KR20080113592A - Construction method of slip prevention road pavement - Google Patents

Abstract

The present invention relates to a slip-proof floor package.

According to the present invention, it is possible to display an image of a specific texture expressed from a fabric, and to adhere a standardized elastic sheet on a base layer, and to place the fabric between the elastic sheet and the anti-slip elastic sheet forming a surface layer, thereby causing cracks due to deformation. To prevent a specific texture from appearing, and the non-slip elastic sheet may be used for pavement of general roads or children's protection areas by selecting various transparent and elastic materials to form various patterns and symbols or the interior floor of a building. Provides a package that can be installed by.

Description

Construction method of anti-slip road pavement {.}

1 is a cross-sectional view of the present invention

2 is a cross-sectional view showing another embodiment of the present invention

* Explanation of symbols for the main parts of the drawings

10: substrate 20: first adhesive layer

30: elastic sheet 40: second adhesive layer

50: fabric 60: non-slip elastic sheet

70: transparent resin layer

The present invention relates to a method of constructing a road pavement, and more particularly, by interposing a fabric between a standardized sheet of rubber material and an anti-slip plate and attaching the adhesive to the upper portion of the base layer to reinforce the strength and at the same time by the fabric. Textures can be obtained, and the upper floor can be shaped with lanes or traffic safety to create an aesthetic effect that can be applied to unspecified floors, such as school zones, child sanctuaries, or general road pavements or indoor floors. As it is manufactured in the form of blocks or tiles having a size and cross-sectional area, it can be used to improve the road environment and urban aesthetics, to help safe driving and safe walking, and when applied to buildings, it can improve the interior aesthetics of buildings. And a non-slip floor package.

Recently, research on road pavement for the safety of pedestrians and vehicles has been actively conducted. In particular, in order to prevent the pedestrian impact acting on the body from the ground when a pedestrian walks, the seat surface and urethane chip with anti-slip function and elasticity are installed on the surface of the road to give comfort when walking. Resilient seats are provided to the residents.

The non-slip elastic sheet of the surface layer is constructed in the form of directly attaching with an adhesive to the upper surface of the base layer, when the non-slip elastic sheet is directly attached to the base layer of a solid solid, the adhesive layer is easily separated and aesthetic appearance It requires harm and frequent pay.

 In particular, when the asphalt surface is deformed, this deformation acts directly on the non-slip elastic sheet, causing the adhesive surface and the contact surface with the anti-slip elastic sheet to be separated into severe deformation, requiring frequent maintenance. There is a problem.

The present invention adheres a standardized elastic sheet on a base layer, the fabric is placed between the elastic sheet and the anti-slip elastic sheet forming a surface layer to prevent cracking due to deformation, the anti-slip elastic sheet is made of an elastic material By selecting various shapes and symbols to select, it is intended to provide pavement that can be used for pavement of general roads or children's sanctuaries or to be installed on the interior floor of buildings.

Technical features for achieving the object of the present invention is to form a bottom package by attaching an anti-slip elastic sheet to the upper portion of the base layer with an adhesive, and applying a waterproof transparent resin on top of the non-slip elastic sheet, The rubber sheet and the fabric are bonded between the base layer and the adhesive surface of the anti-slip elastic sheet.

That is, the present invention is a substrate; A first adhesive layer applied on the base layer; An elastic sheet attached to an upper portion of the first adhesive layer; A second adhesive layer applied on the elastic sheet; A fabric attached to an upper portion of the second adhesive layer; An anti-slip elastic sheet attached to the upper fabric; And a transparent resin layer disposed on an upper portion of the anti-slip elastic sheet.

The present invention as described above is to attach an elastic sheet by applying a first adhesive layer such as a primer on top of the base layer, by applying a second adhesive layer such as a primer on the surface of the elastic sheet to attach the fabric and then the top of the fabric By attaching an anti-slip elastic sheet to the surface is finished with a waterproof transparent resin, it is possible to prevent the deformation of the non-slip elastic sheet by the elastic sheet and the fabric, it is possible to obtain a variety of texture by the special fabric.

Such the present invention is directly installed on the base layer in the field, or an elastic sheet; A second adhesive layer; textile; Anti-slip elastic sheet; As the transparent resin layer is formed in a layered form, it may be provided in the form of a sheet having a predetermined standard and may be attached with an adhesive on the substrate.

Features and advantages of the present invention will be more clearly understood by the embodiments described by the accompanying drawings.

Next, an embodiment of the present invention will be described.

Figure 1 shows a cross-sectional view of the present invention the construction stage by stage.

In the anti-slip floor package of the present invention, as shown in this figure, the first work piece layer 20 and the elastic sheet 30 are formed on the base layer 10, and the upper part of the elastic sheet 30 is made of The fabric 50 is embedded in the adhesive layer 40, the non-slip elastic sheet 60 is attached to the upper end is finished with a waterproof transparent resin layer 70.

This plastering building material has a first step (S1) for preparing a working surface on a flat surface base 10; A second step (S2) of applying the first adhesive layer 20 to the working surface formed on the base layer 10 prepared in the first step (S1); A third step S3 of attaching the elastic sheet 30 to the upper portion of the first adhesive layer 20 formed in the second step S2; A fourth step S4 of applying a second adhesive layer 40 to the surface of the elastic sheet 30 attached in the third step S3; A fifth step (S5) of allowing the fabric (50) to penetrate the second adhesive layer (40) by installing the fabric (50) in the second adhesive layer (40) formed in the fourth step (S4); A sixth step S6 of attaching the anti-slip elastic sheet 60 to the second adhesive layer 40 in which the fabric 50 has penetrated in the fifth step S5; It is constructed by the seventh step (S7) and the eighth step (S8) to cure the transparent resin layer 70 on the surface of the anti-slip elastic sheet 60 formed in the sixth step (S5).

