring 31. Here, the connecting piece 32 extends as a surface formed to have a predetermined width. At this time, the connecting piece is tightened by being in close contact with both sides of the shoes introduced as the extending surface is directed to the position of the front heel plate 10 and the heel plate 20.

The present invention is the front heel plate 10 and the rear heel plate 20 and the connecting portion 30 is integrally molded, in particular, is produced as a rubber or synthetic resin having a non-slip properties for oil or water to prevent slipping only by its own material Can be.

To explain this, the slipper according to the present invention is manufactured as a composition of the first group group having the property of not slipping in water. For example, 25 to 35% by weight of natural rubber (NR) that does not slip into water, 15 to 25% by weight of carbon M / B, 5 to 15% by weight of butadiene rubber (BR), 10 to 10% galvanized 20% by weight, stearic acid (ST / acid) 0.2-0.3% by weight, iron oxide 10-20% by weight, titanium oxide 10-20% by weight, tackifier 0.5-1.0% by weight, cubic zirconia (CZ, Cubic Zirconia) 0.5-1.0 wt%, D 0.2-0.3 wt%, titanium silica (TS) 0.05-0.15 wt%, sulfur 0.5-1.5 wt%.

Alternatively, the present invention may be manufactured by being molded integrally as a composition of the second group group having a characteristic of not slipping in oil. For example, nitrile butadiene rubber (NBR) 25 to 35% by weight, carbon masterbatch (M / B) 15 to 25% by weight, butadiene rubber (BR, polybutadiene rubber) 5 to 15% by weight, galvanized 10 ~ 20 wt%, stearic acid (ST / acid) 0.2-0.3 wt%, iron oxide 10-20 wt%, titanium oxide 10-20 wt%, tackifier 0.5-1.0 wt%, cubic zirconia (CZ, Cubic Zirconia) 0.5 ~ 1.0% by weight, D 0.2 ~ 0.3% by weight, titanium silica (TS) 0.05 ~ 0.15% by weight, sulfur 0.5 ~ 1.5% by weight.

Natural rubber of the first group as described above is good in the feel of all rubber and excellent mechanical properties are applied to automobile tire industrial truck tires, shoes, hoses, belts, air springs, general use and industrial products.

In addition, nitrile butadiene rubber, which belongs to the second group, has excellent oil resistance, abrasion resistance, and aging resistance, and is applied to oil resistance products such as oil seals, gaskets, oil resistant hoses, conveyor belts, printing rolls, and top rolls for textiles. do.

In addition, the carbon masterbatch (Carbon M / B) included in both the first group and the second group improves the strength by containing carbon, butadiene rubber is more elastic and excellent wear resistance than natural rubber for automobiles and aircraft It is excellent in tires, and zinc and stearic acid are used as vulcanizing agents. In particular, zincification also serves as a vulcanization accelerator and serves to make rubber products more useful.

In addition, the present invention is iron oxide and titanium oxide is applied to improve the friction force, a tackifier is applied to give the adhesion for slipping. The tackifier does not become a sticky adhesive by melting only a lump of rubber, but adds a special substance for showing stickiness, which is a tackifier. Rubber is usually a polymer with a molecular weight of several hundred thousand to several million, but most of the tackifier (hundreds of thousands to thousands). And the tackifier (Tackifier) is mainly a lot of synthesized ones, such as pine rosin may also be used. Examples of the material blended to increase the adhesiveness of the pressure-sensitive adhesive include natural resins (such as rosin and polyterpan resin) and synthetic resins (petroleum resin, coumarone, indene resin, etc.), and the present invention may be used in any way.

Vulcanization accelerator promotes the vulcanization reaction between rubber and vulcanizing agent and shortens vulcanization time, decreases vulcanization temperature and decreases physical and chemical properties. D, M, DM, CZ, NA22, EUR, TT, TS, TRA Any one of, PZ, EZ, BZ, and TL is possible, but CZ, D, and TS are applied in the present invention. In addition, S is used as a vulcanizing agent, which is added to have a state change of elasticity by chemical crosslinking reaction between rubber molecules.

