KR101697273B1 - FRP Re-bar Manufacturing Device Using Peel Ply and Manufacturing Method - Google Patents

Abstract

In the present invention, as much fiber as possible is fed into a resin impregnation tank to sufficiently infiltrate the resin into the fiber for FRP rebar core material, the fiber for FRP rebar core material encapsulated in the resin is wrapped with a filler, The FRP rebar is produced by thermally curing an FRP rod whose surface area is widened by heating means mounted on the mold by forming the unevenness of the filler on the surface of the FRP rod to widen the surface area, .

Description

FIELD OF THE INVENTION [0001] The present invention relates to a FRP re-bar manufacturing device and a manufacturing method thereof,

More particularly, the present invention relates to an apparatus and a method for manufacturing a FRP rebubber to which a filler is applied, and more particularly, to a method for manufacturing a FRP rebubber which comprises applying a maximum amount of FRP remainder fiber (reinforcing composite fiber) The fiber for FRP rebar core material encapsulated in the resin is wrapped with a filler and then put into a mold to form an FRP rod, thereby forming irregularities of the filler on the surface of the FRP rod to widen the surface area, and at the same time, The present invention relates to an FRP rebar manufacturing apparatus and a manufacturing method for manufacturing an FRP rebar by removing a filler on a surface after a rod is thermally cured by a heating means mounted on a mold.

Generally, reinforced concrete in which reinforcing bars are inserted into concrete as a building material is widely used. Reinforced concrete is widely used as an ideal building material since rebar reinforces the defects in the strength of concrete by combining the compressive strength of concrete with the tensile strength of reinforcing bar. However, when the reinforcing concrete has been used for a long time, the reinforcing steel in the concrete is corroded. Especially, when it is installed on the beach like the coasting beam, the oxidation of the reinforcing steel proceeds much faster due to the salt, The expansion occurs during the process of corrosion of the reinforcing bar, and consequently, the concrete is cracked and damaged. Therefore, a product made of reinforced glass fiber, ie, FRP (Fiberglass Reinforcing Plastic Re-bar) as concrete reinforcement, has been developed and used in place of reinforcing steel for several years. The FRP ribbing is manufactured by a method of manufacturing a high-strength FRP rod through a surface grinding process, a lapping process for forming a rib, an attaching process for improving adhesion performance such as sandpaper or garnet, And then winding together to form a rib. The former can be used as substitute for reinforcing steel because it realizes excellent strength. However, after forming the high strength FRP rod, ribs are formed on the surface and silica sand is attached to widen the surface area to improve the adhesion performance. There is a problem in that separation can occur between the two. The latter can be continuously mass-produced, but the ribs are formed while winding the high-strength fibers, giving a winding tension to the ribs to increase the surface area for bonding with concrete or adhesives and prevent the separation, The perimeter of the wound area of the fiber is tightened and shrunk, but the elasticity and the tensile strength of the fiber are inferior due to the failure of maintaining the straightness of the fiber due to the expansion of the reinforcement fibers and resin of the core.

[Prior Art]

1. Korean Patent Registration No. 10-605127 (Frappe Foam for Concrete Reinforcement and Manufacturing Method Thereof)

2. Korean Patent Registration No. 10-722547 (Internal reinforcement of PC culvert using surface-modified EF-alpha reinforcement and EF-alpha reinforcement)

3. Korean Patent Registration No. 10-0861578 (Reversing Reinforcement for Concrete Structures and Manufacturing Method Thereof)

First, when manufacturing FRP ribs, it is necessary to make the surface of the FRP rods as rough as possible to increase the surface area.

Second, in order to increase the surface area of the FRP ribs, ribs are formed by winding high-strength fibers such as mesh, but such conventional devices do not prevent the occurrence of gaps when winding the fibers, so that elasticity and tensile strength are lowered. Needs to be.

 Third, it is necessary to increase productivity by making it possible to produce as much FRP rebar as possible in one operation.

