KR102013751B1 - Concrete water tank with construction method of anchored fixed type lining - Google Patents

Abstract

The present invention is installed between the adhesive sheet bonded to the inner wall surface of the concrete storage tank, the anchor fixing portion for fixing the adhesive sheet to the concrete wall surface, and inserted between the inner wall surface and the adhesive sheet of the concrete storage tank, the interior of the concrete storage tank by the leakage It provides a concrete storage tank with a fixed anchoring lining, characterized in that it comprises a discharge pipe portion for introducing and discharge the influent collected between the wall and the adhesive sheet.
According to the above, it is possible to manage more effectively because it is possible to determine whether or not the concrete storage tank is leaked through the discharge pipe part, and the damage of the concrete storage tank may be increased by determining whether the concrete storage tank is damaged or damaged by the adhesive sheet. Or it can be prevented in advance to damage the adhesive sheet can extend the life of the concrete storage tank more.

Description

Concrete water tank with construction method of anchored fixed type lining}

The present invention relates to a concrete storage tank in which anchor fixed linings are constructed, and more specifically, it is possible to determine whether or not leakage, anchor anchoring lining that can determine whether or not such leakage of concrete storage tank damage or sheet damage This construction relates to a concrete storage tank.

In general, a water treatment plant for treating purified water, sewage, wastewater, etc. is composed of a structure that precipitates foreign substances such as suspended solids contained in water and then flows them out to the outside. In general, a water flow path is a concrete storage tank formed of a concrete structure. Implemented through

On the other hand, as the concrete storage tank increases its service life, the walls in contact with water are severely corroded or contaminated. Therefore, the lining material is bonded to the inner wall of the concrete storage tank to protect the concrete storage tank and prevent water contamination. To prevent it.

As an example of a technology for lining of such a concrete structure, Korean Patent No. 10-1162994 discloses a cover member 30 and a lining member that are covered by a lining member 20 processed on a structure 10 as shown in FIG. 1. 20) and a member fixing means 50 for fixing the cover member 30 to the structure, wherein the lower end of the cover member is disposed at least under the water surface of the structure, and the cover member is provided with a plate or unit plate joined. Lining cover devices for structures have been disclosed.

However, the lining structure of the conventional concrete storage tank is difficult to determine even if a leak occurs after construction, and it is difficult to determine whether the leak is caused by damage to the lining material or breakage of the concrete storage tank. There was a problem.

Republic of Korea Patent No. 10-1162994

An object of the present invention is to provide a concrete storage tank with anchor anchoring lining that can determine whether the leakage in the concrete storage tank, as well as whether the leak is damaged or damage the adhesive sheet.

The present invention is an adhesive sheet bonded to the inner wall surface of the concrete storage tank, an anchor fixing portion for fixing the adhesive sheet to the concrete wall surface, and is installed between the inner wall surface and the adhesive sheet of the concrete storage tank, the leak by It provides a concrete storage tank with anchor anchoring lining, characterized in that it comprises a discharge pipe portion for introducing and discharge the inflow water collected between the inner wall surface of the concrete storage tank and the adhesive sheet.

Here, the adhesive sheet may be made of a PE material.

In addition, the anchor fixing portion, the anchor bolt for fixing the adhesive sheet to the inner wall surface of the concrete storage tank in the interior of the concrete storage tank, and wrapped around the head of the anchor bolt for watertight between the anchor bolt and the adhesive sheet It may be configured to include a watertight member bonded to the adhesive sheet.

In addition, the discharge pipe portion, it is preferable that a plurality of inlet pipes having different lengths are installed vertically.

In addition, the discharge pipe portion, the upper end may be configured to include a first inlet pipe is positioned to be exposed to the top of the concrete storage tank is positioned to the bottom bottom portion of the concrete storage tank.

In this case, the discharge pipe portion, the upper end may be configured to include a second inlet pipe is positioned to be exposed to the upper portion of the concrete storage tank is disposed between the top and bottom of the concrete storage tank.

