KR101080431B1 - Surface Finished Structure of the Structure - Google Patents

Abstract

Surface finish structures are provided for the waterproofing, anticorrosion of structures where surface corrosion occurs easily, such as concrete, steel structures or steel pipes.

The surface finishing structure, a structure that the finishing material is processed; and a reinforcing net and a finishing layer reinforcing means provided on the surface of the structure including an anchor member constructed on the structure to fix the reinforcing net; And a finishing layer formed on the surface of the structure and the reinforcing means, wherein the cover member is fixed to the anchor member to cover the anchor member and the finish member is processed on the cover member, and the cover member extends along an arrangement path of the anchor members. Characterized in that further comprises a configuration.

According to the present invention, in the finishing treatment for waterproofing, anticorrosion, or reinforcing the surface of the structure, there is no need for pre-treatment work, and the structure of the finishing material treated in the form of coating or spraying is prevented, of course, especially gun, Applicable to all wet environments, the improved effect of extending the life of the structure and the finishing layer itself.

Structure, surface finish, anticorrosion, waterproof, reinforcement, reinforcement net

Description

Surface Finished Structure of the Structure}

The present invention relates to a surface finishing structure for the surface finish for the waterproofing, anticorrosion of the structure, such as concrete, steel structures or steel pipes easily generated surface corrosion, and more specifically, for the waterproofing, anticorrosion or reinforcement of the surface of the structure When processing, no pre-treatment work is required, and the structure of the finishing material treated in the form of coating or spraying is prevented, and the structure and the finishing layer itself are ultimately applied because it can be applied to all types of dry and wet environments. It relates to a surface finish structure that extends its lifespan.

In general, structures used in water and sewage facilities related to water treatment, including concrete structures, water and sewage steel pipes, and cast iron pipes, or other chemical or food plants, in particular, concrete or steel structures are corrosive to (chemical) corrosion caused by water, chlorine, chemicals, and corrosive gases. You are exposed to an environment where this can easily occur.

In addition, such a concrete or steel structure is exposed to an environment in which high water pressure, flow velocity, vortex, abrasion, erosion, etc., due to water drop are easily generated.

Therefore, when such water treatment and chemical treatment-related structures are corroded or worn out, water leakage, loss of water resources, reduction of the life of the structure, as well as water, such as large tanks or storage tanks that pass through or are stored, especially due to the surface corrosion of the structure are contaminated. There was a problem that the secondary water pollution occurs.

Therefore, the surface of a conventional concrete or steel structure is mainly applied to the surface of the structure by applying or spray coating the surface of the structure of a resin (synthetic resin) such as epoxy-based, urethane-based, polyethylene or polyurea so that the surface of the structure is not exposed to the outside.

For example, Figure 1 shows a state of finishing the surface of a conventional structure, in particular, concrete structure.

That is, as shown in Figure 1, the spraying coating (injection gun) 120 using a spraying gun (injection gun) 120a of the finish liquid 110a blended with the material of the desired state on the surface (100a) of the concrete structure 100 By treating the finish 110 to the surface of the structure, or not shown in the figure may be treated by the coating method coating method.

By the way, as shown in Figure 2, when the concave-convex (groove) (110b) is formed on the surface of the structure during the treatment of the finishing material, the finishing material 110 is entered into the gap of the concave-convex after finishing the finishing material, the finishing material of the concave-convex portion is deformed. Easy to be applied, especially when an impact is applied from the outside (a sharp nail, a piece of iron (see 'T' in FIG. 4), etc.) is taken, the finishing material 110 at the uneven portion is easily broken, and in particular, peeling off the structure surface of the finishing material Is easily generated.

Therefore, in the conventional case, the surface pretreatment cleanup of the structure must be preceded before the actual finish treatment can proceed, which delays the finish treatment air.

On the other hand, at the time of processing the finishing material, there were no uneven grooves on the surface of the structure, but after the processing of the finishing material, the voids (unevenness) (100b) is also formed on the surface of the structure due to external factors, in this case also caused the problems described above .

In addition, although not shown in detail in Figures 1 and 2, during the surface finish treatment of the structure, a plurality of finish liquid is spray-coated to form a multi-layer surface finish 110 layer.

However, conventional finishes do not have good durability, ie, structural strength after finishing, as the resin composition, as described above, so that once finished, the finished finish is removed again or over again. Because of the treatment, regular surface maintenance was involved throughout the actual service life of the structure.

