KR101532374B1 - Anticorrosion waterproof construction method using fluoride resin in ozone resistance tank, construction structure thereof and construction tool thereof - Google Patents

Abstract

The purpose of the present invention is to provide an anticorrosion waterproofing method using a fluoride resin inside an ozone resistance tank with excellent workability and constructability and high ozone resistance. An anticorrosion waterproofing method using a fluoride resin inside an ozone resistance tank according to one embodiment of the present invention includes a first step of preparing anticorrosion waterproof sheets made of a thermosetting fluoride resin and including an adhesive layer on one surface; a second step of attaching the anticorrosion waterproofing sheet on the surface of the concrete ozone resistance tank using the adhesive layer and attaching the adjoining anticorrosion waterproof sheets to face each other; and a third step of welding a welding sheet having a melting point, lower than the anticorrosion waterproof sheets, on the anticorrosion waterproof sheets attached to face each other.

Description

Technical Field [0001] The present invention relates to a waterproof construction method using a fluororesin in an ozone treatment tank, a construction method of the waterproof construction method, and a construction tool using the fluororesin in an ozone treatment tank,

The present invention relates to a method of waterproofing construction using fluorine resin in an ozone treatment tank applied to an ozone treatment tank or an chemical resistant tank installed in the middle of supplying tap water to a household from a water purification plant to supply ozone to passing tap water, To a construction tool.

For example, a water purification plant has a plurality of treatment tanks, and treats the water taken from the water source in a plurality of tanks to purify the water in the first tier. In other words, the tap water supplied from the water purification plant is the first water.

The tap water supplied from the water purification plant is sterilized with ozone and chlorine supplied from the ozone treatment tank and supplied to each household via the reservoir. At this time, ozone corrodes the ozone treatment tank. Therefore, the ozone treatment tank needs to have strong ozone resistance.

As an example, when a room temperature curing type fluorine paint was applied to the ozone treatment tank, the coating film deteriorated for only several months in an ozone environment of 3 ppm. That is, room temperature curing type fluorine paint did not have the required ozone resistance in the ozone treatment tank.

As another example, a material excellent in ozone resistance includes a thermosetting fluororesin having a heat resistance of 400 占 폚. When the thermosetting fluorine resin was melted and applied to the ozone treatment tank at a high temperature, the surface of the ozone treatment tank was burnt and deformed. In other words, the workability and workability were low and it was not realistic.

An object of the present invention is to provide a method of waterproofing construction using fluororesin in an ozone treatment tank having excellent workability and workability and having high ozone resistance. An object of the present invention is to provide a construction structure constructed by the above-mentioned construction method. Another object of the present invention is to provide a construction tool for constructing the construction structure by the construction method.

A method of waterproofing construction using a fluororesin in an ozone treatment tank according to an embodiment of the present invention includes a first step of preparing a waterproofing sheet made of a thermosetting fluororesin and having an adhesive layer on one surface thereof, A second step of attaching the waterproof type sheet to the surface of the ozone tank with the adhesive layer and attaching the neighboring waterproof type sheets by butt welding on the surface of the ozone tank, And a third step of welding with a sheet.

The second step may further fix the waterproof sheet to the surface of the ozone-resistant tank with a fixing member.

In the second step, a material such as the waterproof sheet or the welding sheet or a stainless steel washer may be interposed between the fixing member and the waterproof sheet.

The second step may seal the space between the fixing member and the waterproof sheet by attaching a waterproof sheet to the waterproof sheet while covering the fixing member.

In the third step, the welding sheet is heated to a melting point and pressurized to dissolve the welding sheet and weld the end portion of the waterproof type sheet which is in contact with the welding sheet.

In the first step, a finishing groove may be formed on the surface of the ozone-resistant tank higher than the highest water level.

A method of waterproofing a waterproofing sheet using a fluororesin in an ozone treatment tank according to an embodiment of the present invention is characterized in that the step of waterproofing is performed by positioning the end of the waterproof sheet in the finishing groove, And a fourth step of pressing the end portion of the guide groove into the finish groove.

A method for waterproofing a system using a fluororesin in an ozone treatment tank according to an embodiment of the present invention is characterized in that the ozone resistant tank is provided with a cover made of a thermosetting fluororesin, And a fifth step of covering the water surface.

The construction structure for waterproofing the system using fluororesin in the ozone treatment tank according to an embodiment of the present invention includes a concrete structure for forming an ozone-resistant tank, a concrete structure attached to the surface of the concrete structure as an adhesive layer, And a welding sheet having a melting point lower than that of the waterproof sheet on the waterproof sheet on both sides of the waterproof sheet.

