KR200367257Y1 - Steel wire net for reinforcement of a structure - Google Patents

Abstract

The present invention relates to a reticular protective reinforcing member of a structure, and more specifically, stainless steel or steel wire is woven into an ridged state, and the state is impregnated with an epoxy low viscosity molding coating, and the epoxy molding coating composition restrains and fixes the wire. By constructing the reticular member in the state, it is possible to strengthen the durability, extension of life, seismic design of the concrete structure, rockfall prevention, collision prevention, etc. when applied to concrete structures or ten thousand structures. B) It relates to a reticular protective reinforcement member of a structure composed of a wire-shaped reticular member so as to be laminated to a protective net, various resins using glass fibers, carbon fiber sheets, and mats to be used for reinforcing panels.

Description

Steel wire net for reinforcement of a structure}

The present invention relates to a reticular protective reinforcing member of a structure, and more specifically, stainless steel or steel wire is woven into an ridged state, and the state is impregnated with an epoxy low viscosity molding coating, and the epoxy molding coating composition restrains and fixes the wire. By constructing the reticular member in the state, it is possible to strengthen the durability, life extension, seismic design, rockfall prevention, collision prevention, etc. by applying the protective reinforcement when applied to concrete structures or general structures. Or it relates to a network protection reinforcement member of a structure composed of a wire-shaped reticulated member to be used in a reinforced panel by laminating carbon fiber, glass fiber sheet, mat using various resins.

In order to enrich our lives, various structures using concrete and structures that have partially changed the structure of nature by themselves provide convenience to our lives, but the structure collapses over time. It threatens the safety of our lives. In order to stably protect us from the collapse of these structures, the use of protective reinforcement members to reinforce the stability in civil construction work forming the structure. It is also necessary to apply the method of reinforcement when there is a sign of collapse after a certain period of time not only at the time of construction but also after construction.

In general, in the case of concrete structures, as the years pass, the floor surface, as well as the interior and exterior walls or ceilings are deteriorated and need to be repaired. For the concrete repair reinforcement, repair reinforcement method was performed using reinforcement concrete.

However, in this case, the reinforcing effect is only a formal measure and has little durability, so that the newly-reinforced concrete repair reinforcing agent using the epoxy resin composition is improved to further improve and improve the repair effect.

In the conventional concrete repair reinforcement using epoxy resin, the epoxy permeable primer containing a large amount of solvent as a primer component is used to cause adhesive force and concrete neutralization. In particular, a simple water-soluble coating agent is used as a repair agent. In some cases, due to the water-soluble function of the chemical resin, all of them were able to neutralize harmful gases in strong solvents to reduce the harmful effects on the human body, and it was difficult to expect a special function improvement.

In addition, as a reinforcing agent, recently, a high-performance carbon fiber or glass fiber mat and one-way sheet are used, but an epoxy resin is used as a method of laminating a reinforcing fiber mat and a sheet on a concrete hot surface.

As another repair reinforcement method, in the mortar method, a method of reinforcing work by applying a mortar in which a stainless steel wire is fixed to a concrete surface and cement is bonded to a polymer resin is applied.

However, these methods are somewhat advanced methods compared with the prior art, but each has problems in terms of functionality and convenience and light weight.

In addition, the earthquake-resistant design and protection nets of civil engineering and construction show the limitations in tension, shear, load-bearing load, etc., and the safety is threatened. Not only buildings but also civil structures are pointed out as a problem that the risk of falling rocks and burial should always be improved due to collapse.

Carbon fiber, which is widely used as a reinforcing agent to improve the durability of various structures, is originally used as a high-performance fiber and has excellent strength and physical properties to achieve various purposes in various fields, and is also widely used as a building reinforcing agent. In the reinforcing method using carbon fiber, a resin used as a reinforcing agent is also used. Among the chemical resins, an epoxy resin having excellent mechanical properties is mainly used. However, these reinforcing reinforcing resins are used in various ways according to various forms and purposes of use because the physical properties vary greatly depending on the nature and content of the resin.

