JP2018058624A - Tank for waterworks and method of producing tank for waterworks - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tank for waterworks which is able to decrease the number of times of water replacement before using the tank for waterworks.SOLUTION: A bottom plate 2 and side walls 3 of a tank for waterworks 1 comprise a concrete structure 4, and a transparent epoxy resin layer 5 which coats a concrete surface 4a on inside of the concrete structure 4. Therefore, a surface 5a of transparent epoxy resin layer 5 becomes inside surfaces of the bottom plate 2 and the side walls 3, and elution of alkalinity in the concrete structure 4 into water in the tank for waterworks 1 is reduced by the transparent epoxy resin layer 5.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a concrete water tank and a method for producing the water tank.

  Conventionally, concrete tanks used for regulating ponds, distribution ponds, and the like have been required to prevent deterioration of the reinforcing bars in the concrete due to permeation of residual chlorine in clean water. For this reason, the cover thickness of the concrete with respect to the reinforcing bars is increased to prevent residual chlorine from reaching the reinforcing bars, or the penetration of residual chlorine has been suppressed by using concrete containing blast furnace slag fine powder (for example, patents) Reference 1).

Japanese Patent No. 4398447

  However, in the conventional method, since the surface of the concrete is exposed in the tank, the alkali content in the concrete is eluted in the water in the tank. For this reason, it was troublesome to change the water many times until the elution of the alkali content became a predetermined value or less when the tank was used.

  The present invention has been made to solve the above-described conventional drawbacks, and the object of the present invention is to provide a water tank that can reduce the number of times the water is replaced before the water tank is in service, And it is providing the manufacturing method of the tank for clean water.

In order to achieve the above object, a water tank and a water tank manufacturing method according to the present invention have the following configuration. That is,
A water tank according to the invention described in claim 1 is a concrete water tank, and includes a bottom plate and a side wall. The bottom plate and the side wall include a concrete structure and a transparent epoxy resin layer that covers the concrete surface on the inner surface side of the concrete structure, and the surface of the transparent epoxy resin layer becomes the inner surface of the bottom plate and the side wall.

  According to this water tank, the bottom plate and the side wall are provided with a transparent epoxy resin layer covering the inner surface side of the concrete structure. Therefore, this transparent epoxy resin layer reduces the elution of the alkali content of the concrete structure into the water in the water tank, so that the water can be replaced before the water tank is put into service. There is no need to do it again. And since a transparent epoxy resin layer is transparent, the deformation | transformation of a concrete structure can be visually inspected from the inside of a tank during use of this water tank. Moreover, even if cracks occur in the concrete on the inner surface side of the concrete structure due to an unexpected external force during service, it can be repaired with an epoxy material having good compatibility with the transparent epoxy resin layer.

  Moreover, the manufacturing method of the tank for water supplies which concerns on invention of Claim 2 is a manufacturing method of the tank for water supplies made from concrete provided with a bottom plate and a side wall. In this method for producing a tank for water supply, a coating material made of a transparent epoxy resin paint is applied to the concrete surface on the inner surface side of the concrete structure constituting the bottom plate and the side wall, and the transparent epoxy resin layer is coated with the coating material. And the surface of the transparent epoxy resin layer is used as the inner surface of the bottom plate and the side wall.

  According to this water tank manufacturing method, a transparent epoxy resin layer is formed by applying a coating material made of a transparent epoxy resin paint to the inner surface side of the concrete structure constituting the bottom plate and the side wall. Therefore, this transparent epoxy resin layer reduces the elution of the alkali content of the concrete structure into the water in the water tank, so that the water can be replaced before the water tank is put into service. There is no need to do it again. And since a transparent epoxy resin layer is transparent, the deformation | transformation of a concrete structure can be visually inspected from the inside of a tank during use of this water tank. Moreover, even if cracks occur on the concrete surface on the inner surface side of the concrete structure due to an unexpected external force during service, it can be repaired with an epoxy material having good compatibility with the transparent epoxy resin layer.

Moreover, the manufacturing method of the tank for water supply which concerns on invention of Claim 3 is a manufacturing method of the tank for water supply of Claim 2, The application quantity of the said coating material is 0.1-per m < ² >. 0.15 kg.

  According to the water tank according to the present invention and the method for producing the water tank, the alkali component of the concrete structure is eluted into the water in the water tank by the transparent epoxy resin layer on the inner surface side. Since it reduces, the frequency | count of replacement of the water before in-service of the tank for clean water can be reduced.

It is a schematic cross section which shows the tank for water supplies of one embodiment of this invention. Similarly, it is the schematic cross section which expanded the principal part of FIG.

  EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing the manufacturing method of the tank for waterworks and the tank for waterworks concerning this invention is demonstrated based on drawing.

  1 to 2 show an embodiment of the present invention. The code | symbol 1 in a figure shows the tank for waterworks used for a water purification pond, a regulation pond, a distribution pond, or a water supply pond.

  This water tank 1 is made of concrete (for example, made of prestressed concrete) and includes a bottom plate 2 and side walls 3. Here, the bottom plate 2 and the side wall 3 include a concrete structure 4 and a transparent epoxy resin layer 5 covering the concrete surface 4a on the inner surface side of the concrete structure 4, and the surface 5a of the transparent epoxy resin layer 5 is These are the inner surfaces of the bottom plate 2 and the side wall 3. Regarding the side wall 3, the transparent epoxy resin layer 5 is preferably provided up to a position higher than the highest position reached by the water 7 in the water tank 1, and particularly preferably provided on the entire surface of the side wall 3. The transparent epoxy resin layer 5 is preferably a colorless transparent epoxy resin layer. In addition, the code | symbol 6 in a figure shows the roof of this tank 1 for waterworks.

