KR20060111317A - Resin concrete form - Google Patents

Abstract

A resin concrete form is provided to use for easily defective, breakable and contaminable structures using high-strength resin concrete, to improve in appearance by making patterns on the surface of concrete with a gel coat layer, and to install a panel easily and to exclude the necessity of an additional supporter when placing concrete. A resin concrete form(1) comprises: a gel coat layer formed on the outside to a thickness of 2 millimeters by spraying gel coat resins for coloring and polishing purposes; a resin concrete part formed adjacently to the gel coat layer and composed of 12 weight percent binder, 12 weight percent filler, 45.6 weight percent fine aggregate and 30.4 weight percent coarse aggregate; and solid wires(13) buried under the resin concrete part to the appointed thickness and projected at the appointed height to be buried under a concrete part.

Description

Resin concrete form

1 is a perspective view schematically showing the construction state of the resin concrete formwork according to the present invention.

Figure 2 is a schematic cross-sectional view showing a resin concrete formwork and a structure constructed using the same according to the present invention.

Figure 3 is a view showing step by step the manufacturing process of the resin concrete formwork according to the present invention.

Figure 4 is a cross-sectional view showing a state in which the resin concrete formwork according to the present invention in the transverse direction.

Figure 5 is a schematic diagram showing a process of connecting the resin concrete formwork in the longitudinal direction according to the present invention.

The present invention relates to a permanent formwork in the form of panels using high-strength resin concrete, in particular can be applied to the structure having a large impact on the defects and cracks of the cross section and environmental pollution, it is possible to improve the aesthetics by engraving the pattern on the concrete surface In addition, the present invention relates to a precast resin concrete formwork that is easy to install panels when concrete is poured and does not require a separate support member.

The most used material in the domestic construction field is concrete, and the concrete is formed and maintained using formwork. In general, the formwork for concrete uses wood, steel, Eurofoam, etc., the form of wood and euroform is discarded after using about five times, the formwork made of steel is expensive (high) Have In addition, by using a formwork having a pattern in recent years to improve the aesthetics of the concrete surface, the formwork having such a pattern is also used as a consumable member.

On the other hand, concrete is easily cracked by dry shrinkage due to deficiency of concrete cross section and weak tensile strength due to scour in river, and deterioration such as corrosion of steel reinforcement and leakage due to crack generated. It has a disadvantage. Due to the shortcomings of general concrete, in structures where leaks are important, such as sewage treatment plants, the concrete surface is treated with epoxy coating, but due to heterogeneity with concrete, they are separated from each other within 1 to 2 years. It is causing a problem.

Therefore, if a high strength concrete (about 1,000㎏ / ㎠) can be used as a permanent formwork, the disadvantage that occurs in the structure of the existing concrete (about 240㎏ / ㎠), that is, defects in the cross section due to scour, cracks It is considered to be able to solve the deterioration and the use of consumable formwork, and it is possible to prevent environmental pollution in structures that come into contact with pollutants such as sewage treatment plants, and to be used in the production of structures that do not allow cracking, such as PSC structures. It is expected to have very advantageous advantages. In recent years, sewer pipes and leaking communication manholes, which are very important in Korea, have started to be manufactured using high-strength concrete such as resin concrete.

In the present invention, by using a resin of high strength, as described above, it can be applied to a structure that is largely affected by defects and cracks and environmental pollution of the cross-section, and can be improved by a pattern on the surface of the concrete, The purpose of this is to provide a permanent formwork of precast resin concrete, which is easy to install the panels when placing concrete and does not require a separate support member.

The present invention is to install the resin concrete formwork made in the factory when constructing the structure on the surface of the structure and to pour the concrete to complete the structure. An important feature of the resin concrete formwork according to the present invention is, firstly, as a method of attaching resin concrete and general concrete, using a soft adhesive method using cement paste and a rigid adhesive method using reinforcing bars; Secondly, corrosion resistance, tensile strength, friction strength, etc. are improved; Thirdly, the formwork is formed in a relatively thin panel form, and when the formwork is manufactured in a factory, the formwork is manufactured by a general vibrating compacting method; Finally, by using a separately invented coupling bracket, the installation is simple and does not require a separate outer support member and can strengthen the tightening force.