Further, the discharge pipe portion may be installed to be located at the corner of the concrete storage tank.

On the other hand, the concrete anchor tank is fixed anchoring lining, the storage tank level sensor for detecting the water level of the concrete storage tank, the discharge pipe level sensor for detecting the level of the inflow water flowing into the discharge pipe portion, and the storage tank water level And a control unit for receiving the water level information of the concrete storage tank and the water level information of the discharge pipe unit from the sensor and the water level detection sensor of the discharge pipe, respectively, to analyze and determine the damage of the concrete storage tank or the damage of the adhesive sheet. Can be.

Here, the control unit, by comparing the water level change of the concrete storage tank and the water level change of the discharge pipe portion, if the water level change of the discharge pipe portion is less than a predetermined ratio with respect to the water level change of the storage tank is determined as the damage of the adhesive sheet When the water level change of the discharge pipe portion exceeds a predetermined ratio with respect to the water level change of the storage tank, it may be configured to determine that the concrete storage tank is broken.

In addition, the concrete storage tank in which the anchor fixing lining is constructed, the water quality measurement unit for measuring the water quality of the fluid of the concrete storage tank and the discharge pipe portion, and the water quality information of the fluid and the inflow water from the water quality measurement unit, respectively Receiving, may further comprise a control unit for analyzing and determining the damage of the concrete storage tank or the damage of the adhesive sheet.

In this case, the controller may compare the water quality of the fluid and the water quality of the inflow water, respectively, and determine the damage of the concrete storage tank or the damage of the adhesive sheet according to the water quality match of the fluid or the inflow water.

Here, the water quality match can be determined by the standard component included in the fluid.

That is, when the fluid is tap water, the standard component may be composed of a chlorine component.

Further, the control unit, if the chlorine concentration in the influent is measured in the first range close to the chlorine concentration of the tap water in the concrete storage tank is determined to be the damage of the adhesive sheet, the chlorine concentration in the influent measured outside the first range If so, it can be configured to determine the breakage of the concrete storage tank.

Concrete storage tank with anchor anchoring lining according to the present invention provides the following effects.

First, since it is possible to determine whether the concrete storage tank is damaged or the adhesive sheet is damaged through the discharge pipe, more effective management is possible.

Second, since it is possible to determine in advance whether the damage of the concrete storage tank or the damage of the adhesive sheet, it is possible to prevent the expansion of the damage of the concrete storage tank or damage of the adhesive sheet in advance can extend the life of the concrete storage tank more.

Third, it is possible to know in advance whether the concrete storage tank is damaged or the adhesive sheet is damaged by changing the water level of the concrete storage tank and the discharge pipe, so it is possible to predict the damage of the concrete storage tank or the damage of the adhesive sheet even if the inflow water is not discharged to the outside. It is possible to predict this even if there is no difference in water quality.

Fourth, through the water quality measuring unit to measure the water quality of the fluid and the inflow water in the concrete storage tank, respectively, it is possible to distinguish whether the concrete storage tank is damaged or the damage of the adhesive sheet, through which a more effective response is possible.

Fifth, it is possible to prevent the inlet water due to leakage through the discharge pipe to the outside to prevent swelling of the adhesive sheet due to leakage.

1 is a view showing a conventional perforated concrete lining structure.
Figure 2 is a front sectional view showing a concrete storage tank is constructed anchor anchoring according to an embodiment of the present invention.
3 is a partial cross-sectional perspective view showing the discharge pipe part of FIG. 2.
4 is a partial cross-sectional perspective view showing a state in which the anchor fixing part is fixed to the concrete storage tank wall surface of FIG.
FIG. 5 is a block diagram illustrating a control flow of a controller in a concrete storage tank in which the anchoring lining of FIG. 2 is constructed.
FIG. 6 is a view illustrating a case where damage occurs in the adhesive sheet in the concrete storage tank in which the anchor fixing lining of FIG. 2 is constructed.
FIG. 7 is a view illustrating a case in which the concrete storage tank is damaged in the concrete storage tank in which the anchor fixing lining of FIG. 2 is constructed.

