KR100572731B1 - Road pavement structures for preventing from slipping and constructing method thereof - Google Patents

Abstract

Anti-skid road paving structure according to the present invention, the primer coating layer is formed by coating a predetermined thickness on a predetermined surface of the road surface to be constructed; And a plurality of mosaic blocks laminated on the primer coating layer in a predetermined shape and thickness, wherein each surface of the plurality of mosaic blocks is subjected to microscopic roughening. The construction method of the road pavement structure, the step of cleaning the surface of the construction target road; Forming a primer coating layer by applying a primer to the cleaned target road surface; Installing a mold having a predetermined shape on the primer coating layer; Placing, compacting and curing any one of colored resin mortar, modified asphalt and polymer cement mortar in a mold to form a plurality of mosaic blocks of a predetermined shape; Forming a roughened surface by roughening the surface of each formed mosaic block to prevent slipping; Removing the mold from the mosaic block and injecting a caulking material into the cracks of the mosaic block to seal the mold.

According to the present invention, a convex mosaic block is provided on the upper part of the road, and the surface of the mosaic block is subjected to a roughening treatment to the macroscopic roughness between the convex surface and the convex surface due to the microscopic roughness of the surface treated surface. By having the frictional resistance at the same time, the overall frictional resistance can be further increased.

Description

Road pavement structures for preventing from slipping and constructing method

1a to 1f is a view showing in sequence the construction method of the anti-slip road pavement structure according to the present invention.

Figure 2 is a plan view showing a non-slip road pavement structure constructed on the asphalt pavement upper surface by the construction method of the present invention.

Figure 3 is a longitudinal sectional view showing a non-slip road pavement structure constructed on the upper surface of the asphalt pavement by the construction method of the present invention.

Figure 4 is a plan view showing a state non-slip road pavement structure according to the present invention is installed on the top surface of the cement concrete pavement.

Figure 5 is a longitudinal sectional view showing a state of the non-slip road pavement structure according to the present invention is installed on the top surface of the cement concrete pavement.

Figure 6 is a view showing a case in which the non-slip road pavement structure according to the present invention is installed on a portion of the pavement irregularities or existing roads.

Figure 7 is a view showing a case where the non-slip road pavement structure according to the present invention is installed on a new road of asphalt pavement or cement concrete pavement.

8 is a view showing a case in which the non-slip road pavement structure according to the present invention is installed at different heights on the road surface.

Figure 9 is a plan view showing a state non-slip road paving structure according to the present invention installed in a curved section of the road.

Figure 10 is a longitudinal cross-sectional view showing a state non-slip road paving structure according to the present invention installed in a curved section of the road.

<Explanation of symbols for the main parts of the drawings>

10 ... road targeted for construction 12 ... asphalt

14 Cement concrete 15 Bough modifier

20 Primer coating layer 30

40 ... Mosaic Block 50 ... Roughened Surface

60 ... joint

The present invention relates to a non-slip road pavement structure and its construction method, in particular, to improve the area and landscape that requires the attention of the driver, such as child protection zones, poor road linearity, large venues, sidewalks, bicycle paths, etc. It is installed in the area and forms a convex thin layer on the upper surface of the new pavement or the existing pavement, and macroscopic roughness is caused by the convex thin layer and the irregularities generated by the upper surface of the existing pavement. Anti-slip road pavement to satisfy both anti-slip function and surface roughness function by forming micro-micron by performing surface treatment using mortar to have anti-slip function in convex thin layer. It relates to a structure and a construction method thereof.

In general, there are speed bumps and colored pavement in road traffic safety facilities that are installed where the driver's attention is required. The speed bump creates a vertical acceleration of the vehicle when the vehicle passes, shortening the life of the vehicle, and reducing the ride comfort of the occupant due to the shaking of the vehicle. In addition, the colored pavement has some effects on the driver's visual warning due to various colors, but there is a problem in that it is not physically secured in driving safety of the vehicle.

In addition, the surface of the road to form a surface roughness on the pavement in order to increase the frictional resistance of the tire against the road surface. Such roughness is called macroscopic roughness that occurs between relatively large particles, such as between aggregate and aggregate, and microscopic roughness that occurs between small particles, such as between asphalt and sand. Construction methods for forming such roughness on the pavement surface of the road include grooving, tinning, and the like, and there are various kinds of non-slip paving methods.