For example, a conventional method of stacking a thin mesh-shaped cross mat on an aged concrete surface using an epoxy resin has been used, and recently, a thicker one-way sheet having a denser and space-free plastic sheet than the conventional one has been used. It is constructed by making a mat by binding to the fabric of the used net form, and then attaching it to the concrete surface using an epoxy resin, and then covering the resin again to penetrate the resin into the mat. While convenient, its efficacy is being halved.

The reason for this is that the reinforcing mat is concentrated on the properties based on the physical properties, and the ultrafine fiber strands of the unidirectional carbon fiber sheet are compressed and restrained in a structure in which thousands of fibers are gathered at a thickness of about 1 to 2 / mm. There has been a problem that the penetration of the resin used is not performed properly. That is, the resin used here should have characteristics that should be used so that it does not flow on the wall for lamination of permeable primer and sheet on the concrete base surface, and high viscosity and adhesive epoxy resin is smoothly between the fibers of the reinforcing mat. There is a problem that the reinforcing effect is rather deteriorated because it cannot penetrate, and the fibers and the fibers are densely formed so that proper resin arrangement cannot be achieved.

In addition, when the reinforcement method using one-way carbon fiber is applied as the repair reinforcement method, the shrinkage difference is different from that of concrete due to the non-shrinkable expansion of the carbon fiber. It appeared easily, and there was a phenomenon that the unity with the concrete surface was inferior to the curved surface or the perpendicular surface.

In addition, in the polymer mortar method using stainless steel wire, the manufacturing and installation process of the wire is complicated, and the method using such a wire is a heavy material having a thickness of 20 / mm, which makes it impossible to reduce the weight of the mortar. Since there is no significant difference between and the reinforcing effect, the reinforcing effect is simply dependent on the wire, which presents serious problems in physical bending properties, light weight, and convenience of work, which are essential requirements of the reinforcing function.

In addition, in various safety nets of civil construction, existing nets such as balancing and ridges using iron are widely applied in terms of safety. There is a demand for better physical properties for protective installations for safety against heavy objects.

The inventors have tried to solve these problems fundamentally and complement the repair reinforcement effect. As a result, the epoxy is reinforced in the form of chips without the application of the fiber mat, which has been a problem in the conventional reinforcing method using high-performance carbon fiber. It is mixed and used in the resin itself, but it is improved to apply the reinforcing reinforcement member made of metal wires such as stainless steel and steel, so that it can be efficiently repaired with mechanical, physical functionality, light weight, convenience, and economic efficiency to the deteriorated concrete structure. Its purpose is to provide a reinforcement member for seismic design of various civil buildings such as civil engineering facilities as well as civil engineering facilities, and to provide various safety reinforcement members. .

Figure 1 is a photograph showing the shape of the wire of the reticular protection reinforcing member used for the protection reinforcement according to the present invention, the typical reinforcement protection reinforcement completed by restraining with epoxy low-viscosity molding coating in the state that the wires are arranged in a ridge configuration Isometric image of the actual product to enlarge one embodiment of the member,

FIG. 2 is a reaper showing a planar structure of the network protection reinforcement member of FIG.

<Explanation of symbols for main parts of drawing>

1-horizontal wire 2-vertical wire

3-Molding coating agent (resin)

1 and 2, the present invention has a plurality of horizontal wires 1 and vertical wires 2 arranged in a ridge form, and a cohesive epoxy molding coating agent is applied to the entire surface of these wires. While being characterized in that the cross-linked wire (1) and the vertical wire (2) in the wire cross-linking site is made of a cohesive epoxy molding coating agent (3) at the same time fixed to form.

Such, when the present invention is described in more detail as follows.

The mesh member of the present invention can be used for repairing or reinforcing and protecting a variety of structures in addition to concrete reinforcement. In particular, when the mesh reinforcing member of the present invention is suitable to be used, repair reinforcement using the epoxy resin composition developed in the present invention It can be applied to the construction method, the seismic design of civil construction, and the protection member to prevent the accident of human resources in various industrial facilities.