The present invention is molded into the composition of any one of the first group or the second group as described above, and the front heel plate 10 and the rear heel plate 20 and the connecting portion 30 as described above integrally molded. Therefore, the slip slipper according to the present invention can be prevented from slipping only by the material itself.

The slippery test for slippers according to the present invention made of such a material was carried out in the Korea Footwear, Leather Research Institute, the results are as follows.

Test Items unit General safety shoes Butyl Safety Shoes Invention Test Methods

slip
Resistance test
(slip
Angle) deflation


M
(') 0.60
(31.2) 0.71
(35.5) 1.23
(51.0)

NO.162-SLH
SLIP Tester
(Glass surface test) Wet 0.32
(18.0) 0.46
(24.5) 0.97
(44.0) OIL 0.23
(13.0) 0.27
(16.0) 0.45
(24.0) Detergent + Water 0.16
(9.0) 0.21
(14.0) 0.45
(24.0)

Purpose of experiment: To measure the friction coefficient according to the slope.

Test conditions: the first comparative example is a general safety shoes, the second comparative example is a butyl safety shoes, the embodiment is a safety shoes worn with an anti-slip boot applied to the present invention, the first and second comparison examples and examples glass surface In the dry and wet state and oil, detergent and water sprayed on the top and changing the inclination angle of the glass surface to measure the sliding resistance and the sliding angle.

Test method: No.162-SLH SLIP tester finds the first and second comparative examples and examples slipped on the glass surface by changing the angle of the glass surface, and calculates the degree of resistance to each sliding. .

In the above experiment, the degree of resistance of each of the first and second comparative examples and the examples is measured by changing the inclination angle in the dry state of the glass surface (dry). In addition, the experiment was started in the state of spraying the glass surface with water (wet) or oil, and the angle and the slip resistance of the first comparative example to the embodiment was extracted while the detergent + water was sprayed on the glass surface.

Therefore, referring to Table 1, it can be seen that the slip resistance degree of the safety shoes worn with a non-slip booties according to the present invention is higher than that of general safety shoes and butyl safety shoes, which is superior to other safety shoes.

In addition, the overshoes according to the present invention includes a plurality of protruding protrusions 40 protruding from the bottom surface of at least one of the front hoof plate 10 and the rear hoof plate 20 in order to increase friction with the slippery surface. As shown in FIG.

Figure 3 is a bottom view of the slip slipper according to the present invention.

Referring to FIG. 3, the protruding protrusion 40 protrudes from the bottom surface of the front hoof plate 10 and the rear hoof plate 20 to increase friction with the ground. Here, the protruding protrusion 40 is formed on part or all of the bottom surface of the front hoof plate 10 and the rear hoof plate 20 to increase the frictional force with the ground to prevent slippage.

Hereinafter will be described the action by taking the non-slip booties according to the present invention to the shoe as an example.

Figure 4 is a perspective view showing a state of use of the slip slipper according to the present invention.

Referring to Figure 4, the non-slip booties according to the present invention can be universally applied to both safety shoes or hiking boots or general shoes as it is manufactured as a lightweight and elastic rubber or synthetic resin, to illustrate as an example 4 shows a wearing state using safety shoes as an example.

First, the user puts the front heel of his safety shoes on the front heel plate 10 and introduces it into the front heel plate 10. At this time, since the space between the front heel ring 31 and the front heel plate 10 is smaller than the diameter of the safety shoe, the front heel ring 31 is extended while the front heel of the safety shoe is retracted. And the front heel ring 31 is again reduced by the restoring force to tighten the front heel of the safety shoes.

In addition, the user places his safety shoes heel on the upper side of the heel plate 20, the heel ring 33 and the connecting piece 32 by pulling the fingers, the heel of the safety shoes seated on the heel plate 20. To be possible. Therefore, the connecting piece 32 is applied to the side of the safety shoes while tightening the tightening force, the heel ring 33 is fastened to the safety shoes by tightening the heel of the safety shoes.