The base layer 10 may be applied to all floors such as asphalt pavement, concrete body, brick, aggregate mixture, urethane elastic chip, introking, tile, wood panel, general pavement or building floor.

Primer is used for the first adhesive layer 20 and the second adhesive layer reamer layer 40. Although there are differences depending on the type, structure, and state of the base layer 10, the volatile component is volatilized appropriately and the solvent is buried. Within 2 hours from the condition of not coming out, approximately 0.1 ~ 0.6kg per m 2 is uniformly applied to the working surface of the base layer 10 using a brush, a roll, or a spray.

The amount of primer applied is not limited, but concrete surface is 0.3 ~ 0.6kg / ㎡, rough mortar surface is 0.2 ~ 0.4kg / ㎡, smooth mortar surface is 0.1 ~ 0.3kg / ㎡, metal surface is 0.1 ~ 0.2kg It is preferable that about 0.3-0.6kg / m <2> / m <2> and a wooden surface are applied.

In addition, a resin adhesive may be used as the first adhesive layer 20 in addition to the primer. In this case, it is preferable to use a resin adhesive rather than a highly volatile anhydrous adhesive such as a tamiya resin adhesive.

Resin adhesives may be optionally used epoxy resin adhesives, urethane resin adhesives, urea resin adhesives, vinyl acetate adhesives, polyester resin adhesives, melamine resin adhesives, phenol resin adhesives, acrylic resin adhesives, resorcinol resin adhesives, and the like. Preferably, the amino type thermosetting resin adhesive for high water-resistant plate-like materials is used.

It is preferable that the elastic sheet 30 is made of a rubber material, and the elastic sheet 30 is standardized to a predetermined size and attached to the upper surface of the base layer 10 to give elasticity. It prevents walking shocks, and minimizes deformation and breakage of the anti-slip elastic sheet 60, particularly when the road pavement is ground subsided or when a part of the base layer 10 is lost. this

The second adhesive layer 40 is applied in the same manner as the first adhesive layer 20.

The fabric 50 may be a general fabric, but it is preferable that a civil fabric is applied in order to give strength to the floor pavement structure, and the adhesive is penetrated on the second adhesive layer 40 so that the adhesive penetrates onto the fabric. When completely soaked is to attach the anti-slip elastic sheet (60).

The fabric 50 minimizes the deformation and breakage of the non-slip elastic sheet 60 when the ground pavement along with the elastic sheet 30 or part of the base layer 10 is lost.

The non-slip elastic sheet 60 is made of a transparent material so that the fabric can be seen while the upper surface has an uneven surface formed on the surface in order to increase the frictional force for preventing slipping, and thus is attached to the upper part of the second adhesive layer 40. It is possible to prevent the vehicle or pedestrian from slipping while driving.

In particular, the anti-slip elastic sheet 60 can be maximized by attaching and making the shape of the school zone, child protection zones, various traffic signs, lanes, etc., the vehicle can pass immediately upon construction.

The transparent resin layer 70 is applied to the upper portion of the anti-slip elastic sheet 60 to protect the surface of the anti-slip elastic sheet 60 and to make the appearance of the construction site beautiful.

The resin used in the transparent resin layer 70 may be polyurea, polycarbonate, polysulfone, melamine resin, PET resin, and the like.

In particular, polyurea has a plasticity that can absorb the behavior of the adherend, so it can be used for the purpose of preventing concrete deterioration or deterioration of concrete properties due to thermal expansion and contraction. It can be used suitably for the embodiment of the present invention.

2 is a cross-sectional view showing a state in which the present invention can be provided in the form of a sheet of a predetermined standard, the elastic sheet 30a, the second adhesive layer 40a, the fabric 50a, the anti-slip elastic sheet 60a ), While the transparent resin layer 70a is formed in a layered form, it is provided in a sheet form having a predetermined standard.

Such an embodiment is to be able to directly attach the elastic sheet 30a after the adhesive is installed on the base layer at the construction site.

In the present invention, the elastic sheet and the fabric at the top of the base layer has a durability by strengthening the binding force of the package, and sufficient strength against settlement and breakage of the ground or base as well as the compression and bending stress acting from the top of the package. By preventing cracks to improve the mechanical stability of the structure, the inner fabric is visible by the transparent non-slip elastic sheet and transparent resin layer can improve the aesthetics of the road or building being constructed, especially around the school Construction can help prevent traffic accidents by securing slipping and shocks to secure a safe commuting space for students.

Claims (2)

In forming a bottom package formed by attaching an anti-slip elastic sheet to the upper part of the base layer with an adhesive and applying a waterproof transparent resin on the upper part of the anti-slip elastic sheet, the rubber sheet and the fabric between the adhesive surface of the base layer and the anti-slip elastic sheet. The anti-slip bottom package is characterized in that the elastic sheet for preventing the slip is made of a transparent material and the texture of the fabric appears. Elastic sheets; A second adhesive layer; textile; Anti-slip elastic sheet; Slip-resistant floor pavement, characterized in that the transparent resin layer is formed in a layer form provided in the form of a sheet to a certain standard.

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