JP2021006682A - Concrete curing sheet - Google Patents

Abstract

To secure water holding property and heat retaining property of concrete during curing.SOLUTION: A concrete curing sheet 1 includes: first and second adhesive layers 11, 21 which can be adhered to and peeled from concrete; moisture impermeable first and second water holding sheets 10, 20; and a heat retaining sheet 30 which has higher heat retaining property than the first and second water holding sheets 10, 20. They are laminated in the order of the first adhesive layer 11, the first water holding sheet 10, the heat retaining sheet 30, the second water holding sheet 20, and the second adhesive layer 23.SELECTED DRAWING: Figure 1

Description

The present invention relates to a curing sheet used for curing concrete, and more particularly to a concrete curing sheet for ensuring water retention and heat retention of concrete during curing.

Concrete needs to retain the required moisture during curing after casting. When dried, the hydration reaction of cement does not proceed and quality cannot be ensured. Therefore, various techniques for retaining water using a curing sheet have been proposed.

For example, according to the curing sheet of Patent Document 1, an adhesive layer is provided on one side of the water-retaining sheet, and a heat-retaining sheet is provided on the other side. By adhering the adhesive layer to the concrete, the curing sheet is stretched on the surface of the concrete. The water retention sheet suppresses the evaporation of water from the concrete. In addition, by suppressing heat dissipation from the concrete with a heat insulating sheet, the temperature difference between the surface side and the back side of the concrete is reduced, the generation of internal stress due to the temperature difference is suppressed, and the formation of cracks is prevented. Further, in Patent Document 1, the curing sheet can be used again by superimposing the double-sided adhesive tape on the adhesive layer of the used curing sheet.

Japanese Unexamined Patent Publication No. 2018-071283

In Patent Document 1 described above, the work of attaching the double-sided adhesive tape to make the curing sheet reusable is performed by the user, which is complicated and time-consuming.
In view of such circumstances, an object of the present invention is to make it possible to easily reuse a concrete curing sheet having water retention and heat retention.

In order to solve the above problems, the concrete curing sheet according to the present invention includes the first and second adhesive layers that are adhesive and peelable to concrete, the first and second water-retaining sheets that are impermeable to water, and the first. A heat-retaining sheet having a higher heat-retaining property than the second water-retaining sheet is provided, and the first adhesive layer, the first water-retaining sheet, the heat-retaining sheet, the second water-retaining sheet, and the second adhesive layer are laminated in this order.

It is preferable that the surface of the first adhesive layer opposite to the heat insulating sheet is covered with the first release sheet. Thereby, the first adhesive layer in the unused stage can be protected. It is preferable that the surface of the second adhesive layer opposite to the heat insulating sheet is covered with the second release sheet. Thereby, the second adhesive layer in the unused stage can be protected.
The heat insulating sheet is preferably made of a foamed resin. Thereby, the heat retention can be surely enhanced.

According to the concrete curing sheet, it can be used for curing the first concrete by first peeling off the first release sheet and adhering the first adhesive layer to the surface of the first concrete.
When curing the first concrete, the first water-retaining sheet suppresses the evaporation of water from the first concrete to ensure water retention, and the heat-retaining sheet suppresses heat dissipation from the first concrete to ensure heat retention. .. In addition, the second water retention sheet further enhances water retention and heat retention. As a result, the quality of the first concrete can be improved.

After curing the first concrete, the concrete curing sheet is peeled off from the first concrete.
After that, the concrete curing sheet can be used again to cure the second concrete. When used again, for example, the second release sheet is peeled off and the second adhesive layer is adhered to the surface of the second concrete, so that the concrete curing sheet is stretched on the second concrete.
There is no need for complicated work such as attaching double-sided adhesive tape. There is no problem of sticking the double-sided adhesive tape.
When curing the second concrete, the second water-retaining sheet suppresses the evaporation of water from the second concrete to ensure water retention, and the heat-retaining sheet suppresses heat dissipation from the second concrete to ensure heat retention. .. In addition, the first water retention sheet further enhances water retention and heat retention. As a result, the quality of the second concrete can be improved.

According to the present invention, a concrete curing sheet having water retention and heat retention can be easily reused.

FIG. 1 is an enlarged cross-sectional view showing a concrete curing sheet according to the first embodiment of the present invention in a state before use. FIG. 2 is a cross-sectional view showing the concrete curing sheet in a state during curing of the first concrete, that is, in a state of first use. FIG. 3 is a cross-sectional view showing the concrete curing sheet in a state during curing of the second concrete, that is, in a state of being used again.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIGS. 2 and 3, the concrete curing sheet 1 of this embodiment is applied to the concrete 9 (9A, 9B) at the time of curing. The type of concrete 9 to be targeted is not particularly limited. It may be concrete of a civil engineering structure such as a tunnel, or may be concrete of a building structure such as a building. It may be floor concrete, wall or pillar concrete, or ceiling concrete.