Accordingly, the applicant of the present invention prevents peeling (departure) and the like on the surface while extending the life of the finish even when using the finish of the resin composition of weak durability, in particular to suppress the damage to the finish and ultimately extend the structure life. The present invention has been proposed.

The present invention has been proposed in order to solve the conventional problems as described above, the object of the aspect, the pre-treatment operation as in the past, during the finishing treatment by spraying (coating), such as polyurea for the method, waterproof, reinforcement of the structure surface In other words, the present invention provides a surface finishing structure that shortens the air by eliminating the need for surface cleanup.

In addition, another object of the present invention is to prevent finishes such as epoxy, urethane, polyurea, etc., which are treated or applied to the surface of the structure from being detached from the surface of the structure, as well as strengthening the durability of the treated finish. It is to provide a surface finish structure to prevent the damage to the finish material.

As a technical aspect for achieving the above object, the present invention, the finishing material is a structure;
Finishing layer reinforcing means provided on the surface of the structure, including a reinforcing net and the anchor member installed on the structure to fix the reinforcing net; And,
A finishing layer formed over the structure surface and the reinforcing means;
It is configured to include, the anchor member is fixed to the anchor member to cover the anchor member is provided on the finish, and provides a surface finish structure further comprises a cover body extending along the placement path of the anchor members.

delete

delete

delete

delete

delete

delete

According to the surface finishing structure of the present invention, when the method or waterproof finish of the surface of the structure, the improved effect of reducing the cost by reducing the construction air by eliminating the need for pre-treatment, that is, the surface pre-treatment, such as conventional To provide.

In addition, the present invention not only prevents finishes such as epoxy, urethane, polyurea, etc. treated or applied to the surface of the structure from being detached (peeled) from the surface of the structure, but also has other effects of preventing damage to the treated finish. to provide.

Thus, the present invention ultimately provides an excellent effect of inhibiting the surface corrosion of the structure and in particular extending the life of the treated finish.

In addition, in the case of the present invention is made of a stable spray coating of the finishing material, such as the vertical surface or the ceiling of the structure, to provide other excellent effects to improve the finish treatment of the structure, whether dry or wet.

Hereinafter, the preferred embodiment of the present invention according to the accompanying drawings.

First, Figures 3 and 4 show the construction of the surface finishing structure (of the structure) according to the present invention in a perspective view and a structural diagram.

That is, as shown in Figures 3 and 4, the surface finish structure of the present invention, the structure 10 is a finish material is processed, the finishing layer reinforcement means 30 provided on the surface of the structure 10, It may be configured to include a finishing layer 50 formed on the surface of the structure over the reinforcing means.

Accordingly, in the case of the surface finishing structure 1 according to the present invention, since it is constructed including the reinforcing means 30 differently from the conventional method of FIG. 1, in particular, the surface waterproofing or anticorrosion treatment of the concrete structure 10 (corrosion treatment) It is to greatly enhance the durability of the finish layer 50 formed by spraying or applying for processing.

Meanwhile, in the drawings, the structure 10 may be provided as a concrete structure, for example, a steel structure such as a concrete structure or a large steel pipe used in a water treatment facility. However, in the case of a steel structure is to weld the anchor member.

At this time, as shown in Figure 4, the finishing layer 50, as will be described again in Figure 7 below, one or more finishing materials 52, 54, 56 in a multi-layer (top, middle) in the form of spraying or coating , Undercoat, etc.).

As shown in FIG. 7, the finishing layer 50 may be formed of at least one of an epoxy finish 52, a primary or secondary polyurea finish 54, 56, or a polyethylene finish.

Next, as shown in Figures 3 and 4, in the surface finish structure (1) of the present invention, the finishing layer reinforcing means 30, the reinforcing net 32 and the reinforcing net 32 to be constructed in a structure to fix It can be configured to include the anchor member 34.

That is, as shown in Figure 3, the concrete structure 10, the anchor member 34, i.e., anchor bolts are first constructed in a predetermined pattern, and then the reinforcing mesh 32 of the reinforcing means is washed on the anchor member 34 (W). ) And nuts (N).

And, as shown in FIG. 4, the unit reinforcement nets 32 overlap with each other and fix the connection member C, that is, wire.