An embodiment of the wire protection reinforcing member of the wire material used in the present invention is to have an orthogonal ridge-shaped network structure as illustrated in FIGS. 1 is a perspective view showing an embodiment of a reticular protection reinforcement member used for repairing a structure as well as protection reinforcement according to the present invention, wherein the reinforcing protection reinforcement member is formed by arranging a horizontal wire in a cross-sectional shape on a vertical wire. This is the most typical shape showing the state.

FIG. 2 is a plan view of the ridged reticulated product of FIG. In some cases, the spacing may be configured differently in the vertical or horizontal portion of the arrangement of the ridge network. When the horizontal or vertical spacing is configured differently in the reticulated protection reinforcement structure of the rhomboid, the strength and the protective reinforcing effect are strengthened as compared to other directions in a narrow spacing direction.

The network protection reinforcing member of the present invention is a network structure which is composed of ordinary metal or reinforcing fiber, most typically stainless steel wire, and is restrained in a cured state with a molding coating applied therein while maintaining flexibility. It can be manufactured so as to be commercialized into a sheet form, or it can be made into a product of the form wound up by rolling up the thing manufactured continuously in predetermined | prescribed width and length, and can be cut and used arbitrarily according to a use place.

As described above, since the reinforcing member for reticular protection according to the present invention is manufactured by restricting wires arranged in the shape of a ridge with a cohesive molding coating agent of epoxy resin component, the constrained part is not deformed during transportation, storage, and use after commercialization, and thus is flexible. This is very convenient. In addition, when the reinforcing member is used, it is possible to obtain a protective net with excellent reinforcing effect and excellent tensile shear strength in terms of bending, tensile elasticity, and the like in terms of physical convenience, weight reduction, and convenience in expressing repair and reinforcing performance.

In this way, the structure of the reinforcing reinforcing member of the network is generally excellent epoxy resin component having moderate cohesion and soft elasticity to the wire in order to arrange the thin wires in the shape of a normal cross-shaped net and to restrain and fix the network structure. When the molding coating agent is immersed and cured, the network member is easily constrained.

In particular, the configuration of the reticulated member according to the present invention is very characteristic in that the wires are alternately arranged in a ridge and constrained with a resin-based coating agent, wherein the molding coating agent of the resin component used is a resin developed by the present inventors. As Korean Patent No. 0145117 as a composition, for example, 70-85% by weight of epoxy base resin, 10-20% by weight of xylene as a non-reactive diluent, 1-5% by weight of plasticizer, 0.1-1% by weight of antifoaming agent, and 1-5% by weight of flocculant 100 parts by weight of the resin component comprising a, 50-70% by weight of a modified aliphatic amine which is a curing agent, 25-35% by weight of nonylphenol as an accelerator, and 5-60% by weight of an epoxy resin as a pre-reactive agent. Part by weight, and 80-95% by weight of modified alicyclic amine, 1-10% by weight of xylene as a non-reactive diluent, and 1 to 10% by weight of methylphenol as a catalyst. Epoxy low viscosity molding coatings, characterized in that they are thick, can preferably be used.

As such, in order to apply the protective reinforcing member of the present invention more effectively, the water-soluble epoxy multifunctional primer adhesive developed by the present inventors is applied to the deteriorated concrete base surface with the undercoat, and the epoxy resin composition reinforced with carbon fiber or glass fiber is applied. By using the reinforcement method, it is possible to further increase the repair reinforcement function with excellent adhesion as well as prevention of neutralization.

