KR200384056Y1 - stair non-slip - Google Patents

Abstract

The present invention relates to a staircase non-slip in which an elastic material and a reinforcement are injection molded.

According to the present invention, the staple non-slip is composed of a rubber or synthetic resin-based elastic material, and the biggest feature may be combined with injection reinforcement and injection molding. In order to solve the construction problems and safety problems of the existing staircase non-slip, the staircase non-slip of the present invention is made of a rubber or synthetic resin-based elastic material, such as aluminum or stainless steel, or p. v. c It is combined with a rigid non-metallic reinforcement such as injection molding to maintain the shape and close adhesion with the stairs to solve the construction problems. Preventing accidents is the biggest feature.

Rubber or synthetic resin-based elastic materials may be selected from metals such as aluminum or stainless steel, or p. v. Combining injection molding with a rigid non-metallic reinforcement such as c to maintain the basic shape of the staircase non-slip, and also closely adhered to the step to be constructed. In addition, the grooves are formed on the surface of the elastic material and the injection-molded reinforcement to allow the construction using the knife brook or anchor, as well as the step non-slip dedicated silicone, and the existing step non slip cannot be solved. The risk of the edge of the staircase, the elastic material of the rubber or synthetic resin system of the present invention is formed up to the corner of 90 ° angle, there is an opportunity to solve the problems of construction as well as to prevent problems of safety accidents as much as possible. Is provided.

Description

Stair non-slip

The present invention relates to staircase non-slip, and more specifically, the staircase non-slip structure escapes from being composed only of an elastic material, and by combining the staircase non-slip reinforcement with an elastic material by injection molding, as well as maintaining the original shape of the staircase non-slip, The adhesion relationship with the stairs to be constructed was also closely related. In addition, the risk of stair edges, which is pointed out as a disadvantage of the staircase non-slip, the material that can prevent the problem of safety accident, which is the biggest difficulty of the staircase non-slip, as the elastic material of the rubber or synthetic resin system is formed up to the edge. It is about.

In the prior art, as shown in Fig. 1, a method of attaching a staircase non-slip to a staircase using an adhesive such as a bond or silicon is mainstream. These products are easy to install and even the edges are made of elastic material, so they are often used in places targeting children and children, such as kindergarten or elementary school. However, when attaching a non-slip of rubber or synthetic resin to a staircase made of hard wood or stone, it is inevitable to point out the disadvantages of dropping as well as deformation of the form. In addition, due to the characteristics of the temperature-sensitive product, the construction in the temperature drop state is causing a number of problems, such as poor adhesion, the situation is not getting a lot of users' reliability. In addition, the metal structure staircase non-slip of FIG. 2 is a method of fixing a staircase using a knife or an anchor on a staircase, and inserting a staircase non-slip of a rubber or a resin system into an upper portion of the metal plate, mainly for adults. It can be seen a lot in shopping malls and general buildings. However, this staircase non-slip is less likely that the metal plate constructed by using a knife brook or anchor will fall off the stairs, but as the sand or stone material penetrates between the plate and the resin, the synthetic staircase non-slip falls off the metal plate. I often go out. In addition, the frequent shrinkage and relaxation caused by temperature changes are causing the fall of the synthetic resin, and the biggest problem of the non-slip of the metal structure staircase of FIG. Is a very disturbing risk factor.

The idea that the stairway only needs to be slippery on the side where the shoe touches is that the color and design change little by little, producing the same staircase non-slip.

The present invention is to solve the problems of the prior art as described above, to improve the problem of the fixed structure of the staircase non-slip, the metal such as aluminum or stainless steel or p. v. c By fixing the same non-metallic reinforcement by injection molding, it maintains the shape and tightly adheres to the stairs, thereby solving the construction problems. The non-slip surface of the stairs is formed of an elastic material of rubber or synthetic resin system to the corners, which is a safety accident. The aim is to provide a staircase non-slip that can be prevented.

Another object of the present invention, the elastic material is formed under the injection-molded stair non-slip to make it possible to reduce the noise generated in the stairs. The noise caused by the contact of the hard shoe sole with the existing stairs is to provide a step non-slip that the rubber or plastic-based elastic material cancels the noise and prevents a safety accident.