As shown in FIG. 1, the concrete curing sheet 1 includes a pair of water-retaining sheets 10 and 20 and a heat-retaining sheet 30. Water-retaining sheets 10 and 20 are provided on both side surfaces of the heat-retaining sheet 30 via adhesive layers 12 and 22, respectively. The release sheets 13 and 23 are provided on the opposite sides of the water retention sheets 10 and 20 from the heat retention sheets 30 via the adhesive layers 11 and 21.
The concrete curing sheet 1 includes a first release sheet 13, a first adhesive layer 11, a first water-retaining sheet 10, an adhesive layer 12, a heat-retaining sheet 30, an adhesive layer 22, a second water-retaining sheet 20, a second adhesive layer 21, and a second. It has a multi-layer structure in which the release sheets 23 are laminated in this order.

The first water-retaining sheet 10 and the second water-retaining sheet 20 are each made of a water-impermeable resin. The water-impermeable resin has at least a water-impermeable property that can maintain the wettability of the concrete 9. Examples of such a moisture-impermeable resin include polyolefins such as polyethylene (PE) and polypropylene (PP), and polyethylene terephthalate (PET). More preferably, the water retention sheets 10 and 20 are made of PET.
The thickness of the water retention sheets 10 and 20 is, for example, about several tens of μm to several hundreds of μm, preferably about 25 μm.
The first water retention sheet 10 and the second water retention sheet 20 may have the same composition and thickness, or may be different from each other.

Adhesive layers 11 and 21 are preferably provided on the front side surface (the surface opposite to the heat retaining sheet 30) facing outward in the thickness direction of each of the water retaining sheets 10 and 20. The adhesive layers 11 and 21 are adhesive and peelable to the concrete 9.
As the pressure-sensitive adhesive layers 11 and 21, for example, an acrylic pressure-sensitive adhesive, a silicone resin-based pressure-sensitive adhesive, a urethane resin-based pressure-sensitive adhesive, a rubber-based pressure-sensitive adhesive, and the like are used. The acrylic pressure-sensitive adhesive may be an emulsion type or a hot melt type.
The release sheets 13 and 23 are covered on the front side surfaces (the surface opposite to the heat insulating sheet 3) of the adhesive layers 11 and 21 in the unused concrete curing sheet 1, respectively.

The heat insulating sheet 30 is sandwiched between the pair of water retaining sheets 10 and 20. The heat insulating sheet 30 is made of foamed resin. Examples of the foamed resin include foamed polyolefins such as polyethylene foam and polypropylene foam, as well as urethane foam and the like. Preferably, the heat insulating sheet 30 is made of a crosslinked foamed polyolefin such as crosslinked foamed polyethylene having a closed cell structure. The foaming ratio of the heat insulating sheet 30 is, for example, about 10 to 50 times, preferably about 30 to 50 times. The thickness of the heat insulating sheet 30 is, for example, several mm to a dozen mm, preferably about 10 mm.
The foamed resin for the heat insulating sheet 30 may be a non-crosslinked resin or an open cell structure.

The heat-retaining sheet 30 made of foamed resin has higher heat-retaining property than the water-retaining sheets 10 and 20 made of non-foamed resin. That is, the heat retaining sheet 30 has a higher thermal conductivity or heat transfer coefficient than the water retaining sheets 10 and 20, and it is difficult for heat to escape. The heat transfer coefficient of the heat insulating sheet 30 is preferably about 0.5 to 8 W / m 2 ° C.
On the other hand, regarding the moisture permeability, the water-retaining sheets 10 and 20 made of non-foamed resin are higher than the heat-retaining sheets 30.

Adhesive layers 12 and 22 are preferably provided over the entire area between the heat insulating sheet 30 and the water insulating sheets 10 and 20. The materials of the adhesive layers 12 and 22 may be the same as those of the adhesive layers 11 and 21, or may be different from those of the adhesive layers 11 and 21.

The concrete curing sheet 1 is used as follows.
The curing sheet 1 is distributed and transported in a rolled state, and is carried to a concrete construction site.
As shown in FIG. 2, after placing the first concrete 9A, the mold (not shown) is removed when the first concrete 9A has hardened to some extent.
Then, the concrete curing sheet 1 is attached to the surface of the first concrete 9A. For example, the first release sheet 13 of the two release sheets 13 and 23 is peeled off, and the first adhesive layer 11 is adhered to the surface of the first concrete 9A. Even if the first concrete 9A has a vertical wall surface or ceiling surface, the concrete curing sheet 1 can be reliably attached to the vertical wall surface or ceiling surface.