As a reinforcing mortar agent that can be used together in applying the protective reinforcing member in the present invention, a resin showing specific physical properties is combined with an epoxy base resin, and a reactive diluent is added thereto to maintain an appropriate viscosity. (Adhesive force), and dispersing and compressing carbon fiber chips and glass fiber chips in an optimum amount in the resin to form a resin component, which is desirable in the plastering process without flowing when applied to concrete structures for repair reinforcement work. It is possible to configure and use a basic water reinforcement reinforcement composition to have a releasability and flame retardancy, and to configure a curing component including a curing agent and a curing accelerator of aromatic and aliphatic amines in the field.

To illustrate the typical composition of the epoxy resin composition used in the construction with the reinforcing member in the present invention, 50-60% by weight epoxy base resin, 7-13% by weight reactive diluent having a tri-functional group, urethane Modified epoxy resin 25-35% by weight, pentabromo diphenyl oxide 1.5-2.5% by flame retardant, silicon oxide 3.8-5% by flocculant, carbon fiber chips 4-6% by weight, glass fiber chip 0.7-1.5% by weight To 100 parts by weight of the first composition of the resin component containing a, 55-66% by weight of a polyamine curing agent, 20-30% by weight of metaxylene diamine, 10-15% by weight of polypropylene amine, 10-13% by weight of triethylene tetraamine %, 20-35 parts by weight of the second composition of the cured component containing 5-10% by weight of the piperazine mixture as a curing accelerator, and 0.1-3 parts by weight of the primary alicyclic amine mixture as the flocculating agent (Korean Patent Application) time 10-2003-0053659).

As a result of experiments on the resin composition used in the present invention based on various experiments, it was found that the resin composition is very suitable for applying to high-tech methods having physical high functionality, light weight, convenience and economy. In this case, it is very suitable as a reinforcing mortar agent to maintain the concrete structure for a long time by blocking the deterioration caused by the natural and human factors of the concrete structure and structurally restoring the structure of the collapsed structure.

At this time, the fiber chip of the carbon fiber or glass fiber used is appropriate size of 3-6mm, too small, the physical properties are weakened, too long, the product properties are poor and the workability is not smooth.

In addition, in the present invention, a pigment may be added in addition to the composition, and an inorganic or organic pigment may be used as the pigment. The addition amount of the pigment may be used in 1-10 parts by weight based on 100 parts by weight of the first composition as the resin component.

As described above, when the three-component reinforcement composition used in the protective reinforcement member of the present invention is applied to the deteriorated concrete structure together with the reticular protective reinforcement member of the present invention, repair is performed due to the carbon fiber chip and glass fiber chip inherent in the composition. The reinforcing effect is improved and excellent physical and mechanical properties are exhibited.

On the other hand, when applying such a reinforcing agent composition to the reinforcement reinforcement of the concrete structure, for example, with the reticular protective reinforcement member of the present invention look at the repair reinforcement method as follows.

Basically, in the concrete reinforcement method of applying a repair reinforcement to the surface of the deteriorated concrete structure,

a) apply a multifunctional primer adhesive to the surface of the deteriorated concrete structure,

b) Secure the reinforcing surface by installing aluminum and PVC caps with a predetermined thickness on the concrete degradation surface to be reinforced on it;

c) coating and reinforcing the reinforcing agent composition composed of the epoxy resin composition on the reinforcing surface;

d) closely attach the network protection reinforcing member of the present invention on the coating layer,

e) flattening by applying the reinforcing agent composition thereon with compression plastering,

f) applying a multifunctional primer adhesive again thereon.

As such, the most suitable method of applying the epoxy resin composition when using the network protection reinforcing member of the present invention is to apply a concrete application surface with a primer adhesive, and then apply the resin composition, and after applying the resin composition again Finish coating with primer adhesive is recommended.

At this time, as the primer adhesive, for example, epoxy primer adhesive (Korean Patent Application No. 10-2002-0030103) for coating a concrete structure including an epoxy, a diluent, and a curing agent developed by the present inventors may be used.