3 and 4, the reinforcing net 32 of the finishing layer reinforcing means 30 may be formed of one of steel, glass fiber, carbon fiber.

For example, it is most preferable to use a reinforcement net in the form of a screen net of a material having strength and light weight.

On the other hand, preferably, the reinforcing net 32 is preferably provided with a micropore (mesh) as possible, for example, the finer the mesh of the reinforcing net, the more the finish material is sprayed or applied to the reinforcing net in advance to finish the structure This is because the overall method, to increase the waterproof efficiency.

Thus, as will be described later in FIG. 5, the reinforcing net 32 can be sprayed or applied onto at least one surface before being constructed on the structure 10.

On the other hand, as shown in Figure 4 and 5, while covering the anchor member 34 of the reinforcing means 30 to block the corrosion of the anchor member, that is, anchor bolts and the finishing material 52 or 54 thereon is processed It may further include a cover body for forming the finish layer (50).

For example, as shown in Figures 3 and 4, the anchor bolt that is the anchor member 34 passes through the reinforcing net 32 and is fastened with a nut (N) through the washer (W) or the cover Can be fixed by sieving.

At this time, as shown in Figure 3 and 4, the cover body 70 is provided as a resin molding that is stretched along the anchor bolt arrangement path, which is an anchor member 54 which is constructed on the structure 10 and secures the reinforcing net 52. Can be.

For example, a curved cover body 70 made of high density polyethylene or the like having excellent corrosion resistance and strength can be used.

At this time, the inner surface of the cover body 70 may further include an anchor member fixing portion 72 to which the upper end of the anchor member 34 is fitted.

That is, when the cover body 70 is pressed against the top of the anchor bolt, which is the anchor member 34 fastened to the structure and the reinforcing net by the nut N, the anchor bolt is fixed to the fixing part 72 of the cover body. The cover 70 can be constructed on the reinforcement net from the surface of the structure by being fitted with this interference fit.

On the other hand, as shown in Figure 4, the anchor member fixing portion 72 of the cover body 70 may include an anchor member fixing groove portion 72a is formed so that the anchor bolt is fixed by fitting.

Alternatively, as shown in Figure 4, the anchor member fixing portion 72 may include a second fixing groove 72b of the long hole elongated to facilitate the fixing of the anchor member.

Alternatively, as shown in FIG. 4, the anchor member fixing part 72 is elongated along the cover body in the cover body 70 and is continuously formed integrally so that the anchor bolt is easily fitted and secured to the third elongated third fixing member. The groove portion 72c may be included.

On the other hand, as shown in Figure 5, the anchor member fixing portion 72 of the cover body 70 is also formed integrally on the lower end of the reinforcing mesh pressing portion 74 for pressing and fixing the reinforcing net 32 desirable.

In this case, the anchor bolt which is the anchor member 34 constructed in the structure 10 is constructed, and the fixing part 72 of the cover body 70 is not fastened as the washer W and the nut N as shown in FIG. The fitting portion 74 will be able to secure the reinforcing mesh at the structure surface while pressing the reinforcing mesh 32.

On the other hand, as shown in Figure 6, the cover body 70 'of the present invention is a magnetic force to the circular metal plate 72' fastened to the anchor member 34 passed through the reinforcing net 32 of the reinforcing means 30 It may be provided as a rubber magnetic plate extended along the arrangement path of the anchor member while pressing and fixing the reinforcing net.

Therefore, in the case of the cover body 70 'of the rubber magnetic plate of Figure 6, by fastening the circular metal plate 72' with a screw groove formed in the center of the coupling function of the washer and nut to the anchor member 34, which is an anchor bolt Once the reinforcing nets are fixed, and the cover body 70 'of the rubber magnetic plate is covered thereon, the cover body will be tightly attached and fixed to the circular metal plate by magnetic force.

At this time, in Figures 4 to 6, the reference numeral H is an anchor bolt hole drilled into the structure, M is a rapid curing agent that is filled in this hole, that is, mortar.

On the other hand, look at the construction step of the surface finishing structure of the present invention, as shown in Figure 3, the construction of the anchor member 34 of the reinforcing means to the concrete structure 10 or steel structure, and reinforcement to the anchor member Fixing the reinforcement net 32 of the means 30 and forming or forming a finish layer 50 by spraying or applying one or more finishes on the reinforcement net.

