KR200226625Y1 - Synthesis construction of bridge slab - Google Patents

Abstract

The present invention relates to a composite structural panel having a structure that is activated with the concrete slab body during concrete pouring work.

The present invention, in the formwork structure used when constructing the bridge top plate, a gel coat layer is laminated on the surface of the mold die, and a glass fiber layer is laminated on the surface of the gel coat layer, the surface of the glass fiber layer A resin spray layer is laminated on the resin spray layer, and a roving cross layer is stacked on the surface of the resin spray layer, another resin spray layer is stacked on the surface of the roving cross layer, and a gravel layer is formed on the surface of the resin spray layer, Resin is injected into the gravel layer, and the mold mold provides a bridge top composite panel configured to form a gravel layer in which a release agent wax layer is formed at one side to form an outer wall side and a gel coat layer is laminated at the other side to form an inner wall side.

Description

Synthesis construction of bridge slab

The present invention relates to a concrete slab body and a composite structural panel activated during concrete pouring work.

In general, in the case of installing the bridge deck, wooden deck, steel formwork and steel tag panel are used to manufacture the bridge deck.

FIG. 1 is a view showing a formwork used to fabricate a general bridge deck, the ground (10) to work according to the shape of the bridge deck of the formwork 12 and the formwork 12, the reinforcing bars 14 inward The reinforcement, the formwork 12 is poured concrete is formed bridge top plate (16).

The formwork 12 is installed at a certain distance across the formwork 12 fastener 18 so as not to burst by the inner concrete pressure.

The formwork formed with the above-described structure is difficult to manufacture and install the wooden formwork or steel formwork, difficult to dismantle work, as well as to waste the enormous budget and waste the environment due to the disposal of waste material, the steel tag panel is dismantled However, iron rust caused damage to the bridge's aesthetics and, in the case of severe corrosion, to the environment.

The present invention is to solve the above problems, the present invention, laminated with a high density polyethylene resin and glass fiber is excellent in strength and light weight, and the construction is simple, the gravel layer is formed on the layer in close contact with the concrete concrete It is an object of the present invention to provide a composite structure of bridge top plate having a structure that prevents freezing phenomenon caused by freezing of the outside caused by winter leakage due to excellent adhesion with and without deformation.

The present invention, in order to achieve the above object, the present invention, in the formwork structure used when constructing the bridge top plate, the gel coat layer is laminated on the surface of the mold die and the glass on the surface of the gel coat layer A fiber layer is laminated, a resin spray layer is laminated on the glass fiber layer, a roving cross layer is laminated on the surface of the resin spray layer, and another resin spray layer is laminated on the surface of the roving cross layer, and the resin The spray layer is formed with a gravel layer on its surface, the resin is sprayed on the gravel layer, the mold mold forms a release agent wax layer on one side to form an outer wall side and a gravel layer of a gel coat layer laminated on the other side to form an inner wall side. To provide a composite bridge deck composite framework.

1 shows a formwork used to fabricate a general bridge deck.

2 is a view showing a state of laminating a composite structural frame installed on the bridge deck of the present invention.

3 is a view showing both sides of the composite framework of the present invention.

Figure 4 is a view showing several kinds of synthetic framework of the present invention.

<Brief description of symbols for main parts of the drawings>

30: resin tank 32: resin supply hose

34: injection gun 36: mold mold

38: gel coat layer 40: glass fiber layer

42,46: resin spray layer 44: roving cross layer

48: gravel layer

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation state of the present invention.

2 is a view showing a state of laminating a composite structural frame installed on the bridge deck of the present invention, the resin tank 30 is connected to the resin supply hose 32 and the resin supply hose 32 at the end of the injection gun ( 34) install.

In order to form the composite framework 50, a gel coat layer 38 is laminated on the surface of the mold die 36 and a glass fiber layer 40 is laminated on the surface of the gel coat layer 38. The resin spray layer 42 is laminated on the surface 40, and the rosin cross layer 44 is laminated on the surface of the resin spray layer 42, and the other resin is formed on the surface of the roving cross layer 44. The spray layer 46 is laminated, and the resin spray layer 46 is formed with a gravel layer 48 on the surface thereof, and the gravel layer 48 is sprayed with a resin. The mold die 36 has a release agent wax layer formed on one side and a gel coat layer 38 formed on the other side.

Figure 3 is a view showing both sides of the synthetic framework of the present invention, the synthetic framework 50 is formed on the outer surface by forming a smooth surface with a release agent wax layer 52 on one side to form a gravel layer 48 on the other side to the inside Form.