That is, when looking at the repair reinforcement method of the concrete structure applying the epoxy resin composition used as a reinforcement with the reticular protective reinforcement member of the present invention, the multifunctional primer adhesive of the composition as described above to the existing deteriorated or subsided damaged concrete structure After the base is applied and applied, the reinforcing agent composition prepared in the present invention is pressed onto the primer coating layer to the wall surface, the ceiling, and the bottom surface. At this time, in the case where the concrete surface that requires reinforcement is severely separated and damaged, the epoxy carbon mortar composition may be thickly applied to form an infinite thickness so that workability may be conveniently applied. In this way, when the concrete reinforcement surface is formed, flattening it and recoating the multifunctional primer thereon can restore the original shape of the concrete, as well as repair and reinforcement of the form having excellent reinforcement effect by finishing.

According to the present invention, it is possible to increase the bending modulus, reinforcement function, etc. due to the appropriate content of the added carbon fiber and glass fiber chips using a resin composition having high functionality, light weight, convenience and economy as described above. In addition, the dispersion compressor method including this also plays an important role in improving the function as a reinforcing agent.

In particular, the proper amount of glass fiber occlusal plays a role in dispersing evenly while showing the reinforcing support effect between the ultra fine fiber and the fiber of the carbon fiber, and the specific resin and hardener, etc. in combination with the light weight, but does not flow characteristics In addition, it is excellent in workability, as it can mix | blend a hardening | curing component and a cohesion control agent in the field, and can perform a plastering work on a wall surface, a ceiling, etc. freely at the time of plastering.

According to the present invention, the thickness of various steel wires or stainless steel wires bound by the epoxy resin molding coating agent may be 0.4 to 20 / mm depending on the application. The coating can be smoothly constrained, first select the desired thickness, then set the wire spacing arrangement according to the standard, and use the battle-type machine to place the horizontal lines in the form of ridges between the vertical lines. After passing through the plastic molding coating (resin solution containing hardening agent) developed by fixing the cross section, and hardening while immersed in the immersion coated up and down, it can be constrained in the form of a ridge net suitable for protection and reinforcement effect. have. In particular, since the epoxy resin composition used for the protective reinforcing member of the present invention is the same epoxy resin composition as the reinforcing agent composition used in the reinforcing method, the reinforcing effect is maximized because of its excellent affinity when used in the field of repair reinforcement for structures such as concrete. Characteristics.

When explaining the method of reinforcing by applying the constrained wire to the required concrete surface, for example, by applying and curing the multifunctional primer developed by the inventors, the aluminum and PVC caps of the desired width and height are fixed to both ends in the horizontal direction. After applying the reinforcing agent composition of the present invention to 1-2 / mm in the form of scraping, the network reinforcing member constrained with epoxy resin was contacted before hardening, and pressed and plastered with a fixed aluminum cap thickness using the reinforcing agent composition. Complete construction. After the primer is reapplied, the original shape of the concrete can be restored to obtain a better finishing effect.

On the other hand, the reinforcing members applied to various structures in recent years also tend to make it easy to transport, store, and use. In the present design, for example, the network member is very flexible and has strong strength protection while the network member is fixed with epoxy resin. Since the reinforcing member can be manufactured, it can be manufactured to be used in a suitable width and length to be cut by unit or by winding long and arbitrarily cut and used. In addition, the reinforcing structure itself can be panelized by impregnating and compressing the reinforcing agent composition of the present invention to a certain metal or plastic mold. That is, the resin protection reinforcing member described above may be used in a preferred form as a resin panel contained as a reinforcing member in a sheet made of epoxy or FRP carbon fiber mortar made of carbon fiber or glass fiber.

For example, according to the present invention, the constitution of the resin reinforcing panel for repair reinforcement includes a reinforcing agent layer composed of the epoxy or FRP resin, and a reinforcing member impregnated with a protective reinforcing member of the present invention, wherein the wire is constrained by a cohesive molding coating. The layer can be applied to the resin reinforcement panel for repair reinforcement which consists of the reinforcement layer which was apply | coated and filled with the reinforcement composition layer which consists of the above-mentioned epoxy resin again. In addition, by using a glass fiber mat and a sheet carbon fiber mat sheet using epoxy and FRP resin, the rhombohedral wires constrained in the laminated panel layer may be laminated in multiple layers according to the thickness, and thus may be applied to reinforcement panel production. In addition, the panel may have a preferable structure in which a carbon fiber sheet, a resin mat or a glass fiber sheet using epoxy or FRP resin is laminated in a single layer or multiple layers.

