KR100913423B1 - Band-shaped Fiber Reinforcement - Google Patents

Abstract

Disclosed is a band-shaped fiber reinforcement that is resistant to damage or breakage caused by external impact. The strip-shaped fiber reinforcement according to the present invention is a fiber reinforcement made by coating the inner fiber core material with a synthetic resin coating material, because the mesh-like stainless steel mesh, nonwoven fabric, polyester high-strength yarn, etc. are formed in the surface of the coating material, so as to permeate during road construction When the rock soil layer is formed for reinforcement and structural reinforcement, it is possible to effectively withstand the external impact of the band-shaped fiber reinforcement buried in the general soil layer by rock pieces such as gravel to be constructed. When the reinforcing material is partially embedded in the surface of the fiber reinforcing material, it is possible to effectively increase the frictional force with the soil as well as preventing damage and damage caused by external impact.

Description

Belt-type fiber reinforcement {Belt Type Extile Reinforcement}

The present invention relates to a fiber reinforcing material, and more particularly, to a strip-shaped fiber reinforcing material embedded in the soil to improve the stability of the fill layer or embedded in the soft ground to prevent settlement.

A block retaining wall structure formed by stacking a plurality of blocks is used to prevent soil from falling down and collapsing in embankments, hillsides, and the like. In order to reinforce the tensile strength of the ground, a strip-shaped fiber reinforcement is installed in the block to be laminated. This fiber reinforcement is fixed to the block by anchor or anchor pin, and the other end is embedded in the ground for long contact with the ground. It uses the frictional force generated by to resist the pulled out force.

Textile reinforcement is also used for road construction of high-priced forms and laying of soft ground. In order to construct expensive ramps, blocks are stacked on both sides of the road, while the layers are ground to connect both blocks with fiber reinforcement. In the case of soft ground, the layer of fiber reinforcement is embedded during the filling process to prevent the ground collapse.

However, retaining walls, roads, and soft ground work are carried out during the process of filling the soil, which is composed of soil and gravel. In this case, part of the fiber reinforcement buried in the general soil due to the soil gravel is torn or pied. It often happens that they are unable to exercise their support.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a band-shaped fiber reinforcing material resistant to damage or damage caused by external impact.

The strip-shaped fiber reinforcing material according to the present invention for achieving the above object is a fiber reinforcing material made by coating the inner fiber core material with a synthetic resin coating material, the coating material is formed with a surface reinforcement.

In addition, the surface reinforcing material of the strip-shaped fiber reinforcement according to the present invention has a mesh form.

In addition, the surface reinforcing material of the strip-shaped fiber reinforcement according to the present invention is a stainless steel mesh net.

In addition, the surface reinforcing material of the strip-shaped fiber reinforcement according to the present invention is a nonwoven fabric.

In addition, the surface reinforcing material of the strip-shaped fiber reinforcement according to the present invention is a woven polyester high strength yarn.

In addition, the surface reinforcing material of the strip-shaped fiber reinforcement according to the present invention is formed partially recessed.

The strip-shaped fiber reinforcement according to the present invention is formed by incorporating stainless steel mesh, nonwoven fabric, polyester high strength yarn, etc., in mesh form on the surface of the fiber reinforcement made of core material and cladding material, thereby being essentially cancerous for reinforcing water and structural reinforcement during road construction. When the soil layer is formed, it resists or buffers the external impact that the fiber reinforcement embedded in the general soil layer is subjected to by rock pieces such as gravel to be constructed. Can be increased.

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

1 is a view showing a strip-shaped fiber reinforcing material according to the present invention. Referring to the drawings, the strip-shaped fiber reinforcement of the present invention is composed of a core material 10, the coating material 20 and the reinforcing material (30).

Core material 10 is composed of a plurality of strands, each strand is composed of thousands of fine fibers to serve to resist the tensile force acting on the fiber reinforcement. As the core material 10, polyester fiber is preferable.

The cladding 20 uses a polyethylene-based synthetic resin to protect the inner core 10 and increase friction with soil. The covering material 20 accommodates the plurality of core materials 10 therein.

The band-shaped fiber reinforcement as described above is strong in tensile force but is embedded in general soil layer by rock pieces such as gravel to be formed when forming soil soil layer for permeability and structural reinforcement during retaining wall or road construction. It is vulnerable to external shocks such as being stamped or torn.

Therefore, the present invention further provides a reinforcement material 30 on at least one surface of the coating material 20 to have sufficient impact resistance against such external impact. The surface reinforcing material 30 is made of a material capable of withstanding, buffering, or appropriately dispersing an external impact, and has a mesh shape in consideration of manufacturing processability and cost.