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

1 is a perspective view schematically showing a construction state of a resin concrete formwork according to the present invention, Figure 2 is a schematic cross-sectional view showing a resin concrete formwork and a structure constructed using the same according to the present invention. As shown in these figures, the resin concrete formwork 1 according to the present invention is a gel coat layer 11 formed on the outer surface by spraying a gel coat resin for coloring and gloss, and the gel coat layer 11 ) Is formed to be embedded in the resin concrete portion 12 formed in contact with the resin concrete portion 12, and embedded in the resin concrete portion 12 to a predetermined depth and protruded to a predetermined height (2: Fig. 2) It consists of a three-dimensional iron wire 13.

Resin concrete formwork 1 according to the present invention has a function that can be integrated with the concrete portion 2, for example, a thickness of 20mm or more can thoroughly prevent the intrusion of corrosive substances from the outside. In addition, since the resin concrete formwork 1 is connected to the concrete portion 2 by a three-dimensional steel wire 13, it is difficult to be separated from the concrete portion 2 until the resin concrete formwork 1 is completely damaged. do.

To explain in detail the composition of the resin concrete formwork 1, in particular the resin concrete part 12, this resin concrete part 12 is 12% by weight binder, 12% by weight filler, 45.6% by weight fine aggregate And 30.4% by weight of coarse aggregate.

The main material of the binder is a thermosetting resin, and an ortho futalic acid unsaturated polyester resin is used as long as there is no special requirement such as heat resistance or alkali resistance. In addition, in order to reduce the shrinkage rate and to stabilize the size and quality of the molded article, a shrinkage reducing agent made of thermoplastic resin such as polystyrene resin is used together with the unsaturated polyester resin as a main material, It does not change, but deforms (expands here), and hardens to a deformed state when it is below room temperature, thereby making it possible to adjust bow rate. In addition, naphthenic acid cobalt may be used as an accelerator, and methyl ethyl ketone peroxide (MEKPO) may be used as a curing agent.

The filler can be used for the purpose of obtaining a fluidity suitable for molding and controlling the temperature rise due to the heat of reaction to prolong the usable time. However, the filler should not significantly reduce the performance after curing. Here, for example, fly ash or calcium carbonate is used as the filler.

The required quality is almost the same as for cement concrete aggregates, except that the aggregate is used in dry condition. Particle size of fine aggregate and coarse aggregate should be within the particle size range determined by the Korean Society of Civil Engineers. Particularly, fine aggregates are most preferably sands of rivers with few impurities, and coarse aggregates are preferably solid rocks or mineral crushed stones with little coagulation matter such as clay powder. The density of the crushed stone is defined as 2.60g / cm3 or more, and it is very important because the destruction of aggregate greatly affects the strength of the resin concrete.

On the other hand, in the present invention, the wire 13 is designed to be more solidly integrated with the resin concrete portion 12 and the concrete portion (2) to be subsequently poured, it is designed to play a role of preventing breakage when cracks, preferably epoxy resin Iron coated wire can be used.

Figure 3 is a view showing step by step the manufacturing process of the resin concrete formwork according to the present invention. As shown in the figure, first, the brackets 6 for the demolding and bolting holes are fixed to the bottom of the steel mold 4 having the bottom and side surfaces smooth and horizontal using bolts 5. After the release agent is applied to the inside of the mold 4, the gel coat layer 11 is sprayed to form a gel coat layer 11 on the bottom surface. Alternatively, the gel coat layer 11 may be formed into a pattern layer by forming a gel coat layer 11 after the pattern is engraved on the surface of the mold 4.

When the gel coat layer 11 is hardened and hardened, resin concrete mixed with a binder, filler and aggregate (coarse aggregate and fine aggregate, etc.) is poured using a kneader, and then a vibrator is installed on the bottom of the mold 4 Perform vibration molding. Thereby, the resin concrete part 12 is formed.