The size of the resin reinforcement panel for reinforcement can also be produced in a predetermined size of the sheet or continuously wound so as to produce a predetermined width to be cut to any size used.

The resin reinforcement panel for repair reinforcement is coated with a multifunctional primer adhesive on the surface of a conventional concrete structure, and then the epoxy reinforcing agent is scraped and then attached and epoxy is spread over the surface to be reinforced including the periphery to which the panel is attached. It can also be applied to the reinforcing surface in such a way that the resin composition is reapplied and then finished with multifunctionality (primer).

On the other hand, when using carbon fiber mat or glass fiber mat or recently preferred carbon fiber sheet, it is applied by laminating with high viscosity epoxy resin on concrete surface. Although there was a limit of resistance over the direction, when using the reinforcing member of the present invention, the reinforcing effect is very stable, and in addition to this effect, the mesh-reinforced reinforcing member of the constrained wire material is applied to the weak part of the structure. By doing so, it is possible to increase the load capacity that can withstand extreme loads (bending modulus).

In addition, by using the multi-functional primer adhesive composition developed by the present inventors to coat the structure and apply the reinforcement composition after applying the finish, it is applied to the resin component used as an adhesive and surface repair and finishing agent and the reticular protective reinforcement member of the present invention Since the epoxy resin composition has the same series composition, the non-bonding and peeling phenomenon due to the heterogeneity between the components in the conventional lamination repair reinforcement method using the various resins or the coating method between the different components. It is possible to prevent the damage, and to promote the unity, strong reinforcing effect and construction convenience as a repair and reinforcing agent.

In particular, generally after finishing the reinforcement of the concrete structure, the finishing material should be freely selected. Until now, it was pointed out that the surface finish using epoxy does not have a suitable in-situ finishing agent so that the finishing agent cannot be selected according to the purpose. For example, the surface coated with an epoxy resin is dense, free from irregularities, and does not have a chemical affinity, thereby making it difficult to select various finishes.

However, in the present invention, when the multi-functional surface repair and primer adhesive is applied to the application surface of the reinforcing agent composition using an epoxy resin together with the reticular protective reinforcing member, and the filler component is used in a slight excess depending on the application, the cured surface becomes matte and fine. Since irregularities are formed, it is very effective to use oil-based, water-based paints, etc. in addition to acrylic and alkyd resins having non-binding properties, so that there is an effect that can be easily finished freely than before.

Hereinafter, after applying the reticular protection reinforcing member of the present invention to illustrate the experimental example of the test of the reinforcement, the present invention is not limited thereto.

Experimental Example 1

The construction method is to apply a multi-functional primer to the base surface to be repaired reinforcement in order to the base / hardener / filler / 100: 33: 133 mixed and cured, and then scraping the reinforcing agent composition thinly around 1 ~ 2 / mm and then On top of that, after contacting the reinforcing member of the mesh-type stainless steel wire (wire thickness 2 / mm) manufactured as shown in Figure 1 of the present invention bound to the reinforcement use using a molding coating agent using a cohesive epoxy resin, the whole 5 / Compression plastering was carried out with the composition at mm thickness.

After completion of plastering for repair reinforcement after 72 hours at 20 ℃ test results showed excellent physical properties as a reinforcing agent.

As a result of applying the reinforcing agent composition and the constrained wire mesh reinforcing member manufactured according to the present invention to the deteriorated concrete surface, it is very easy to use because it does not flow when installed in the field, and it is very easy to use. The results of the test on the flexural strength, tensile strength, and tensile modulus of elasticity in the absence of reinforcement are expected to be greater than 195.52 kg / ㎠ in actual application. there was.