In the elastic step non-slip of rubber or synthetic resin system according to the present invention, the step non-slip is a metal such as aluminum or stainless steel or p. v. The rigid non-metallic reinforcements such as c are combined with the elastic material by injection molding to close the adhesion with the stairs to solve the construction problems.The non-slip surface of the stairs has a certain form of elastic material, which increases the coefficient of friction with the shoes, It is formed of an elastic material to prevent safety accidents, which is the biggest problem of the staircase non-slip products.

The present invention is based on the step non-slip combined with the elastic material and the reinforcement injection molded, but also solved the safety of the corner portion that could not be solved in the conventional metal structure step non-slip. The elastic material ② of rubber or synthetic resin system is combined with the reinforcement shaped member ④ to form a 90 ° angle to maintain the basic shape of the staircase non-slip as well as to closely adhere to the stairs to be constructed. In addition, grooves ⑥ are formed on the surface of the reinforcing material, so that the construction can be performed not only by using a knife brook or an anchor, but also by using stepless non-slip silicon. In addition, the risk of the edge portion pointed out as a drawback of the metal structure staircase non-slip, the staircase non-slip of the present design, the construction of the staple non-slip of the existing staircase non-slip as the elastic material of the rubber or synthetic resin system is formed to the edge It is about a product that produces an effect that can solve both problems and safety accidents.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

Figure 3 shows a step non-slip exposing the reinforcing material ④ according to the present invention, the elastic material ② having a certain shape is reinforced with the reinforcing material ④ and injection molding to increase the coefficient of friction with the shoes, elastic material and ② injection ④ Formed and bonded reinforcement ④ The shape is also maintained at 90 °, the adhesion relationship with the stairs can be estimated. In addition, in the stepped non-slip cross-sectional view of Fig. 4, a hole is drilled a predetermined depth of the step with a hammer drill into a groove ⑥ formed at a predetermined position on the surface of the non-slip surface, and a knife bulge ⑧ or an anchor is fixed to the groove ⑥ to By tightening and finishing, they changed the form to obtain simplicity and robustness at the same time. In addition, in the non-slip cross-sectional view of FIG. 4, the elastic material ② is combined with the reinforcement material ④ and the injection molding through the reinforcement groove 였 to increase the cohesion between the elastic material ② and the reinforcement material ④, and the elastic material ② wrapping the reinforcement material ④ is Covering the part, it can be seen that the staircase non-slip provides an opportunity to prevent accidents in the corners of the stairs.

The staircase non-slip combined with the injection molding of the elastic material and the reinforcing material is not only applied to the staircase non-slip processed and manufactured by rubber or synthetic resin-based elastic material as described above. It can also be applied to fabricated work. In the detailed description of the present invention disclosed above, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the utility model registration claims described below and equivalents to the utility model claims.

According to the present invention as described above, it can be felt that there is a significant difference from the conventional stair non slip.

In order to solve the construction problems and safety problems of the existing staircase non-slip, the reinforcement that maintains the 90 ° angle is combined with the elastic material and injection molding to the staircase non-slip of rubber or synthetic resin system. Maintaining the basic shape, as well as close contact with the stairs, solved the construction problems. The surface of the elastic material combined with the reinforcement and injection molding has a constant shape and has the highest coefficient of friction with the shoes. It is formed of an elastic material can provide a step non-slip that has the effect of preventing the safety accident that was the biggest problem of the step non-slip.

1 is a conventional synthetic resin staircase non slip

2 is a conventional metal structure staircase non slip

Figure 3 is a staircase non slip showing an embodiment according to the present invention

4 is a cross-sectional view of the present invention

<Description of the code | symbol about the principal part of drawing>

②. Elastic material ④. reinforcement

⑥. Home ⑧. Kalburuk

Iii. Peace ⑫. Stiffener groove

Claims (1)

Step stairs non-slip fabricated from rubber, synthetic resin, or other metal material such as aluminum or stainless steel, wherein the step non-slip is a step non-slip, characterized in that the elastic material and the reinforcing material is injection molded.