KR200450585Y1 - The non-slip panel make use of the recycle plastic - Google Patents

Abstract

The present invention mainly relates to a non-slip interior flooring using waste synthetic resin made of a built-in flooring material by forming a panel having a non-slip function as a raw material recycled waste synthetic resin such as waste vinyl,

    The panel is extruded from recycled raw materials recycled from waste synthetic resin, and a new material coating layer is formed on both sides of the panel. Recycling and recycling waste synthetic resins such as waste vinyl, which are thrown away by forming an anti-slip layer by acid embossing or irregularities on one surface of the panel It can be expected to provide the advantages and effects such as providing a panel with light weight, economical efficiency and anti-slip function at a relatively low price and supplying it to floors of school classroom floors or institution buildings.

Flooring material, waste synthetic resin, flooring material using waste synthetic resin, anti-slip flooring material, interior material using waste synthetic resin, anti-slip flooring material

Description

Non-slip interior floor using waste synthetic resin {The non-slip panel make use of the recycle plastic}

    The present invention relates to a non-slip built-in flooring using waste synthetic resin, more specifically, a waste material made of a non-slip panel made of a non-slip function as a raw material recycled waste synthetic resin, such as waste vinyl, to be used as a built-in flooring. It relates to a non-slip interior flooring using synthetic resin.

    Wood is widely used as an important building material to the present time in buildings. However, the timber is less than 4% in Korea due to the shortage of supply compared to the increase in demand for timber. Doing.

     Thus, development of alternatives that can be used in place of wood plywood is being made.

    On the other hand, waste vinyl used in rural plastic houses has become the main culprit of environmental pollution such as soil contamination and ecosystem destruction due to neglect and poor disposal (disposal). Along with the induction, it causes the dual problem of wasting resources.

    Accordingly, by recycling and recycling waste synthetic resins such as waste vinyl, it contributes to the prevention of environmental pollution and resource recycling, and to provide more diversified functionality and usability than various recycled panels using conventional waste synthetic resins. Of course, various interior and exterior panels using recycled waste synthetic resins having various functionalities and structures have been developed to be widely used as flooring materials.

    However, various recycled panels using such waste synthetic resins are not provided as interior materials with specific functionalities.

    As non-slip built-in flooring with anti-slip function has not been developed with functional products that can be used as floors in school classrooms or buildings, functional product development is needed.

    In the present invention, the interior flooring material which can be used as the interior flooring material is mainly recycled by recycling waste synthetic resins such as waste vinyl, but it is a sliding flooring material that can be widely used as a school classroom flooring material, an institution building flooring material, etc. To provide a protective interior flooring.

    The present invention extrudes a panel with recycled raw material recycled waste resin, forms a new material coating layer on both sides of the panel, and forms a mesh-type reinforcing net between the panel and the new material coating layer, which can be bonded and joined together. Forming indentations and protrusions,

An anti-slip layer is formed on the surface of one side of the panel by an embossing process or irregularities.

    The present invention provides advantages such as recycling and using waste synthetic resins, such as discarded vinyl, to prevent environmental pollution and recycling resources, and to construct panels with light weight, economical efficiency and anti-slip function at relatively low cost. The benefits and effects of supplying flooring materials such as buildings can be expected.

    The present invention is to construct a non-slip built-in flooring material by adding a non-slip function to the surface of the panel formed by recycling and foaming the waste synthetic resin, the first step to look at the recycling, foaming process of the waste synthetic resin as follows.

   Waste synthetic resins such as waste vinyl are compressed by a compressor and dropped into a melting facility.

  The dropping distance is 1m in the air, and is injected into the extruder installed at the bottom of the evaporation of the gas humidifier.The waste synthetic resin of the injected melt removes moisture and gas through the discharge hole of the extruder cylinder and removes impurities through an impurity exchange device. After cooling by flowing into the cooling water and producing chips with 4 ~ 5mm particle size, it is put into recycled synthetic resin processing process.

   The raw material produced by the chip is foamed and extruded into an extruder to obtain a foam (panel), and during this extrusion process, coated on both sides of the foam panel with a new raw material, and a reinforcing net (nylon, mono yarn, Natsel network, etc.) will be manufactured by insert molding.

     Forming, manufacturing process of the foam panel using such a waste synthetic resin is known.

  In the above, the surface of the foam panel is a non-slip treatment surface by embossing or the like in an extrusion molding machine (T dice) to have a non-slip function on one surface of the foam panel.

    Looking at the present invention in detail as follows.

    1 is a perspective view of the present invention, Figure 2 is a cross-sectional view of the present invention, Figure 3 is a cross-sectional view of the use state of the present invention.