The construction method for forming the roughness as described above or the existing road substrate layer often has only one of the macro roughness or the micro roughness. Therefore, there is a problem of inferior friction resistance against sliding.

On the other hand, in the construction method of forming a pattern on the pavement surface of the road, in the case of a new road, a plate or a frame having a pattern is placed on the surface of the asphalt pavement while the mixture of asphalt pavement is not cooled, and the pattern is formed by pressing with a roller or the like. There is a way. However, this construction method can be applied only to the asphalt pavement of the new road, can not be constructed in a thin layer, there is a problem that does not exhibit a variety of colors.

In addition, there is a method of installing or pasting colored concrete blocks, rubber materials, tiles, etc. on the road, but this method is difficult to apply to the roadway, etc., but also has a problem of poor durability.

In addition, there is a method of constructing a color pavement in a thin layer in asphalt pavement or concrete pavement, but the construction method of forming a convex thin layer on the upper layer has various problems such as adhesion performance, reflection residual, crack of the connection.

The present invention has been made in view of the above matters, and a convex thin mosaic block having a variety of colors is formed at the upper part of the road in a form or atypical shape, and the surface of the mosaic block is subjected to a rough treatment to give a microscopic surface treatment. It is an object of the present invention to provide an anti-slip road pavement structure and a construction method thereof, which have a frictional resistance due to roughness and frictional resistance due to macroscopic roughness between the convex surface and the convex surface at the same time, thereby increasing the overall frictional resistance.                         

Another object of the present invention is to minimize the occurrence of the vertical acceleration according to the driving of the vehicle while inducing the attention and deceleration of the driver, and to exhibit a variety of colors and shapes to further improve the landscape of the road road slip structure and its construction In providing a method.

In order to achieve the above object, the anti-skid road pavement structure according to the present invention is installed in a specific area of the road that requires the attention of the driver when driving the car,

A primer coating layer applied and formed to a predetermined thickness on a road surface of a corresponding area of the road; And

Consists of a plurality of mosaic blocks are laminated to a predetermined shape and thickness on the primer coating layer,

The surface of each of the plurality of mosaic blocks is characterized by being subjected to microscopic roughening so as to have a predetermined roughness.

In addition, the construction method of the anti-slip road paving structure according to the present invention in order to achieve the above object,

a) cleaning the surface of the road to be constructed;

b) applying a primer to the surface of the cleaned object road to form a primer coating layer;

c) installing a mold having a predetermined shape on the primer coating layer;

d) pouring, compacting and curing any one of colored resin mortar, modified asphalt and polymer cement mortar in the mold to form a plurality of mosaic blocks of a predetermined shape;

e) forming a roughened surface by subjecting each of the formed mosaic block surfaces to a non-slip roughness; And

and f) removing the mold from the mosaic block while injecting a caulking material into the cracks of the mosaic block to seal the mold.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1a to 1f is a view showing a construction method of the non-slip road pavement structure according to the present invention in sequence.

According to the construction method of the anti-slip road paving structure according to the present invention, as shown in Figure 1a, first cleaning the surface of the construction target road (10). That is, after cleaning the surface of the target road 10 cleanly, the excited part, the uneven part, etc. of the surface of the road are arrange | positioned flatly using a meat-adjusting material etc. Here, the target road 10 is a concept that encompasses asphalt 12 (see FIG. 3) pavement, cement concrete 14 (see FIG. 5) pavement, new road, and existing road.

After the cleaning of the construction target road 10 is completed, as shown in Figure 1b, by applying a primer on the surface of the target road 10 to form a primer coating layer (20). Here, the primer coating layer 20 is formed by applying a primer a plurality of times on the surface of the target road (10). The reason why the primer coating layer 20 is formed in this manner is to form a film on the surface of the target road 10 and to enhance adhesion to the mosaic block described later.