When the resin concrete poured by vibrating is spread evenly without voids on the entire surface of the mold, the solid iron wire 13 is buried therein to a predetermined position, and then hardened by applying hot air (45 to 60 ° C). When the hardening is completed, the bolt 5 securing the mold 4 and the metal fitting 6 is dismantled, and the I bolt 7 is fastened to the metal fitting 6 from the inside of the mold 4. By pulling it out, the cured resin concrete formwork 1 is separated from the mold 4. Thus, the resin concrete formwork 1 is demolded, and when the metal fittings 6 are removed from the demolded resin concrete formwork 1, the resin concrete formwork 1 with the bolted fastening hole 14 is formed.

When connecting the resin concrete formwork 1 according to the present invention to each other at a predetermined interval in the transverse direction for the construction of the structure, shown in Figure 4 (simply shown with the wire 13 is omitted for convenience of description) As described above, the bolt fastening hole 14 formed in the resin concrete formwork 1 is used, and the washer 8 having elasticity is closely adhered to the bolt fastening hole 14 and the computer bolt 10 is inserted and penetrated to each other. Insert and penetrate through the bolted holes 14 of the facing resin concrete formwork 1 to be connected, and then adjust the distance between the formwork and fix it with nuts 9 on both sides of each resin concrete formwork 1. . Thereafter, the bolted fastening holes 14 are finished with resin vertices.

On the other hand, in order to connect the resin concrete formwork (1) in the longitudinal direction of the structure to be formed, a separate coupling bracket having a pair of grooves 31 having a wide inlet and a narrow surface for accommodating the bolt 10 is formed ( 3) is pushed down between the inner nut (see Fig. 4) and the resin concrete formwork 1 fitted to the threaded bolt 10 used to connect in the transverse direction as shown in Fig. 5, the coupling bracket Both resin concrete formwork 1 fastened by (3) is fixed while being bonded to each other.

In this way, the spacing between the formwork can be easily adjusted, and no special external reinforcement is required to fix the formwork until the concrete is placed after the formwork is installed, and the formwork is connected to the formwork to be connected to the inside of the formwork. By using the bracket, the fastening force between the formwork can be strengthened and the adhesion force with the concrete can be strengthened when the concrete is poured.

Subsequently, the concrete part 2 is constructed by pouring and curing concrete in the resin concrete formwork 1 installed in connection with each other as described above, and the resin concrete formwork 1 is connected to the concrete part 2. It will remain as a permanent formwork to protect the structure.

As described above, according to the present invention, the resin concrete formwork according to the present invention can be easily applied to bridges, sewage treatment plants scattered throughout the country, and in particular, small and medium companies producing precast resin concrete products use existing production equipment. There is an advantage that can be easily produced.

In addition, the structure to which the resin concrete formwork according to the present invention is applied has chemical resistance against copper sulfate, has excellent durability, ensures watertightness, and ensures integrity with concrete. Moreover, according to this invention, it is excellent in workability and economical.

Claims (3)

A gel coat layer 11 made of a gel coat resin on the surface thereof, Resin concrete portion 12 formed in contact with the gel coat layer 11, Resin concrete formwork consisting of a three-dimensional iron wire 13 is embedded in the resin concrete portion 12 to a predetermined depth and protrude to a predetermined height. According to claim 1, wherein the resin concrete formwork (1) is a bolted fastening hole (14) is further formed, when the resin concrete formwork (1) is connected to each other in the transverse direction for the construction of the structure, facing the resin concrete Resin concrete formwork, characterized in that the bolt is inserted into the bolting holes (14) of the formwork (1), and fixed with a nut (9) on both sides of each resin concrete formwork (1). The method of claim 2, wherein the resin concrete formwork (1) is provided with a coupling bracket (3) having a pair of grooves (31) having a wide inlet and a narrow surface for accommodating the bolt 10 is formed, When connecting the resin concrete formwork 1 to each other in the longitudinal direction, the coupling bracket 3 is connected between the inner nut 9 and the resin concrete formwork 1 fitted in the threaded bolt 10 and pressed down. Resin concrete formwork, characterized in that.

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