The waterproof sheet may further be fixed to the surface of the ozone-resistant tank with a fixing member.

The construction structure for waterproofing the system using fluororesin in the ozone treatment tank according to an embodiment of the present invention may include a material such as the waterproof sheet or the welding sheet or stainless steel And a washer made of steel.

The construction structure of the waterproof type using the fluororesin in the ozone treatment tank according to an embodiment of the present invention is attached to the waterproof type sheet while covering the fixing member so as to seal between the fixing member and the waterproof type sheet It may further include a tarp.

The welded sheet can be welded to the end of the waterproof sheet which is heated to a melting point and pressurized.

The ozone-resistant tank may have a finishing groove on a surface higher than the highest water level.

In a waterproof construction structure using a fluororesin in an ozone treatment tank according to an embodiment of the present invention, an end portion of the waterproof sheet is placed in the finish groove, and an end portion of the waterproof sheet is pressed, And may further include an interference fit member.

According to an embodiment of the present invention, the construction structure for waterproofing the system using fluororesin in the ozone treatment tank may further include a cover which is made of thermosetting fluororesin and covers the surface of the ozone-resistant tank in the ozone-resistant tank.

A tool for waterproofing a system using fluororesin in an ozone treatment tank according to an embodiment of the present invention is a waterproof type sheet made of a thermosetting fluororesin which is adhered to the surface of a concrete structure of an ozone- A body disposed on the waterproof sheet on both sides of the waterproof sheet and heating and pressing a welding sheet having a lower melting point than the waterproof sheet, and an electric heater built in the body to generate heat.

The body may have a second width that is narrower than the first width of the weld sheet.

According to one embodiment of the present invention, a waterproof sheet made of a thermosetting fluororesin is attached to the surface of an ozone-resistant tank with an adhesive layer, and the end of the waterproof sheet is welded with a welding sheet. There is an effect that it is easily installed on the surface.

That is, the waterproof sheet is excellent in workability and workability, and the ozone-resistant tank can have high ozone resistance on the surface of the concrete structure by the waterproof sheet made of the thermosetting fluororesin.

1 is a cross-sectional view of a construction structure according to a method of waterproof construction using fluororesin in an ozone treatment tank according to a first embodiment of the present invention.
2 is a perspective view of a waterproof sheet applied to FIG.
3 is a state in which a waterproof sheet is applied to the surface of the ozone-resistant tank.
Fig. 4 is a state diagram for connecting a waterproof type sheet.
5 is a cross-sectional view taken along the line V-V in FIG.
6 is a perspective view of a construction tool for welding a waterproof sheet.
FIG. 7 is a partial cross-sectional perspective view of the construction structure in which the processes of FIGS. 1 to 6 are performed. FIG.
8 is a cross-sectional view of a state in which the end portion of the waterproof sheet is fixed to the ozone-resistant tank.
9 is a cross-sectional view of a construction structure according to a method of waterproof construction using fluororesin in an ozone treatment tank according to a second embodiment of the present invention.
Figure 10 is a plan view of the lid in Figure 9;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a cross-sectional view of a construction structure according to a method of waterproof construction using fluororesin in an ozone treatment tank according to a first embodiment of the present invention. Referring to FIG. 1, a construction waterproofing construction 100 using a fluorocarbon resin in an ozone treatment tank is installed in an ozone resistant tank 10 according to a system waterproof construction method using the fluororesin in the ozone treatment tank of the first embodiment. A waterproof sheet 20 may be formed.

In order to avoid duplication of explanation, the method of waterproofing construction using fluororesin inside the ozone treatment tank and the construction construction 100 and the construction tool 200 used therein will be described together with necessary parts.

FIG. 2 is a perspective view of a waterproof sheet applied to FIG. 1, FIG. 3 is a state in which a waterproof sheet is installed on a surface of an ozone resistant tank, FIG. Sectional view taken along line V-V of FIG.

2 to 5, the method of waterproofing the interior of the ozone treatment tank using the fluororesin includes a first step (FIG. 2) of preparing the waterproofing sheet 20, a step of attaching the waterproofing sheet 20 And a third step (FIG. 4) of welding the second step (FIG. 3) and the waterproofing sheet 20.

2, the waterproof sheet 20 is prepared. The waterproofing sheet 20 is made of a thermosetting fluororesin and has an adhesive layer 21 on one side and is provided in a roll state with a width W set through the release paper 22 to the adhesive layer 21.