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

2 and 3, the anchor concrete anchoring concrete storage tank according to an embodiment of the present invention, the adhesive sheet 100, the anchor fixing part 200, and comprises a discharge pipe 300 do.

The adhesive sheet 100 is bonded to the inner wall surface of the concrete storage tank 10 to protect the concrete storage tank 10 and to secure the watertightness of the inner wall surface of the concrete storage tank 10 to prevent water contamination.

 The adhesive sheet 100 is preferably made of polyethylene (PE) material, it is a matter of course that can be applied to a sheet of various waterproof materials that can achieve the above object.

The anchor fixing part 200 serves to fix the adhesive sheet 100 to the wall surface of the concrete storage tank 10 in the interior of the concrete storage tank 10, as shown in Figure 4 overall of the adhesive sheet 100 A plurality of spaced apart in the area is fixed to the wall surface of the concrete storage tank (10). The anchor fixing portion 200 can be applied to the fixing pin as shown, which can be applied to a variety of configurations if it can achieve the above object in one embodiment.

On the other hand, the anchor fixing portion 200, in addition to the configuration consisting of the fixing pin alone may include a watertight member to ensure the watertightness with the adhesive sheet 100. For example, although not shown, the anchor fixing part 200 anchor bolts for fixing the adhesive sheet 100 to the inner wall surface of the concrete storage tank 10 in the interior of the concrete storage tank 10, anchor bolts and adhesive sheets ( It may be configured to include a watertight member that is bonded to the adhesive sheet 100 while wrapping the head of the anchor bolt for watertight between the 100). In this case, the anchor bolt may be fastened to a fastening nut embedded in the concrete storage tank 10, and the watertight member may be applied in various configurations such as a waterproof sheet bonded to the adhesive sheet 100.

The discharge pipe part 300 is inserted between the inner wall surface of the concrete storage tank 10 and the adhesive sheet 100, and the inflow water is collected between the inner wall surface of the concrete storage tank 10 and the adhesive sheet 100 by water leakage. (2) Influx and discharge.

In detail, the discharge pipe part 300 is installed vertically in a tubular shape, the lower end is located between the concrete storage tank 10 and the adhesive sheet 100, the upper end is exposed to the outside and the inflow water 2 introduced from the lower end is It is configured to be discharged to the outside.

Here, the discharge pipe portion 300 is formed so that the inlet water (2) is sucked from the bottom by the capillary phenomenon and discharged to the upper end, and has a predetermined diameter and structure so that the inlet water (2) can be introduced into the capillary phenomenon. Here, a detailed description of the fluid inflow principle due to the capillary phenomenon will be omitted as a known technique.

On the other hand, the discharge pipe portion 300, a plurality of inlet pipes 310 and 320 having a different length in order to correspond to various points that are leaking may be installed vertically (see Figure 3).

This may be due to the inflow (2) collected by the leak may be accumulated in the bottom of the bottom of the concrete storage tank 10 by gravity, but due to the adhesive sheet 100 bonded to the inner wall surface of the concrete storage tank 10 other position than the bottom Edo inflow (2) is because it can be collected and accumulated, so as to effectively discharge all the influent (2) that is collected and collected at various locations to the outside.

In detail, first, the discharge pipe part 300 may include a first inflow pipe 310 and a second inflow pipe 320.

The first inflow pipe 310 is disposed so that the upper end is exposed to the upper portion of the concrete storage tank 10 and the lower end is located at the bottom bottom of the concrete storage tank 10, the bottom bottom portion of the concrete storage tank 10 It is configured to introduce and discharge the standing influent (2).