An example of the surface reinforcing material 30 may be a stainless mesh net. Stainless mesh has the advantage of being strong in impact because of the high strength of the metal and does not rust even when buried in the soil.

Another example of the surface reinforcing material 30 is a nonwoven fabric. Nonwoven fabric is a fiber made of felt by arranging synthetic resins in parallel or in an opposite direction and bonding with adhesive, and when it is installed on the coating material 20, it can stably withstand the force of being stamped or torn due to its toughness (toughness) and impact. Absorb and buffer.

Another example of the surface reinforcing material 30 is a polyester high strength yarn such as the core material (10). Polyester high strength yarns have both high strength and toughness, and are knitted in the form of a fabric in advance.

2 and 3 is a view showing a process and a mold for producing a strip-shaped fiber reinforcement according to the present invention.

Referring to the drawings, the strip-shaped fiber reinforcement 30 of the present invention is manufactured through the injection unit 100, the compression molding unit 200, the cooling unit 300, the draw unit 400 and the winding unit 500 do.

The injection part 100 coats the core material 10 with the coating material 20 using the mold 110 and simultaneously inserts the surface reinforcing material 30 into the coating material 20. The triple injection mold 110 used for this purpose is a fiber core material 10 in which yarns are agglomerated in one side, and a coating material molten resin in which a synthetic resin in pellet form is supplied from the injection machine 120 on the other side. And, as shown in FIG. 3, at one end of the injection mold 110, the reinforcing material 30 is inserted into the coating material 20 before it is drawn into the mold and solidified. Unexplained reference numeral 130 of FIG. 3 is a roller for pushing the reinforcing material 30.

The compression molding part 200 is for molding the outer shape of the coating material 20 including the fiber core material 20 and the reinforcing material 30, and uses the compression roller 210.

The cooling unit 300 is for cooling the heat of the fiber reinforcement formed in a high temperature state, and is deposited in the water-cooled tank 310 to efficiently cool the continuously supplied fiber reinforcement. Water in the tank 310 is continuously circulated, the rear end of the tank 310 is provided with an air brush 320 in the transverse direction to remove the water attached to the fiber reinforcement (1).

The drawing unit 400 serves to pull the fiber reinforcing material in the process to the winding unit 500 to effectively package the fiber reinforcing material during processing. As the drawing unit 400, a caterpillar that rotates in a caterpillar is preferable.

Figure 4 is a view showing a band-shaped fiber reinforcement according to another embodiment of the present invention. In the above embodiment, although the reinforcing material 30 is completely embedded in the surface of the coating material 20, the state of the reinforcing material 30 is partially embedded in the present embodiment so that a part thereof is exposed. This partial indentation can significantly improve the bonding force between the soil and the fiber reinforcement because the reinforcing material 30 exposed by the covering material 20 increases the friction force with the soil.

1 is a view partially cut in the strip-shaped fiber reinforcement according to an embodiment of the present invention.

2 is a view showing an apparatus for manufacturing a strip-shaped fiber reinforcement according to an embodiment of the present invention.

Figure 3 is a schematic view showing a mold used for the manufacture of a strip-shaped fiber reinforcement according to an embodiment of the present invention.

Figure 4 is a view showing a band-shaped fiber reinforcement according to another embodiment of the present invention.

* Brief description of the main references in the drawings *

10. Heartwood 20. Cladding

30. Surface reinforcement

Claims (6)

In the fibrous reinforcement which is embedded in the soil and coated with a synthetic resin coating material to improve the stability of the fill layer or to prevent settlement of the soft ground, The coating material is provided to partially form the surface reinforcing material to prevent damage by the arm piece, The core material, the coating material and the surface reinforcing material using a triple injection mold, the fiber core material in which the yarn is agglomerated into one side and the coating material molten resin melted in the pellet form synthetic resin is supplied to the other side, and on the other side before the reinforcing material is introduced and solidified A strip-shaped fiber reinforcing material, characterized in that it is embedded in the coating material. The method of claim 1, The surface reinforcing material is a strip-shaped fiber reinforcement, characterized in that it has a mesh form. The method of claim 1, The surface reinforcing material is a strip-shaped fiber reinforcement, characterized in that the stainless steel mesh. The method of claim 1, The surface reinforcing material is a band-shaped fiber reinforcement, characterized in that the nonwoven fabric. The method of claim 2, The surface reinforcing material is a strip-shaped fiber reinforcing material, characterized in that the woven polyester high strength yarn. delete

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