4 is a view showing various types of the composite structure of the present invention, the composite structure 50 is formed in various shapes such as the shape of the rectangular edge, over time, rectangular, round, square, waveform.

As can be seen from the above description, when explaining the step of manufacturing the synthetic framework 50, a schematic diagram mold manufacturing and installation → release agent wax → gel coat → glass fiber → resin injection → roving cross → resin injection → aggregate lamination → resin Produced by spraying → heating → demolding.

In order to manufacture the composite framework 50, a fiber-reinforced plastic (FRP) mold is manufactured and the mold is precisely manufactured according to the design drawing, and when the mold mold 36 is produced, it is generated during curing of the fiber-reinforced plastic product. The product does not deform, warp, or wear out due to the heat of hardening, so that a uniform product can be obtained.It is produced 2 to 3 times the thickness of the product, and the colored gel coat is sprayed at a thickness of 0.4 to 0.6 mm to achieve a uniform thickness. The gel coat layer 38 coated with the gun 34 and completely cured in the gel coat is a glass fiber layer 40 and a resin spray layer 42 having a laminated thickness of 0.6 to 0.8 mm using glass fibers and resin. ), And the 2nd and 3rd laminations are repeated continuously as needed.

The release agent used in the synthetic framework 50 uses PVC or wax for mold release, and there is no official standard according to a special material, but in principle, the best quality one should be used as no abnormality in demolding and surface treatment.

Gelcoat (gelcoat) used in the synthetic framework 50 is a product of KSM 3305 equivalent or more, using an acid resistant type that can prevent corrosion.

The resin used for the synthetic framework 50 is an unsaturated polyester resin excellent in durability and water resistance as a product equal to or larger than the standard of KSM 3305.

Glass fiber (fiberglass) used in the composite frame 50 is a combination of KOPPED STRAND MAT (MC450 #) and ROVING GLOTH (WR570 #) more than KSM 3411, 3412 standard products.

The filler used in the synthetic framework 50 is used to increase the impregnation, efficiency, thixotropy and flexibility of the resin, and is used for preventing leakage and cracking of glass fibers using more than 200 mesh.

MEKPO (METHYL ETHYL PER OXIDE) is used as a curing agent used in the synthetic framework 50, and CO-NAP (COBALTIC ACID NAPHTYNATE) is used as an accelerator.

The above-described synthetic frame 50 has a high strength and light weight by laminating high-density polyethylene resin and glass fiber, and is simple to manufacture, so that a gravel layer is formed on a layer in close contact with concrete, and thus has excellent adhesion with concrete and no deformation. In addition, it is possible to prevent freezing caused by external freezing due to winter leakage.

The effect according to the above-described configuration and operation state of the present invention will be described.

The bridge deck composite structure of the present invention has excellent strength and light weight by laminating high density polyethylene resin and glass fiber, and it is easy to manufacture, so the gravel layer is formed on the layer that is in close contact with the concrete. In addition, it has the effect of preventing freezing caused by external freezing caused by winter leakage.

In addition, the bridge deck composite structure can be produced in any shape of the mold mold in the manufacturing process to produce a concrete structure with an excellent appearance, excellent construction properties, reducing maintenance costs, extending the life of the bridge It has the effect of securing a safe and sturdy structure.

Claims (2)

In the formwork structure used when constructing the bridge deck, a resin supply hose 32 is connected to the resin tank 30 and a spray gun 34 is installed at the end of the resin supply hose 32 to inject resin. The mold mold 36 has a gel coat layer 38 laminated thereon, and the gel coat layer 38 has a glass fiber layer 40 laminated thereon, and the glass fiber layer 40 has a surface coated thereon. A resin spray layer 42 is laminated, and a rosin cross layer 44 is laminated on the surface of the resin spray layer 42, and another resin spray layer 46 is laminated on the surface of the roving cross layer 44. And a gravel layer 48 is formed on the surface of the resin spray layer 46, a resin is sprayed on the gravel layer 48, and the mold mold 36 forms a release agent wax layer 52 on one side of the outer wall side. To form an inner wall side by forming a gravel layer 48 in which the gel coat layer 38 is laminated on the other side. Constructed bridge deck composite frame. The method of claim 1, wherein the mold mold (36) is a bridge deck composite structure, characterized in that formed in a variety of shapes, such as a rectangular edge, a mold over time, rectangular, round, square, corrugated.