The thermosetting fluororesin is also called a teflon sheet and has a melting point of 300 to 400 캜. The waterproof sheet 20 is provided on the bottom and wall surfaces of the ozone-resistant tank 10 to impart ozone resistance to the concrete structure of the ozone-resistant tank. The waterproof sheet 20 may also be installed on the ceiling of the ozone-resistant tank 10 as shown in FIG. 1 (advantageous line).

The ozone-resistant tank 10 can be applied to an ozone treatment tank or a chemical-resistant tank provided between a water purification plant and a drainage tank. Hereinafter, the ozone-resistant tank 10 applied to the ozone treatment tank will be described as an example for convenience.

That is, tap water purified in a water purification plant flows into the inlet 11 of the ozone-resistant tank 10, and ozone is sprayed into the introduced tap water through a supply port 12 to be dissolved at a set value (for example, 10 ppm) And disinfected tap water flows out to the outlet 13.

The waterproofing sheet 20 is installed on the surface of the ozone-resistant tank 10 to prevent the concrete structure from being corroded from the ozone sprayed into the tap water by blocking the contact of the dissolved ozone water with the concrete structure.

3, the waterproof type sheet 20 is attached and fixed to the surface of the ozone resistant tank 10 made of a concrete structure with the adhesive layer 21, and the neighboring waterproof type sheet 20 is adhered and attached .

That is, the second step is to release the waterproof sheet 20 from the roll state, cut the sheet 20, separate the release paper 22 from the cut waterproof sheet 20, and remove the adhesive layer 21 from the surface of the ozone resistant tank 10 Wall and floor and ceiling (if necessary).

Of course, the surface of the ozone-resistant tank 10 is arranged before the waterproofing sheet 20 is attached so that the adhesive layer 21 can be firmly attached to the surface of the concrete structure.

The second step further secures the waterproof sheet 20 to the surface of the ozone-resistant tank 10 with the fixing member 23. The fixing member 23 penetrates the waterproofing sheet 20 and is embedded in the ozone-resistant tank 10. That is, the waterproof sheet 20 is entirely attached to the surface of the ozone-resistant tank 10 by the adhesive layer 21 and further fixed at a predetermined interval by the fixing member 23.

The waterproofing sheet 20 can be partially separated from the surface of the ozone-resistant tank 10 by partial peeling of the adhesive layer 21, The ozone-resistant tank 10 can be kept fixed to the surface of the ozone-resistant tank 10 as a whole.

In the second step, the washer 24 may further be interposed between the fixing member 23 and the waterproofing sheet 20. For example, the washer 24 may be formed of the same material as the waterproof sheet 20 or the weld sheet 30, and may be formed of stainless steel.

3, the washer 24 is fixed by sandwiching the fixing member 23 to the fixing member 23 before putting the fixing member 23 into the ozone resistant tank 10 and by installing the waterproof type sheet 20 with the fixing member 23, Is interposed between the member (23) and the waterproof type sheet (20).

The washer 24 seals between the waterproof type sheet 20 and the fixing member 23 penetrated by the fixing member 23 and the head portion of the fixing member 23 completely passes through the waterproof type sheet 20 ≪ / RTI > Therefore, the fixing member 23 can pressurize the waterproof type sheet 20 through the washer 24 and firmly fix the waterproof type sheet 20 to the ozone resistant tank 10 continuously.

In addition, the second step can be attached to the waterproof type sheet 20 while covering the fixing member 23 with the waterproof film 25. The waterproofing film 25 seals between the fixing member 23 and the waterproofing sheet 20, between the fixing member 23 and the washer 24, and between the washer 24 and the waterproofing sheet 20.

That is, the waterproof film 25 seals the periphery of the fixing member 23. Therefore, even when the waterproof sheet 20 is installed using the fixing member 23, the tap water in which ozone is dissolved does not pass through the waterproof sheet 20 through the fixing member 23 side.

In the second step, when the waterproof sheets 20, 20 are continuously installed in the width W direction, the side surfaces of the two end portions of the waterproof sheets 20, 20 that are cut are attached to each other in a continuous manner against each other. This is because it is difficult to superimpose the waterproof type sheets 20 made of the thermosetting fluororesin and firmly attach them.

4 and 5, the waterproof sheets 20 and 20 on both sides are welded to the weld sheet 30. The welding sheet 30 is melted to have a melting point lower than that of the waterproofing sheet 20 so as to be melted to be attached to both ends of the waterproofing sheets 20 and 20 and to melt between the ends of the waterproofing sheets 20 and 20 Weld (31).