In addition, the second inflow pipe 320 is disposed so that the upper end is exposed to the upper portion of the concrete storage tank 10 and the lower portion is located between the upper end and the lower end of the concrete storage tank 10, the bottom bottom of the concrete storage tank 10 It is configured to introduce and discharge the influent (2) standing in a position other than the addition.

In addition, the discharge pipe portion 300, it is easy to install and the inflow water 2 is easily collected is preferably installed in the corner portion of the concrete storage tank (10).

According to the above, the discharge pipe unit 300 may introduce and discharge the inlet water 2 accumulated in the bottom portion through the first inlet pipe 310, and other than the bottom portion through the second inlet pipe 320 Since the influent 2 in the position can also be inflowed and discharged, it is possible to discharge the influent 2 for a wider position rather than a specific position.

Referring to FIG. 5, the concrete storage tank in which the anchor fixing lining is constructed is configured to include a storage tank level sensor 410, a discharge pipe level sensor 420, and a controller 500, and the concrete storage tank 10. Depending on the water level and the level of the discharge pipe 300 may be analyzed the damage of the concrete storage tank 10 or the damage of the adhesive sheet (100).

Here, the storage tank water level sensor 410 detects the level of the fluid in the concrete storage tank 10, and the discharge pipe level detection sensor 420 serves to detect the level of the inflow water flowing into the discharge pipe 300. do. Here, the reservoir tank level sensor 410 and the discharge pipe level sensor 420 may be applied to a known level sensor, the installation position can also be installed by applying a variety of positions to achieve the above object. have.

The control unit 500 receives the water level information of the concrete storage tank 10 and the water level information of the discharge pipe unit 300 from the storage tank water level sensor 410 and the discharge pipe level sensor 420, respectively, the concrete storage tank 10 ) Serves to analyze and determine the damage or damage of the adhesive sheet (100).

Looking at this in detail, the control unit 500 compares the water level change of the concrete storage tank 10 and the water level change of the discharge pipe unit 300, the water level change of the discharge pipe unit 300 is the water level change of the concrete storage tank (10) When the ratio is less than or equal to the predetermined ratio, it is determined that the adhesive sheet 200 is damaged as shown in FIG. 6. This means that the water level change of the concrete storage tank 10 is relatively small with respect to the water level change of the discharge pipe part 200 using the capillary principle, so that the adhesive sheet 200 is not broken (crack) 3 of the concrete storage tank 10. ) Can be predicted and judged to be a leak caused by damage. In the drawing, reference numeral 4 denotes a damaged part of the adhesive sheet 200.

On the other hand, the control unit 500, when the water level change of the discharge pipe unit 300 exceeds the preset ratio with respect to the water level change of the concrete storage tank 10, as shown in Figure 7 concrete storage tank 10 is broken (crack, 3) Judging from the This means that the water level change of the concrete storage tank 10 is relatively large with respect to the water level change of the discharge pipe part 200, so that the leakage due to the breakage 3 of the concrete storage tank 10, not the damage of the adhesive sheet 200, is predicted. And can be determined.

According to the above, the control unit 500 of the adhesive sheet 100 through the storage tank and the discharge pipe water level change even if the inflow water is not discharged through the storage tank water level sensor 410 and the discharge pipe level sensor (420) Damage or breakage of concrete can be predicted, and in this case, the cause of leakage can be determined even if the water and the water quality components of the influent do not differ from each other, and the cause of leakage can be predicted even if the inflow is not discharged to the outside.

On the other hand, as described above, in addition to the method of identifying the damage of the concrete storage tank 10 or the damage of the adhesive sheet 100 by changing the water level of the concrete storage tank 10 and the water level of the discharge pipe 300, and the fluid in the concrete storage tank By measuring the water quality of the inflow water in the discharge pipe portion 300 through this it can determine the damage of the concrete storage tank 10 or the damage of the adhesive sheet (100).