    The present invention forms a panel (1) through the process of inputting → mixing → supplying → extrusion molding the waste synthetic resin raw material as in the usual extrusion process.

    At this time, the anti-slip layer 2 is formed on the surface of the panel 1 extruded by an extruder (T dice) by embossing to form the panel 1.

    The non-slip layer (2) is to emboss the surface of the panel (1) to the surface of the panel (1) during extrusion molding, or to form by irregularities (凹凸) to increase the surface area and to roughen the surface to prevent slipping, Such anti-slip shape can be carried out in various ways.

    The panel 1 is embossed in an acid shape up to 1 to 2 mm in various colors and thicknesses on the new material coating layer 3 on one surface during extrusion, or an anti-slip layer (2). ) By forming a functional subsidiary material, foaming material, antistatic material, shrinkage preventing material, etc. in a masterbatch to have a variety of beautiful appearance.

    That is, a new material coating layer (3) is formed on both surfaces of the panel (1) foam-molded with recycled raw material recycled waste plastics, the new material coating layer (3) is made of various synthetic resin materials (mainly PP, PE, etc.) By coating and wrapping the surface of the furnace panel 1, the strength is increased and an anti-slip layer 2 is formed on one surface.

   The new material coating layer (3) made of a new material is composed of a variety of colors, the color is a variety of colors and methods such as using a mast badge (MASTERBATCH) by using a variety of colors and transfer treatments such as to represent the texture pattern Colors and patterns can be done.

   Between the two surfaces of the panel 2 and the new material coating layer (3) to form a net-shaped reinforcing net (4), the reinforcing net (4) is mainly formed by injecting a mono-net (Net), etc. In addition to contributing to the strengthening of the panel 2, the coating strength of the new material coating layer 3 can be enhanced and the affinity with the panel 2 can be increased to increase the strength of the entire panel 1.

    And, one side of the panel (1) is formed in the concave portion (5) and on the other side to form a projection (6) corresponding to the concave portion (5) by fitting the concave portion (5) and the projection (6) mutually Adhesive joints allow construction.

   The above-mentioned concave portion 5 and the protrusion 6 may be implemented in various shapes with the exception of the illustrated.

   The construction of the panel 1 having a predetermined size is easily achieved by bonding and joining the concave portions 5 and the protrusions 6 adjacent to each other.

   Anti-slip built-in flooring, which is configured as described above, can be used and installed as classroom flooring materials in elementary, middle and high schools, so as to pursue economic benefits through resource recycling, as well as providing interior flooring for students with various colors and designs. It provides the advantages of being able to supply high quality products at a lower cost than the existing expensive wood materials, and the non-slip layer (2) of the panel (1) is buffered and prevents slipping of young students, thereby providing excellent safety. To provide.

    On the other hand, the panel 1 manufactured as described above is a predetermined standard unit example; It can be variously cut and molded to a standard such as width 150 to 1,000 × length 250 to 2,000 × thickness 1 to 12 m / m.

    The present invention constituted as described above has advantages such as excellent impact strength and abrasion resistance, cushioning properties, moisture resistance, and beautiful appearance as interior materials, and construction work is also very simple and easy to perform. The construction of the panel 1 having a predetermined standard is easily performed by mutually bonding and jointing the concave portions 5 and the protrusions 6 adjacent to each other.

     Since the coating part 3 coated on both sides of the panel 1 is constructed by reinforcing mesh 4 embedded therein, the weight of the panel 1 and the durability thereof are increased, so that the impact strength is excellent. Since it has a cushion force (Cushion) exhibits excellent cushioning properties as a flooring material, the non-slip layer (2) formed on the panel (1) surface to prevent the slip (Slip) to provide a safety accident prevention effect.

   1 is a perspective view of the present invention;

   2 is a cross-sectional view of the present invention

   3 is a cross-sectional view of the use state of the present invention

Description of the major symbols used in the main parts of the drawings

1: Panel

2: non-slip layer

3: New material coating layer

4: reinforced net

5: required part

6: protrusion

Claims (2)

The panel 1 is extruded from recycled raw material recycled from waste synthetic resin, and a new material coating layer 3 is formed on both sides of the panel 1, and a mesh-shaped reinforcing net is formed between the panel 1 and the new material coating layer 3. In the panel using the waste synthetic resin in which (4) is injected and formed, and the indentation part 5 and the protrusion part 6 which can mutually bond and couple together are formed, Non-slip using waste synthetic resin, characterized in that the non-slip layer (2) was formed by embossing in the shape of a mountain (1) to 2mm thickness on the new material coating layer (3) on one side of the panel (1) Built-in flooring. delete

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