Therefore, the worker is wearing overshoes to his shoes or safety shoes through the above process. Therefore, the operator can perform the same activities as he would on normal ground without slipping on slippery ground by water, oil or other foreign objects.

1 is a perspective view showing a non-slip booties according to the present invention,

2 is a plan view of the non-slip booties according to the present invention,

3 is a bottom view of the non-slip booties according to the present invention,

Figure 4 is a perspective view showing a state of use of the slip slipper according to the present invention.

* Explanation of symbols showing the main parts of the drawings *

10: front heel plate 20: rear heel plate

30: connection 31: front hook

32: connecting piece 33: heel hook

40: protrusion

Claims (8)

A front heel plate having a shape corresponding to the front heel of the shoe and having a space accommodating the shoe and having a shape matching the front heel of the shoe; A heel plate having a shape corresponding to the heel as a plane in which the heel of the shoe can be accommodated; It includes a connection for fixing the shoes to be elastically locked to the instep and side of the shoe seated on the front and rear heel plate, The front heel plate, the rear heel plate and the connecting portion is made in one piece as a composition of the first group group comprising a natural rubber material having a property of not slipping in water, The composition of the first group group is 25 ~ 35% by weight of natural rubber (NR), 15 ~ 25% by weight of carbon masterbatch (M / B), 5 ~ 15% by weight of butadiene rubber (BR), 10 ~ 20% by weight of zinc, Stearic acid (ST / acid) 0.2-0.3% by weight, iron oxide 10-20% by weight, titanium oxide 10-20% by weight, tackifier 0.5-1.0% by weight, cubic zirconia (CZ, Cubic Zirconia) 0.5- An anti-slip boot, comprising 1.0 wt%, 0.2-0.3 wt% of vulcanization accelerator D, 0.05-0.15 wt% of titanium silica (TS), and 0.5-1.5 wt% of sulfur. The method of claim 1, wherein the connection portion A front heel ring formed in a semicircular frame at an upper side of the front heel plate, the front heel ring fixed in close contact with an upper portion of the front heel of the shoe introduced between the front heel plate; A heel ring for supporting a heel of a shoe that extends upward from both sides or end edges of the heel plate; Non-slip booties, characterized in that it comprises a connecting piece which is formed to have a predetermined width and is connected to both sides of the shoes are inserted from the front heel hook to the heel hook. The method of claim 2, wherein the front and rear heel plate Non-slip booties, characterized in that connected to each other by a predetermined sieve spaced apart. The method of claim 3, wherein at least one of the front and rear plates, Non-slip booties, characterized in that it comprises a plurality of protrusions protruding from the bottom surface. delete delete delete A front heel plate having a shape corresponding to the front heel of the shoe and having a space accommodating the shoe and having a shape matching the front heel of the shoe; A heel plate having a shape conforming to the heel as a plane that can accommodate the heel of a shoe; It includes a connection for fixing the shoes to be elastically locked to the instep and side of the shoe seated on the front and rear heel plate, The front heel plate, the rear heel plate and the connecting portion are molded into one piece as a composition of the second group group containing nitrile butadiene rubber which is not slippery in oil, The composition of the second group group is Nitrile Butadiene Rubber (NBR) 25 ~ 35 wt%, Carbon Masterbatch (M / B) 15 ~ 25 wt%, Butadiene Rubber (BR, Polybutadiene Rubber) 5 ~ 15 wt%, Zincation 10 ~ 20 wt% , Stearic acid (ST / acid) 0.2-0.3 wt%, iron oxide 10-20 wt%, titanium oxide 10-20 wt%, tackifier 0.5-1.0 wt%, cubic zirconia (CZ, Cubic Zirconia) 0.5 -1.0 wt%, vulcanization accelerator D 0.2-0.3 wt%, titanium slipper (TS) 0.05 ~ 0.15 wt%, sulfur anti-slip, characterized in that consisting of 0.5 to 1.5 wt%.

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