Experimental Example 2

The same composition as Experimental Example 1 was applied to the concrete structure after reinforcement, and then the comparative experiments were performed. The test was carried out according to ASTM C1018 method, and the concrete test specimens were 150mm × 150mm × 450mm standard and cured for about 21 days at 20 ° C. The ground surface was arranged by polishing grinding, and then the multifunctional primer was applied and 12 at room temperature 20 ° C. After elapse of time, the epoxy reinforcing agent was applied on the surface to which the primer was applied to a thickness of about 1 mm (scraping) by using a rubber hera. Then, the reinforcing member made of steel wire manufactured as shown in FIG. As a result of performing a physical property test on a non-reinforced test body cured for 7 days by compressing and plastering an epoxy reinforcement to a thickness of about 4 mm, the reinforcing reinforcement method of the present invention was carried out using the reinforcing reinforcement composition of the present invention. The maintenance reinforcement showed excellent reinforcing effect. In particular, it showed excellent performance effects in flexural and lower tensile stresses.

As described above, the reticular protection reinforcement member according to the present invention, unlike the conventional one when applied to the reinforcement surface of a concrete structure or general civil construction structure can be applied with excellent physical properties and a new method, in particular the epoxy resin component of the present invention The reinforcing effect is greatly improved by the use of mesh wire protection reinforcement member constrained by the reinforcement. The epoxy resin of the same series includes the multifunctional primer adhesive for the undercoat, the wire reinforcement protection reinforcement member, and the cohesive molding coating agent of the epoxy resin component applied thereto. As it is a composition of components, homogeneity is ensured, and an integrated reinforcement effect with a large affinity can be obtained.In addition, it exhibits excellent effects in all aspects such as high functionality, light weight, convenience, and economic efficiency, and thus the strength and durability of various structures requiring repair and reinforcement. Very good effect of improving back and excellent tensile shear of wire As it can be widely applied in civil engineering, seismic design of building other rockfall prevention, conflict prevention, in addition to protecting networks.

Claims (5)

In the reticular protective reinforcement member made of a wire, the wires are ridged in a cross-linked form with a plurality of transverse wires 1, and a cohesive epoxy molding coating agent is applied over the entire surface of the wires. Reticle protection reinforcement member of the structure, characterized in that the cross-linking site (1) and the vertical wire (2) in the cohesive epoxy molding coating agent (3) at the same time to form a fixed form. According to claim 1, wherein the cohesive molding coating agent is 70-85% by weight epoxy base resin, 10-20% by weight of xylene as a non-reactive diluent, 1-5% by weight plasticizer, 0.1-1% by weight antifoaming agent, 1-5% by flocculant 100 weight part of resin component containing%, 50-70 weight% of modified aliphatic amine which is a hardening | curing agent, 25-35 weight% of nonylphenol as an accelerator, and 5-20 weight% of epoxy resins as a pre-reactive agent 40- 60 parts by weight, and 80-95% by weight of modified alicyclic amine, 1-10% by weight of xylene as a non-reactive diluent, and 0.001-0.01 parts by weight of agglomeration regulating component comprising 1-10% by weight of methylphenol as a catalyst. Reticular protective reinforcement member of the structure, characterized in that consisting of. The reticular protective reinforcement member according to claim 1 or 2, wherein the reticular protective reinforcement member has a wire thickness of 0.4 to 20 / mm and is manufactured in a wound form in a collar or transparent state. The resin protection panel containing the network protection reinforcement member of claim 2, wherein the network protection reinforcement member of claim 2 is contained as a reinforcement member in a sheet made of epoxy carbon fiber mortar using carbon fiber or glass fiber. [5] The resin panel of claim 4, wherein the panel is a laminate of carbon fiber sheets, resin mats or glass fiber sheets using epoxy or FRP resin in a single layer or multiple layers.