  In the method for manufacturing the concrete water tank 1 made of concrete, a transparent epoxy resin paint (preferably colorless transparent) is applied to the concrete surface 4 a on the inner surface side of the concrete structure 4 constituting the bottom plate 2 and the side wall 3. A coating material made of an epoxy resin paint) is applied, and a transparent epoxy resin layer (preferably a colorless transparent epoxy resin layer) 5 is formed by the coating material. Therefore, the surface 5 a of the transparent epoxy resin layer 5 is used as the inner surface of the bottom plate 2 and the side wall 3. That is, the surface 5 a of the transparent epoxy resin layer 5 is exposed in the water tank 1.

Here, the coating amount of the coating material is preferably 0.1 to 0.2 kg per 1 m ² , more preferably 0.1 to 0.15 kg, but is limited to those numerical ranges. is not.

  Table 1 shows the results of immersing mortar specimens in immersion water and measuring the pH value of the immersion water at the start, 1 day, 4 days, and 7 days later. Here, the curing temperature and period of the test specimen are 23 ° C. × 7 days, and the size of the test specimen is 70 × 70 × 20 mm. The coating material (transparent epoxy resin paint) consists of a main agent and a curing agent. The main agent consists of an epoxy resin (bisphenol A type liquid epoxy resin) and a reactive diluent. As for the reactive diluent, one type of reactive diluent A is used in the blend (1). Two kinds of reactive diluents A and B are used in the combination (2) and the combination (3), and the combination ratio of the reactive diluents A and B is different between the combination (2) and the combination (3). . A film thickness shows the value computed from hardened | cured material specific gravity. Moreover, immersion water is ion-exchange water (3 liters), and test temperature is 23 degreeC. From this table, it can be seen that the increase in the pH of the immersion water using the test specimen coated with the coating material is sufficiently suppressed with respect to the blank test specimen coated with the transparent epoxy resin coating.

  Next, the operational effects of the water tank 1 having the above-described configuration and the method for manufacturing the water tank 1 will be described. According to this water tank 1, the bottom plate 2 and the side wall 3 include the transparent epoxy resin layer 5 that covers the inner surface side of the concrete structure 4. Therefore, the transparent epoxy resin layer 5 reduces the elution of the alkali content of the concrete structure 4 to the water 7 in the water tank 1, thereby allowing the water tank 1 to be used before service. It is not necessary to exchange the water 7 many times.

  That is, according to the water tank 1, the alkali component of the concrete structure 4 is reduced from being eluted into the water 7 in the water tank 1 by the transparent epoxy resin layer 5 on the inner surface side. The number of replacements of the water 7 before the service water tank 1 is put in service can be reduced (for example, reduced to one). In addition, in this way, the transparent epoxy resin layer 5 suppresses the elution of alkali content at the start of service, thereby promoting the long-term strength of the concrete, thereby increasing the strength of the concrete, the concrete structure 4, and eventually for water supply. The durability of the tank 1 is improved.

  Further, as described above, the transparent epoxy resin layer 5 is intended to reduce the elution of alkali content, but at the same time, the odor of concrete in the concrete structure 4 is transferred to the water 7 in the water tank 1. It will also reduce.

  Further, since the transparent epoxy resin layer 5 is transparent, it is possible to visually inspect the deformation of the concrete structure 4 from the tank 1 while the water tank 1 is in service. 4 can be easily checked. That is, when the resin layer 5 is opaque, it is necessary to inspect the concrete structure 4 by various test methods other than visual inspection. The maintenance and management of the concrete structure 4 and eventually the water tank 1 can be performed. It becomes troublesome. Furthermore, since the epoxy resin layer 5 is transparent, a colorant such as a pigment is not added, and characteristics such as the original strength as an epoxy resin can be sufficiently exhibited. In addition, even if cracks occur on the concrete surface 4a on the inner surface side of the concrete structure 4 due to an unexpected external force during service, repair with a general epoxy material that is compatible with the transparent epoxy resin layer 5 and is repaired. Can be convenient.

  And according to the manufacturing method of the tank 1 for waterworks, by applying the coating material which consists of a transparent epoxy resin coating to the inner surface side of the concrete structure 4 which comprises the bottom plate 2 and the side wall 3, the transparent epoxy resin layer 5 is applied. It is formed. Therefore, with this transparent epoxy resin layer 5, the water tank 1 has the various effects described above. In order to achieve this effect, the coating material can be applied only once, although it is sufficient to apply it twice or more.

DESCRIPTION OF SYMBOLS 1 Water tank 2 Bottom plate 3 Side wall 4 Concrete structure 4a Concrete surface 5 Transparent epoxy resin layer 5a Surface

Claims (3)

A concrete water tank,
With a bottom plate and side walls,
The bottom plate and the side wall comprise a concrete structure and a transparent epoxy resin layer covering the concrete surface on the inner surface side of the concrete structure, and the surface of the transparent epoxy resin layer becomes the inner surface of the bottom plate and the side wall. Water tank. A method for producing a concrete water tank comprising a bottom plate and a side wall,
Applying a coating material made of a transparent epoxy resin paint to the concrete surface on the inner surface side of the concrete structure constituting the bottom plate and the side wall, and forming a transparent epoxy resin layer with the coating material,
A method for producing a water tank, wherein the surface of the transparent epoxy resin layer is the inner surface of the bottom plate and the side wall. The method for producing a water tank according to claim 2, wherein the coating amount of the coating material is 0.1 to 0.15 kg per 1 m ² .

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