The above problem is solved by a method for manufacturing a FRP molding material, which comprises filling a mold with a heating means, integrally reinforcing as much of a volume as possible, introducing composite fiber for core material into a mold, impregnating the molding resin with epoxy, vinyl ester, The fiber for FRP rebar core impregnated in the resin is wrapped with a filler immediately before it is put into a mold, and is put into a mold, heated and formed into a mold in a mold, and then the FRP rebar, which maximizes the surface area by removing the filler on the surface, As a result.

First, the resin-impregnated fiber for FRP rib core material is wrapped with a filler pellet, which is then charged into a mold, heated and molded with the FRP rod, and then stripped to form the unevenness of the filler ply on the surface of the FRP rod. And the surface area is maximized.

Second, in order to increase the surface area of FRP ribbing, when FRP ribbing core material is wrapped with fill ply, the FRP ribbing core material is wrapped with fill ply in unstocked state and then put into mold to form FRP rod and thermoset So that the maximum amount of the reinforcing fibers is injected into the mold, so that the curing is performed in the state where the pressing is performed, and the possibility of the gap between the reinforcing fiber and the resin is originally removed.

 Third, the draw-forming process consisting of feeding of fiber for FRP rebar core material, fill-in feed, FRP rod forming, fill-ply sheathing, thermosetting and peel ply removing is performed in a continuous process, It is possible to produce a large amount of FRP rebar in a single operation, thereby increasing productivity and price competitiveness.

Fig. 1: Structural drawing of the FRP rebar manufacturing apparatus of the present invention
Fig. 2 is a perspective view showing a state in which a part of the filler ply is removed as an FRP rebar manufactured by the present invention.

In the present invention, as much fiber as possible is fed into the resin impregnation tank to sufficiently infiltrate the resin into the fiber for FRP rebate core material, the fiber for FRP rebate core material encapsulated with the resin is wrapped with a release ply Fill ply, By forming the FRP rod, the unevenness of the filler ply on the surface of the FRP rod is widened to widen the surface area, and the FRP rod having the larger surface area is thermally cured by the heating means mounted on the mold and then the filler is removed to remove the surface area And more particularly, to a FRP rebar manufacturing apparatus and a manufacturing method for manufacturing a maximized FRP rebar. Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is a structural view of the FRP rebasing apparatus of the present invention, and FIG. 2 is a perspective view of a FRP rebar manufactured by using the FRP rebasing apparatus of the present invention.

The FRP rebar manufacturing apparatus of the present invention can be divided into a forming unit 100 and a drawing unit 200.

The forming unit 100 includes a plurality of krilles 110 supplying the FRP ribbing material fibers 111 and a resin impregnation tank 120 for impregnating the FRP ribbing material fibers 111 with resin. A fill fill input part 130 which is located between the resin impregnation tank 120 and the mold part 140 and encloses the filler in the resin 111 for the FRP rebar core material immediately before being injected into the mold part 140, The FRP rib core material fibers 111 that are fitted with the mold 141 and the heating means 142 for molding the FRP rib core material fibers 111 in the form of rods and are enclosed in the fill ply and pass through the mold 141, A mold part 140 for molding the FRP rod 150 and thermally curing the FRP rod 150 to manufacture the FRP rib 300, a controller 160 for automatically controlling the entire process of manufacturing the FRP rebar, A forming part 100 composed of a fill-ply removing part 170 for removing the fill ply 112 from the FRP rib 300 and a drawing driving device 210 and 220 are provided, And a drawing unit 200 for transferring the image to the outside of the invention manufacturing apparatus.

The FRP ribbing material fiber 111 refers to a high strength, high heat resistant long fiber such as glass fiber, carbon fiber, aramid fiber, basalt fiber, and polyester fiber.

The resin stored in the resin impregnation tank 120 refers to epoxy, vinyl ester, polyester, and the like.