That is, in the third step, the welding sheet 30 is heated to the melting point or higher than the melting point by the construction tool 200 and pressurized to partially melt the welding sheet 30 to firmly hold the end portions of the waterproof sheets 20, Welding (31) can be performed.

At this time, the safety cover 32 is used to prevent the welding sheet 30 from directly contacting the construction tool 200 and melting. That is, when the welding sheet 30 is melted and welded with the construction tool 200, the safety cover 32 prevents the welding sheet 30 from melting on the construction tool 200 and damages the waterproofing sheet 20 prevent.

6 is a perspective view of a construction tool for welding a waterproof sheet. Referring to FIG. 6, the construction tool 200 includes a body 201 for heating and pressing the welding sheet 30, and an electric heater 202 built in the body 201 to generate heat.

The body 201 may have a second width W2 that is narrower than the first width W1 of the weld sheet 30. [ When the narrowing body 201 of the second width W2 moves while heating and pressing the welding sheet 30 when the construction tool 200 is operated by holding the grip 203, Can be facilitated.

In addition, the body 201 is formed with a pointed tip so that the space between the opposite ends of the waterproof type sheets 20, 20 can be intensively heated and pressed. Therefore, the welding sheet 30 can be densely melted between both ends of the waterproof type sheets 20 and 20 so that both ends can be welded 31 more firmly.

The first embodiment shows an example in which the waterproof type sheets 20 and 20 are installed on the wall surface of the ozone resistant tank 10 which is a concrete structure and the welding sheet 30 is welded. The bottom surface of the ozone-resistant tank 10 can also be applied as in the first embodiment (not shown).

FIG. 7 is a partial cross-sectional perspective view of the construction structure in which the processes of FIGS. 1 to 6 proceed, and FIG. 8 is a cross-sectional view of a state in which the end portion of the waterproof sheet is fixed to the ozone resistant tank.

Referring to Figs. 1, 7 and 8, the first step forms a finishing groove 14 in a wall surface higher than the maximum water level HL in the ozone-resistant tank 10. In this case, the finishing groove 14 may be formed at the same time as the step of arranging the surface of the ozone-resistant tank 10, or the finishing groove 14 may be formed before the surface finishing.

In the case where the finishing groove 14 is provided, the method of waterproof construction using fluororesin in the ozone treatment tank may further include the fourth step of FIG. 7 and FIG. 8, following the third step. That is, in the fourth step, the end portion of the waterproof type sheet 20 is positioned in the finishing groove 14 and the end portion of the waterproof type sheet 20 is pressed by the fitting member 15 to the finish groove 14.

The shim member 15 may be formed of a tube made of the same material as the stainless steel tube or the waterproof type sheet 20 having strong ozone resistance. Since the fitting member 15 is formed of a tubular body, when the finishing groove 14 is not formed in a uniform size, it can be easily inserted into the finishing groove 14 while being distorted and deformed.

At this time, since the upper end of the waterproof type sheet 20 is partly rolled up and is forced into the finish groove 14, the upper end of the waterproof type sheet 20 is firmly fixed to the wall surface of the ozone resistant tank 10 . Thus, tap water in which ozone is dissolved does not flow into the ozone-resistant tank 10 beyond the upper end of the waterproof type sheet 20 and into the concrete structure side.

On the other hand, the Korea Waterworks Association standards require that waterproof sheets used for ozone treatment tanks should be free from waterproof sheets when they are immersed in water with an ozone concentration of 10 ppm for 28 days.

As a result of the experiment based on this standard, no special phenomenon occurred in the waterproof sheet 20 of the first embodiment. The test method is to check the appearance of the waterproof type sheet 20 wound around the glass substrate by dipping the waterproof type sheet 20 as a sample on a glass substrate for 28 days in water having an ozone concentration of 10 ppm.

A second embodiment of the present invention will be described below. The description of the same configuration as that of the first embodiment will be omitted and different configurations will be described. In the first embodiment, the waterproof sheet 20 is installed on the wall surface up to a level slightly higher than the maximum water level HL or the maximum water level HL in the ozone-resistant tank 10, .

FIG. 9 is a cross-sectional view of a construction structure according to a method of waterproof construction using a fluororesin in an ozone treatment tank according to a second embodiment of the present invention, and FIG. 10 is a plan view of the cover in FIG. 9 and 10, in the ozone-resistant tank 10 of the second embodiment, the waterproof sheet 50 is formed on the entire wall surface except for the ceiling to form the construction structure 500.