Therefore, after the reinforcing net 32 is constructed on the surface of the structure by the anchor member 34, the finishing material is processed thereon to form the finishing layer 50, so that the method of waterproofing, waterproofing efficiency, as well as durability thereof. It is very high.

At this time, as shown in Figures 4 and 7, the finishing layer 50 is treated by spraying or applying the finish 52 of the epoxy-based primer primarily on the reinforcing net, and the primary or secondary polyurea thereon The second and third finishing materials 54 and 56 to the base material and the finishing material may be sprayed or applied to finally process the finishing layers 50 of the upper, middle, and lower roads.

However, preferably as shown in Figure 5, although schematically shown in the drawings, spraying or applying the finish (54a) to at least one side of the reinforcing net 32 of the reinforcing means 30 of the present invention, the finish is treated The reinforcing net 32 is applied to the structure treated with the primary epoxy primer finish 52, and as described above, it is constructed with the anchor member and the cover body, and again on the secondary (base) and tertiary (for finishing) The finishing materials 54b and 56 are sprayed or applied to finally form the upper, middle, lower and middle roads in the form of a double finishing material.

Of course, the reinforcing net 32 is, as described above, it is preferable to use a reinforcing net formed with fine pores (fine mesh) to accommodate the spraying of the finishing material, such as polyurea.

On the other hand, the epoxy primer finish 52 of FIG. 7 serves as an adhesive layer to allow the second and third polyurea finishes 54 and 56 to adhere well to the structure surface.

In addition, polyurea is used as a finishing material for the waterproofing, anticorrosion of the surface of the structure of the root concrete or steel, such a polyurea is a resin finishing material such as epoxy-based, polyurethane, polyethylene mainly used as a conventional finishing material It is known that coating film properties, corrosion resistance, durability, etc. are more excellent.

Accordingly, the surface finishing structure according to the present invention described so far includes reinforcing means to facilitate the treatment of the structure of the finishing material, increase its durability, and extend the life of the finishing layer itself.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be modified and modified in various ways without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a schematic perspective view showing a state of treating a finish such as polyurea for anticorrosion or waterproofing on the surface of a conventional structure

Figure 2 is a view for explaining a problem that occurs when there is no surface pretreatment operation of the structure to be processed conventional finish

3 is a schematic perspective view of a surface finish structure according to the present invention;

4 is a structural diagram showing a surface finishing structure according to the present invention of FIG.

5 is a structural diagram showing another surface finishing structure of the present invention

Figure 6 is a structural diagram showing another surface finishing structure of the present invention

Figure 7 is a schematic diagram showing the finish of the finish layer applied to the present invention

Explanation of symbols on the main parts of the drawings

1 .... surface finish structure 10 .... structure

30 .... Finish layer reinforcement means 32 .... Reinforcement net

34 .... Anchor member 50 .... Finishing layer

52,54,56 .... Finished material 70,70 '.... Cover

72 .... anchor member

Claims (11)

A structure 10 in which the finish is processed; A finishing layer reinforcing means (30) provided on the surface of the structure (10), including a reinforcing net (32) and anchor members (34) installed on the structure to fix the reinforcing net (32); And, A finishing layer 50 formed on the structure surface and the reinforcing means; Consists of including The surface finishing structure is fixed to the anchor member to cover the anchor member 34, the finish is processed on top, and further comprising a cover body extending along the placement path of the anchor members (54). The method of claim 1, The finish layer 50 is a surface finish structure, characterized in that formed by spraying or coating at least one or more of the primer finish, the primary background finish and the secondary finish. delete The method of claim 1, The reinforcing net 32 of the finishing layer reinforcing means is a surface finishing structure, characterized in that formed of one of steel, glass fiber and carbon fiber. delete The method of claim 1, The anchor member (34) is a surface finishing structure, characterized in that the nut is fastened through the reinforcing net or fixed to the cover body thereon. 7. The method according to claim 1 or 6, The cover body 70 is provided as a resin molding, the surface finishing structure, characterized in that it further comprises an anchor member fixing portion 72 is fitted to the top of the anchor member. The method of claim 7, wherein The anchor member fixing portion 72 of the cover body is characterized in that the surface finishing structure further comprises a reinforcing net pressing portion 74 for pressing and fixing the reinforcing net. delete delete delete

Images