The fill ply 112 is a fabric made of polyester, nylon 6, nylon 66 or the like and has many irregularities on the surface. The fill ply 112 should be selected in accordance with the curing temperature of the FRP re- In consideration of the shrinkage factor of the FRP ribbons, heat treatment is performed before heating to prevent the size change due to heat shrinkage even when heat is received from the heating means 142, Needs to be. In addition, since the filler-based product has a considerably wide width, it can not be used as it is in the present invention. Therefore, it is preferable to cut the FRP ribbons according to the standard of the FRP rebar 300 manufactured by the apparatus of the present invention, and use the laser cut or heat cut to maintain the cut surfaces in a neat condition.

The method of wrapping the FRP rib core material fibers 111 with the fill ply 112 includes a method of winding the fill ply 112 around the FRP rib core material fibers 111 and winding the fill ply 112 around the FRP rib core material fibers 111, And the fill ply 112 is divided into two halves in such a manner that the fill ply 112 is wrapped all at once in a circumferential size (naturally dried by using a peper) and a fill ply 112, Or from the left and right sides. It should be borne in mind that the FRP ribbing material fibers 111 are not impregnated with resin before the FRP ribbing material fibers 111 are injected into the mold section 140 through the resin impregnation tank 120, Wrap it around completely and put it in.

The mold core 140 is provided with a mold 141 and a heating means 142 so that the core material fibers 111 wrapped with the resin and surrounded by the fill plies 112 pass through the mold 141, The rod 150 is thermally cured at 160 to 200 ° C for 1 to 5 minutes to produce an FRP rebar (300). The mold 141 is a hollow cylinder having a hollow interior of the mold so that the FRP ribs 300 are formed in a bar shape and the heating means 142 can be any material that can heat the FRP rod 150 such as a heater, .

A winder 171 is attached to the fill-fly de-reject 170. Therefore, the removal of the fill ply 112 must be carried out in an air-cooled state after the FRP ribbing, and it should be carried out in a completely cooled state. The filler paddle 112 wrapping around the FRP rib 300 is pulled by the winder 171 to be removed.

Hereinafter, a process for manufacturing FRP ribs using the above apparatus will be described.

First, a plurality of krilles 110 on which FRP ribbing fibers 111 are wound are prepared. In addition, the fill-in charging unit 130 in which the fill fill 112 is wound is prepared. The fill plies 112 are formed by rubbing the surface of the FRP ribs 300 with sandpaper or by sanding the surface of the FRP ribs 300 such that the surface of the FRP ribs 300 is roughened, Therefore, it is necessary to prevent the size change due to heat shrinkage even when heat is applied from the heating means 142 by performing the heat treatment at 160 to 180 ° C. for 2 to 6 hours in advance, and the heat resistance is high, You can also use fill plies.

The control device 160 is operated to impregnate the FRP ribbing fabric 111 with the resin impregnation tank 120 so that the FRP ribbing fabric 111 is soaked with the resin.

The filler 112 wound around the filler input portion 130 is inserted immediately before the fiber 111 for manufacturing FRP ribbing which is drenched with the resin is inserted into the mold portion 140 to fit the mold 141 It is wrapped using one of the methods described above. Therefore, the FRP rebar producing fiber 111 which is drenched with resin but not hardened is wrapped with the filler 112 having irregularities on the surface just before being injected into the mold 141, The metal mold 141 is inserted into the contact surface between the surface and the fill plies 112 in a state in which many irregularities are impressed.

When the FRP ribbing fabric 111 is inserted into the mold part 140, the FRP rod 150 is formed into the FRP rod 150 while passing through the mold 141. At this time, After thermosetting at ~ 200 ° C for 1 to 5 minutes, the fill ply 112 is removed to produce an FRP rebar 300 having a surface area of unevenness maximized.

Since the FRP ribbing 400 manufactured through the above process is manufactured by thermally curing the roughened surface of the fill ply 112 on the FRP ribbing material fiber 111 in a state where the resin is soaked and the surface of the fill ply 112 is very rough The surface of the FRP ribbing (300) is rough like a sandpaper, so that the surface area is very wide.

