KR101542804B1 - Method enhance cleaning of equipment leaks - Google Patents

Abstract

The present invention relates to a water leakage enhancing method of a cleaning facility, and more particularly, to a method of enhancing water leakage of a cleaning facility, Coating the bottom surface of the cleaning equipment with an elastic material; An FRP coating step of coating a bottom surface and a wall surface of the cleaning equipment coated with the elastic material with a UV curing epoxy acrylate resin or a composition comprising urethane acrylate resin and a fiber material and UV curing; Coating the surface of the FRP coating with a composition comprising solventless UV curing epoxy acrylate or urethane acrylate resin and carbon powder and UV curing; And coating the surface of the UV coating with Teflon, thereby completing the water leakage reinforcement method.

Description

Technical Field [0001] The present invention relates to a method for enhancing leakage of equipment,

The present invention relates to a leakage reinforcement method of a cleaning facility.

Generally, facilities such as power plants, steel mills, oil / refinery plants, electronics, electricity, buildings, leisure industry, ships and various factories supply, transport and discharge raw materials according to their purpose of establishment or products to be produced. Various types of piping, ducts for ventilation, cleaning equipment, and the like are installed and operated.

As such, industrial equipment, such as pipes, ducts, and cleaning equipment, are constructed and connected to each other by a plurality of components connected to each other and installed in a process of producing a specific product. Cracks and breakage are generated, so that a large amount of cost is spent in maintenance and management thereof.

For example, in the case of cleaning tanks contained in semiconductor cleaning equipment, which is one of the industrial facilities, due to the nature of the application, chemicals (strong acid) are mainly dewatered in the interior, so that partial corrosion and cracking in the washing tank made of plastic or stainless steel Conventionally, the entire operation of the semiconductor production facility is stopped, and the operation is restarted after replacing with the new washing tank. Therefore, the cost of the disposal of the washing tank and the cost of the purchase of the new washing tank are economically burdened And there were many problems such as waste of resources and mass production of industrial waste.

On the other hand, in the case of pipes and vent ducts included in semiconductor production facilities, a part of pipes or ducts, which are mostly made of a metal material, are cracked and broken by chemicals moving through the inside thereof, wastewater, exhaust gas and steam, There are frequent problems such as leaking of moving materials to the outside and contamination of a work site. Conventionally, the inside of the pipe and the ventilation duct is replaced with a new one, And then the pipe or ventilation duct was opened to be re-operated.

However, such repair work of piping or ventilation ducts requires a lot of time to open / close the equipment, that is, to operate and restart the equipment, or to repair the equipment. In addition to this, the productivity is lowered and the airtightness of the welded cracks is lowered, As a result, the cost of the maintenance has been a heavy burden on the user, and since a predetermined space has to be secured in order to perform a smooth welding operation in repair work, maintenance work in a narrow space can not be performed, And the risk of explosion or fire in response to the spilled material generated by the welding is contained in the welding process, so that the application range and location of the welding work are extremely limited.

Patent Registration No. 10-0637865 (October 23, 2006)

The present invention is capable of enduring vibration due to external impact and facility operation, coating the entire floor and walls of the facility with an eco-friendly material to enhance the work environment by using an environmentally friendly method, and smoothly adhering the surface of the coated part The present invention aims to provide a leakage-strengthening method for a cleaning facility that is coated with a sealant to reinforce the sealant, and is finished with a highly corrosion-resistant, chemical-resistant Teflon on the final surface of the portion reinforced by the coating (the final surface with which the chemical liquid comes into contact).

According to another aspect of the present invention, there is provided a water leakage enhancing method of a cleaning facility, comprising: (S10) cleaning the cleaning facility and reinforcing a weak portion of the cleaning facility; Coating a bottom surface of the cleaning equipment with an elastic material (S20); An FRP coating step (S30) of coating and UV-curing a composition comprising solventless UV curing epoxy acrylate resin or urethane acrylate resin and a fiber material on a bottom surface and a wall surface of a cleaning facility coated with the elastic material; A UV coating step (S40) of coating a surface of the FRP coating with a composition of solventless UV curing epoxy acrylate or urethane acrylate resin and carbon powder and UV curing; And a step (S50) of coating the surface of the UV coating with Teflon (S50), thereby completing the water leakage reinforcement method.

According to the water leakage reinforcement method of the washing facility according to the present invention, since the material is coated with odorless / non-toxic materials, the working environment is improved and the productivity is improved.

In addition, it can withstand external shocks and vibrations caused by operation of the equipment.

In addition, the bottom and walls of the facility are integrally coated with an eco-friendly material and reinforced, and the surface of the coated portion is smoothly coated with the coating, thereby enhancing the airtightness.

In addition, since the final surface of the coated portion is finished with Teflon, corrosion resistance and chemical resistance are improved.

1 is a view showing a state where cracks are generated in a cleaning facility,
FIG. 2 to FIG. 6 sequentially illustrate a method for repairing and reinforcing the crack occurrence site of FIG. 1; FIG.