The method of waterproofing construction using fluororesin in the ozone treatment tank of the second embodiment further includes the fifth step following the fourth step. In the fifth step, the ozone-resistant tank 10 is further provided with a cover 60 made of a thermosetting fluororesin.

The lid 60 covers the water surface of the ozone-resistant tank 10 and can prevent ozone dissolved in tap water from evaporating and coming into contact with the ceiling. For example, the lid 60 has perforations 61.

Therefore, even when the tap water flowing into the inlet 11 falls on the lid 60, the tap water goes down the lid 60 through the perforations 61. Since the lid 60 floats on the water surface of the ozone-resistant tank 10, the ozone can be prevented from being corroded by the ceiling by covering the water surface at all times regardless of the water level.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

10: ozone resistant tank 11: inlet
12: supply port 13: outlet
14: finishing groove 15:
20, 50: Waterproof sheet 21: Adhesive layer
22: release paper 23: fixing member
24: Washer 25: Tarpaulin
31: welding 60: cover
61: Porous 100, 500: Construction structure
200: Construction tool 201: Body
202: electric heater 203: handle
HL: Maximum water level W: Width
W1, W2: first and second widths

Claims (18)

A first step of preparing a waterproof sheet comprising a thermosetting fluororesin and having an adhesive layer on one surface thereof;
A second step of attaching the waterproof type sheet to the adhesive layer on the surface of an ozone resistant tank made of a concrete structure and attaching the neighboring waterproof type sheet by butt; And
A third step of welding the waterproof sheet on opposite sides of the waterproof sheet with the welding sheet having a melting point lower than that of the waterproof sheet;
/ RTI >
Further comprising a fourth step of placing the end of the waterproof sheet in the finish groove and pressing the end of the waterproof sheet with the interposer to force the end of the waterproof sheet into the finish groove following the third step Method of waterproofing construction using fluoropolymer. The method according to claim 1,
The second step comprises:
Wherein the waterproof sheet is further fixed to the surface of the ozone-resistant tank with a fixing member. 3. The method of claim 2,
The second step comprises:
Wherein the waterproof sheet or the welding sheet or a stainless steel washer is sandwiched between the fixing member and the waterproof sheet. The method of claim 3,
The second step comprises:
A method of waterproofing construction using a fluororesin in an ozone treatment tank for sealing between a fixing member and a waterproofing sheet by attaching a waterproofing sheet to the waterproofing sheet while covering the fixing member. The method according to claim 1,
In the third step,
Wherein the welding sheet is heated to a melting point to pressurize the welding sheet to melt the welding sheet and weld the end of the waterproof sheet to which the welding sheet is butt welded. The method according to claim 1,
The first step
Wherein the ozone treatment tank forms the finishing groove on a surface higher than the highest water level in the ozone-resistant tank. delete The method according to claim 6,
And a fifth step of covering the water surface of the ozone-resistant tank with a cover made of a thermosetting fluororesin in the ozone-resistant tank after the fourth step, and a method of waterproofing the inside of the ozone treatment tank using a fluororesin . A concrete structure forming an ozone-resistant tank;
A waterproof type sheet attached to the surface of the concrete structure as an adhesive layer and attached to butt together with a thermosetting fluororesin;
A welded welding sheet having a lower melting point than the waterproof sheet on both sides of the waterproof sheet
/ RTI >
Wherein the end portion of the waterproof sheet is positioned in the finishing groove and the end portion of the waterproof sheet is pressed so as to be forced into the finishing groove. 10. The method of claim 9,
Wherein the waterproof sheet is further fixed to a surface of the ozone-resistant tank by a fixing member. 11. The method of claim 10,
And a waterproof sheet or a washer interposed between the fixing member and the waterproof sheet and made of the same material as the waterproof sheet or the weld sheet or a stainless steel washer. 12. The method of claim 11,
Further comprising a waterproofing film attached to the waterproofing sheet while covering the fixing member and sealing the space between the fixing member and the waterproofing sheet. 10. The method of claim 9,
The welding sheet
A method of constructing a waterproof construction using a fluorocarbon resin in an ozone treatment tank for welding an end portion of the waterproof type sheet heated to a melting point and pressurized. 10. The method of claim 9,
The ozone resistant tank
A construction structure for waterproofing a system using a fluororesin in an ozone treatment tank having the finishing groove on a surface higher than a maximum water level. delete 15. The method of claim 14,
Wherein the ozone-resistant tank further comprises a cover which is made of a thermosetting fluororesin and covers the water surface of the ozone-resistant tank, wherein the ozone treatment tank comprises a fluororesin. delete delete

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