In this way, when formation of the primer application layer 20 is completed, the mold 30 of a predetermined shape (for example, checkerboard shape) is provided on the primer application layer 20 like FIG. 1C. Here, the mold 30 is produced by drawing a desired shape in the form of a mosaic of paper, wood, iron and plastic materials. In the mold 30, in the section where the convex surface of the mosaic block to be described later is to be formed, a part of the mold is removed by forming a mold or atypical form, thereby completing the manufacture of the mold. In addition, in the height of the mold, the height of the mold may be uniformly the same, but the center portion is made high and both ends are made relatively low compared to the center portion, or the height is gradually increased from one end to the other end (lower). It can also be configured to

After the installation of the mold 30 is completed, as shown in FIG. 1D, any one of colored resin mortar, modified asphalt, and polymer cement mortar is cast, compacted, and cured in the mold 30 to form a predetermined shape (here, Since it is a checkerboard shape, many mosaic blocks 40 of a checkerboard form are similarly formed. Here, the resin mortar is a material mixed with a dry fine aggregate and a thermosetting synthetic resin such as epoxy resin or polyurethane. The modified asphalt is an asphalt obtained by improving ordinary asphalt for the purpose of improving flow resistance, abrasion resistance, and the like, wherein rubber or thermoplastic elastomer is added to the asphalt alone or both. In addition, the polymer cement mortar is a mortar using cement and a polymer as a binder, and a polymer cement mortar having a polymer cement ratio of 5% or more is used.

When the formation of the mosaic block 40 is completed by the above, as shown in FIG. 1E, the surface of each of the formed mosaic blocks 40 is subjected to a roughening process of a predetermined form to prevent slippage to form the roughened surface 50. . Here, the roughened surface 50 is formed by forming irregularities on the surface of the mosaic block 40 or by grinding the surface with a polishing machine. In this case, in order to further enhance the roughness effect, the surface of the mosaic block 40 may be separately attached to the texture of the fiber material or sprayed spray.

In this manner, when the formation of the roughened surface 50 is completed, finally, as shown in FIG. 1F, the mold 30 is removed from the mosaic block 40 while the caulking material is formed on the cracked portion of the mosaic block 40. Inject to seal. This completes the construction of the anti-slip road pavement structure according to the present invention.

As described above, the construction method of the anti-skid road pavement structure according to the present invention by forming the convex mosaic block 40 on the surface of the new road or the existing road of asphalt 12 and cement concrete 14, the mosaic Macro roughness is formed by the unevenness formed by the block 40 and the surface layer of the existing roadway, and microscopic roughness is formed by forming the roughened surface 50 on the surface of the mosaic block 40 to prevent slippage. And surface roughness function can be satisfied at the same time.

In addition, the construction method of the present invention can be formed in the convex shape of the mosaic block 40 to form or atypical, the surface of the mosaic block 40 can be configured in a variety of colors to have a visually beautiful pattern Packaging can be implemented.

In addition, by adjusting the height of the mold 30 in various ways to adjust the height of the mortar placed on the mold 30 to increase the speed bump function or driving stability of the vehicle on the curve of the road.

On the other hand, Figures 2 and 3 show the non-slip road paving structure constructed on the upper surface of the asphalt pavement by the construction method of the present invention as described above, Figure 2 is a plan view, Figure 3 is a longitudinal sectional view.

2 and 3, the non-slip road pavement structure according to the present invention is installed in a specific area of the road that requires the attention of the driver when the vehicle is driving, the road surface of the corresponding area of the road (10) A primer coating layer 20 is formed to be applied to a predetermined thickness in a predetermined region of the; And a plurality of mosaic blocks 40 stacked on the primer coating layer 20 in a predetermined shape and thickness, and each surface of the plurality of mosaic blocks 40 has a microscopic roughness treatment to have a predetermined roughness. Becomes Here, when the construction target road 10 is an asphalt pavement road, a joint 60 is formed between the mosaic block 40 and the mosaic block 40, and the joint material is injected therein. Here, forming the joint 60 and injecting the joint ash corresponds to the stretching action according to the temperature of the asphalt pavement, while water or snow is interposed between the mosaic blocks, so that the mosaic block by freezing in cold weather ( 40) to prevent breakage and the like.

4 to 10 is a view showing various construction examples of the anti-slip road pavement structure according to the present invention as described above.

First, referring to Figures 4 and 5, which is a plan view and a longitudinal cross-sectional view showing a state of the non-slip road paving structure according to the present invention installed on the upper surface of the cement concrete pavement, the target road 10 is made of cement concrete (14) In the case of a road, when the mold 30 is installed, the mold 30 is installed by forming a joint 60 between the mold and the mold.