The FRP ribs 300 on which the roughened surface of the fill ply 112 is stamped are drawn through the fill ply 112 while passing through the fill ply desorption 170 while being pulled out of the production apparatus by the pull- And is wound on the winder 171 in a state where the concavo-convex shape is formed on the surface.

delete

The FRP ribs 300 having the peel ply 112 removed and the roughened surface thereof are transported to the outside of the FRP manufacturing apparatus of the present invention by the pulling section 200 and then cut to a suitable length or wound around a winding device It is shipped packaged as a product. However, the fill ply 112 may be cut off without removing it and then shipped to a product. Also, all the processes are controlled by the control unit 160 and proceed automatically.

The results of comparing the strength of the FRP rebar manufactured through the manufacturing apparatus of the present invention and the manufacturing process with the conventional products are shown in the following table.

division Its own Daifu FRP Riba Overseas A Company Overseas C company The present invention product Diameter 10mm 10mm 10mm 10mm The tensile strength
(MPa) Product 1 1214 Based on product data sheet Based on product data sheet 1381 Product 2 1238 1363 Product 3 1255 1366 Product 4 1292 1290 Product 5 1304 1292 The average Zhangjiang Province 1261 827 1100 1338

100:
110: Krill 111: Fiber for FRP rebar core material
112: Phil Fly
120: resin impregnation tank 130:
140: mold part 141: mold
142: Heating means 150: FRP rod
160: control device 170:
171: Winder
200: Drawing unit 210, 220: Drawing drive unit
300: FRP RIVA

Claims (5)

A plurality of krills (110) for supplying FRP rebar core material fibers (111);
A resin impregnation tank 120 for impregnating the FRP rebar core material fiber 111 with a resin;
A fill-in filler 130 which is located between the resin impregnation tank 120 and the mold part 140 and surrounds the filler 112 on the FRP ribbing material fiber 111 just before being injected into the mold part 140;
The FRP rib core material fibers 111 which are fitted with the mold 141 and the heating means 142 for molding the FRP rib core material fibers 111 in the form of rods and in which the fill ply is wrapped are formed into FRP rods 150 A mold part 140 for manufacturing an FRP rib 300 by thermally curing the FRP rod 150;
The control unit 160 controls the entire process of FRP rebar production to be automatically operated.
And a drawing unit 200 having a drawing driving unit 210 and 220 for feeding the FRP ribs 300 manufactured by the metal mold 141. [
The method according to claim 1,
The FRP rebar manufacturing apparatus is provided with a fill-release removing unit 170 for removing the fill ply 112 from the FRP ribs 300 manufactured by the mold unit 140. [ Preparing a plurality of krilles 110 on which FRP ribbing fibers 111 are wound;
Preparing a fill-in filler 130 in which a surface of the FRP rib 300 is roughened to wrap the filler 112 to increase the surface area of the FRP rod 150;
The control device 160 is operated to impregnate the FRP ribbing fabric 111 with the resin impregnation tank 120 so that the FRP ribbing fabric 111 is infiltrated with resin.
Immediately before the veneer FRP ribbing fabric 111 is inserted into the mold part 140, the filler 112 wound around the filler padding part 130 is poured into the surface of the FRP ribbing fabric 111 To the mold 141 according to the standard of the mold 141;
When the FRP ribbing fabric 111 wrapped with the fill ply 112 is inserted into the mold part 140, the FRP ribbon 150 is passed through the mold 141 and heated to 160 to 200 C for 1 to 5 minutes to prepare FRP ribbons (300);
And transferring the FRP ribs (300), which have been roughened to the drawing unit (200), to the outside of the FRP manufacturing apparatus of the present invention. delete The method of claim 3,
The fill ply 112 is pulled out of the FRP rib 300 by activating the fill ply releasing part 170 while the FRP rib 300 having the rough face of the fill ply 112 is pulled out to the punching part 200 Winding on a winder (171); Wherein the FRP ribbing method comprises:

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