To this end, the concrete storage tank is installed anchor anchoring lining is configured to include a water quality measuring unit and the control unit 500. Here, the water quality measuring unit is installed in the concrete storage tank 10 and the discharge pipe 300, respectively, and serves to measure the water quality of the fluid of the concrete storage tank 10 and the inflow water discharged from the discharge pipe 300.

The control unit 500 receives water quality information of the fluid and the inflow water from the water quality measurement unit, respectively, and serves to analyze and determine the damage of the concrete storage tank 10 or the damage of the adhesive sheet 100.

In detail, the control unit 500 may compare the water quality of the fluid and the water quality of the inflow water, respectively, and determine the damage of the concrete storage tank 10 or the damage of the adhesive sheet 100 according to the water quality coincidence of the fluid or the inflow water. .

At this time, the degree of water conformity can be determined by the standard component included in the fluid. For example, when the fluid is a tap water, the standard ingredient may be a chlorine component included in the tap water.

When the chlorine concentration in the influent is measured to be the first range close to the chlorine concentration of the tap water in the concrete storage tank 10, the control unit 500 determines that the influent collected by the leak is as a tap water and the adhesive sheet 100 is damaged. To judge.

On the other hand, if the chlorine concentration in the influent is measured to be out of the first range, the controller 500 may determine that the influent collected by the leak is groundwater, not water supply, and thus groundwater due to breakage of the concrete storage tank 10. It can be judged as inflow of.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10 concrete storage tank 100 adhesive sheet
200: anchor fixing part 300: discharge pipe
310: first inflow pipe 320: second inflow pipe
410: reservoir tank water level sensor 420: discharge pipe water level sensor
500: control unit 600: water quality measurement unit

Claims (7)

delete An adhesive sheet bonded to an inner wall surface of the concrete storage tank;
An anchor fixing part for fixing the adhesive sheet to the concrete wall surface;
A discharge pipe portion inserted between the inner wall surface of the concrete storage tank and the adhesive sheet and configured to discharge and introduce the inflow water collected between the inner wall surface of the concrete storage tank and the adhesive sheet by water leakage;
A water quality measuring unit measuring water quality of the fluid of the concrete storage tank and the inflow water in the discharge pipe part;
Receiving the water quality information of the fluid and the inflow water from the water quality measurement unit, and comprises a control unit for analyzing and determining the damage of the concrete storage tank or the damage of the adhesive sheet:
The anchor fixing part,
An anchor bolt fixing the adhesive sheet to an inner wall surface of the concrete storage tank in the concrete storage tank;
It includes a watertight member that wraps the head portion of the anchor bolt for bonding between the anchor bolt and the adhesive sheet and bonded to the adhesive sheet:
The control unit,
By comparing the water quality of the fluid and the water quality of the inflow water, it is possible to determine the damage of the concrete storage tank or the damage of the adhesive sheet according to the water quality match of the fluid or the inflow water, wherein the water quality coincidence is a standard component included in the fluid Concrete storage tank with anchor anchoring lining, characterized in that determined by the concentration of. The method of claim 2,
The adhesive sheet,
Concrete storage tank with anchor anchoring lining, characterized by PE material. delete The method of claim 3, wherein
The discharge pipe portion,
An anchor fixed lining concrete storage tank, characterized in that the top is exposed to the upper portion of the concrete storage tank and the bottom is configured to include a first inlet water pipe is disposed to be located on the bottom bottom of the concrete storage tank. The method of claim 5,
The discharge pipe portion,
An upper end of the concrete storage tank exposed to the upper portion of the concrete storage tank anchor anchoring linings, characterized in that it comprises a second inlet water pipe is arranged to be located between the top and bottom of the concrete storage tank. The method of claim 5,
The discharge pipe portion,
A concrete storage tank constructed with anchors fixed lining, characterized in that installed in the corner portion of the concrete storage tank.

Images