The present invention is capable of enduring vibration due to external impact and facility operation, coating the entire floor and walls of the facility with an eco-friendly material to enhance the work environment by using an environmentally friendly method, and smoothly adhering the surface of the coated part To a method of reinforcing a leakage of a cleaning facility which is coated with a sealant and which is finished with a highly corrosion-resistant, chemical-resistant Teflon on a final surface (a final surface with which a chemical liquid contacts) of a portion reinforced by a coating.

According to another aspect of the present invention, there is provided a water leakage enhancing method of a cleaning facility, comprising: (S10) cleaning the cleaning facility and reinforcing a weak portion of the cleaning facility; Coating a bottom surface of the cleaning equipment with an elastic material (S20); An FRP coating step (S30) of coating and UV-curing a composition comprising solventless UV curing epoxy acrylate resin or urethane acrylate resin and a fiber material on a bottom surface and a wall surface of a cleaning facility coated with the elastic material; A UV coating step (S40) of coating a surface of the FRP coating with a composition of solventless UV curing epoxy acrylate or urethane acrylate resin and carbon powder and UV curing; And coating the surface of the UV coating with Teflon (S50).

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DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1, the water leakage enhancing method of the cleaning facility 100 according to the present invention may include a maintenance and repair operation (for example, a crack 101) of a weak portion (e.g., a crack 101) Is applied when required.

2 to 6, a step (S10) of washing the cleaning equipment 100 and reinforcing the weak parts of the cleaning equipment 100, and a step (S10) of applying the elastic material 20 to the bottom surface of the cleaning equipment 100 Coating a bottom surface and a wall surface of a cleaning apparatus 100 coated with the elastic material 20 with a composition of a UV-curable epoxy acrylate resin or a urethane acrylate resin and a fiber material, (Ultrafine) curing FRP (fiber reinforced plastic) coating 30 on the surface of the FRP coating 30, a UV curable epoxy acrylate or urethane acrylate resin and carbon powder on the surface of the FRP coating 30 A leak-tightening method including a UV curing 40 step S40 and a step S50 coating the surface of the UV coating 40 with Teflon 50 is applied.

(S10) is a step of reinforcing a weak portion of the cleaning equipment 100, such as surface foreign matter removal and cleaning of the cleaning equipment 100, crack 101, and the like. The portion where the crack 101 is generated is reinforced by welding, putty or the like.

(S20) is a step of coating the bottom surface of the cleaning apparatus 100 with an elastic material 20, and the bending elastic effect of the material itself of the cleaning apparatus 100 may cause a vibration and cracks To prevent the phenomenon. The elastic material 20 is used for reinforcing the bottom surface of the cleaning facility 100 as an odorless, non-toxic high-strength filler (high elasticity, high-flexural urethane-based resin formulation).

(S30) may be performed by coating a bottom surface of the cleaning apparatus 100 coated with the elastic material 20 and a wall surface of the cleaning apparatus 100 with a composition of a UV-curable epoxy acrylate resin or a urethane acrylate resin and a fiber material And is UV cured. This step is odorless, non-toxic, and strengthens the entire floor and wall integrally due to the high strength FRP coating 30.

(S40) is a UV coating (40) step of coating and UV curing a composition comprising solventless UV curable epoxy acrylate or urethane acrylate resin and carbon powder on the surface of the FRP coating (30) S30), the bottom surface and the wall surface of the cleaning facility 100 are coated to reinforce the sealing weakness.

(S50) is a step of coating the surface of the UV coating 40 with Teflon 50 to finish the final surface of the coated area with Teflon 50 having corrosion resistance and chemical resistance.

Since steps (S20) to (S50) are environmentally friendly as odorless and non-toxic, it is possible to improve the work efficiency of the worker, thereby shortening the construction time and achieving a perfect sealing effect with an integral structure. As a result, physical and chemical resistance is maximized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will readily occur to those skilled in the art without departing from the spirit and scope of the invention. Therefore, it should be understood that the disclosed embodiments are to be considered in an illustrative rather than a restrictive sense, and that the true scope of the invention is indicated by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof, .

100: Cleaning facility 101: Crack
11: welding 20: elastic material
30: FRP coating 40: UV coating
50: Teflon

Claims (3)

In a leakage reinforcement method of a washing facility,
A step (S10) of cleaning the cleaning equipment and reinforcing the weak part of the cleaning equipment;
Coating a bottom surface of the cleaning equipment with an elastic material (S20);
An FRP coating step (S30) of coating and UV-curing a composition comprising solventless UV curing epoxy acrylate resin or urethane acrylate resin and a fiber material on a bottom surface and a wall surface of a cleaning facility coated with the elastic material;
A UV coating step (S40) of coating a surface of the FRP coating with a composition of solventless UV curing epoxy acrylate or urethane acrylate resin and carbon powder and UV curing;
Coating the surface of the UV coating with Teflon (S50);
Wherein the water leakage enhancing method comprises the steps of:
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