6 is a view illustrating a case in which a non-slip road pavement structure according to the present invention is installed on an uneven portion of a pavement or an existing road. As shown in the drawing, the surface of the road is flattened using a fire adjustment material 15. After that, we install the structure on it.

7 shows a case where the non-slip road pavement structure according to the present invention is installed on a new road of asphalt pavement or cement concrete pavement, in this case the road in the state subtracted from the thickness of the new road by the thickness of the mosaic block 40 After constructing the primary, and then to form a mosaic block 40 on the upper surface of the new road. This is to prevent the structural performance of the pavement thickness on the new road from being reduced.

8 is a view showing a case in which the non-slip road pavement structure according to the present invention is installed at different heights on the road surface. As shown in Figure 8, by designing a variety of height of the mold 30 is installed on the road to be constructed 10, the height of the mortar to be filled in the mold 30 is also a variety of height, according to the mosaic block ( 40 can also be installed at various heights. The structure of the present invention constructed in such a form is also excellent in structures such as vehicle entrance barriers and speed bumps according to the city factory, for example, children's protection zones, poor road linearity, large events, sidewalks, bicycle lanes, etc. Can be utilized. In particular, in the case where the mold 30 is installed on a flat surface, the mold 30 may be installed in a state where the height of the mold 30 is kept constant, and the mold 30 may be used as a speed bump to prevent the vehicle from overspeed.

9 and 10 show a state of the non-slip road pavement structure installed in the curved section of the road, Figure 9 is a plan view, Figure 10 is a longitudinal sectional view.

9 and 10, when the mold 30 is installed in a curved section of the road, the mortar is cast in the state where one side of the mold 30 is inclined so that the mosaic block 40 is formed. do. This is to prevent the vehicle traveling on the curved road from leaving the road boundary by centrifugal force.

As described above, the non-slip road pavement structure and the construction method according to the present invention has the following advantages and effects.

First, by changing the height of the mold installed in the construction target road or by varying the shape and inclination, it is possible to construct a mosaic-shaped structure having a variety of height and inclination, thereby acting as a speed bump or vehicle departure prevention structure Enough to improve the safety of road traffic.

Second, by forming convex mosaic blocks on the surface of new roads or existing roads of asphalt and cement concrete, macroscopic roughness is formed by the irregularities formed by the mosaic blocks and the surface layers of the existing roads. By forming the roughened surface on the microscopic roughness is formed there is an advantage that can satisfy both the anti-slip function and the surface roughness function at the same time.

Third, the convex shape of the mosaic block can be constructed in a shape or atypical shape, and the surface of the mosaic block can be configured in various colors, thereby implementing a road pavement having a visually beautiful pattern.

Claims (4)

Installed in a specific area of the road that requires the driver's attention when driving the car, A primer coating layer applied and formed to a predetermined thickness on a road surface of a corresponding area of the road; And Consists of a plurality of mosaic blocks are laminated to a predetermined shape and thickness on the primer coating layer, The surface of each of the plurality of mosaic blocks is a non-slip road paving structure, characterized in that the microscopic roughening treatment to have a predetermined roughness. The method of claim 1, The plurality of mosaic blocks all have the same height, or the center portion is higher and lower toward the edge portion, or one of the forms of gradually increasing or decreasing its height at a predetermined inclination angle toward the other edge facing from one edge Non-slip road pavement structure, characterized in that it is formed in the form of. a) cleaning the surface of the road to be constructed; b) applying a primer to the surface of the cleaned object road to form a primer coating layer; c) installing a mold having a predetermined shape on the primer coating layer; d) pouring, compacting and curing any one of colored resin mortar, modified asphalt and polymer cement mortar in the mold to form a plurality of mosaic blocks of a predetermined shape; e) forming a roughened surface by subjecting each of the formed mosaic block surfaces to a non-slip roughness; And and f) removing the mold from the mosaic block while injecting a caulking material into the cracks of the mosaic block to seal it. The method of claim 3, When making the roughened surface in step e), the surface of the mosaic block is a method of constructing a non-slip road pavement structure, characterized in that the separate texture of the fibrous material or spray spraying treatment.

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