The first water-retaining sheet 10 comes into contact with the first concrete 9A via the first adhesive layer 11. The first water retention sheet 10 can suppress the evaporation of water from the first concrete 9A. As a result, the inside of the first concrete 9A can be kept in a wet state, and the hydration reaction of the cement in the first concrete 9A can be sufficiently caused. Moreover, the heat insulating sheet 30 can suppress heat dissipation from the first concrete 9A. Even if the air temperature changes significantly, the temperature difference between the front side and the back side of the first concrete 9A can be kept small. As a result, it is possible to prevent internal stress from being generated in the first concrete 9A and prevent cracks from being formed.
Further, by covering the front side of the heat retaining sheet 30 (the side opposite to the first concrete 9A) with the second water retaining sheet 20, the water retention and heat retention are further enhanced. As a result, the quality of the first concrete 9A can be improved.

The period for attaching the concrete curing sheet 1 to the first concrete 9A is, for example, several weeks to several months, preferably about one to three months from the time of application.
After the curing period has passed, the concrete curing sheet 1 is peeled off from the first concrete 9A.
Store the concrete curing sheet 1 that has been used once. The first adhesive layer 11 of the concrete curing sheet 1 has deteriorated, soiled, worn, disappeared, or the like.

As shown in FIG. 3, after that, the concrete curing sheet 1 can be used again to cure the second concrete 9B different from the first concrete 9A.
When using it again, the second release sheet 23 is peeled off. Then, the second adhesive layer 21 is adhered to the surface of the second concrete 9B.
There is no need for complicated work such as attaching double-sided adhesive tape. Therefore, poor sticking of the double-sided adhesive tape does not occur.
Even if the second concrete 9B has a vertical wall surface or ceiling surface, the concrete curing sheet 1 can be reliably attached to the vertical wall surface or ceiling surface.

The second water-retaining sheet 20 comes into contact with the second concrete 9B via the second adhesive layer 21. The second water retention sheet 20 can suppress the evaporation of water from the second concrete 9B. As a result, the inside of the second concrete 9B can be kept in a wet state, and the hydration reaction of the cement in the second concrete 9B can be sufficiently caused. Moreover, the heat insulating sheet 30 can suppress heat dissipation from the second concrete 9B. Even if the temperature changes significantly, the temperature difference between the front side and the back side of the second concrete 9B can be kept small. As a result, it is possible to prevent internal stress from being generated in the second concrete 9B and prevent cracks from being formed.
Further, by covering the front side of the heat retaining sheet 30 (the side opposite to the second concrete 9B) with the first water retaining sheet 10, the water retention and heat retention are further enhanced. As a result, the quality of the second concrete 9B can be improved.
After the curing period (for example, several weeks to several months, preferably about 1 to 3 months) has passed, the concrete curing sheet 1 is peeled off from the second concrete 9B and removed.

The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, the means for joining the water-retaining sheets 10 and 20 and the heat-retaining sheet 30 is not limited to the adhesive layer 12, and may be heat-sealing, or may be the self-adhesive force of the heat-retaining sheet 30 during foam molding.
The heat insulating sheet 30 may have a laminated structure of a plurality of foamed resin layers. The foaming ratios of these foamed resin layers may be different from each other. For example, the foaming ratio of the foamed resin layer on the center side in the thickness direction may be low, and the foaming ratio of the foamed resin layer on the outer side in the thickness direction may be high. On the contrary, the foaming ratio of the foamed resin layer on the center side in the thickness direction may be high, and the foaming ratio of the foamed resin layer on the outer side in the thickness direction may be low.
The material of the heat insulating sheet 30 is not limited to the foamed resin, and may be a non-woven fabric or the like.

The present invention can be applied to curing construction of various concretes such as tunnels and buildings.

1 Concrete curing sheet 9A 1st concrete 9B 2nd concrete 10 1st water-retaining sheet 11 1st adhesive layer 12 1st adhesive layer 13 1st release sheet 20 2nd water-retaining sheet 21 2nd adhesive layer 22 2nd adhesive layer 23 2nd Release sheet 30 Heat insulation sheet

Claims (2)

It is provided with first and second adhesive layers that are adhesive and peelable to concrete, first and second water-retaining sheets that are impermeable to moisture, and heat-retaining sheets that have higher heat-retaining properties than the first and second water-retaining sheets. A concrete curing sheet characterized in that a first adhesive layer, a first water-retaining sheet, a heat-retaining sheet, a second water-retaining sheet, and a second adhesive layer are laminated in this order. The surface of the first adhesive layer opposite to the heat insulating sheet is covered with the first release sheet.
The concrete curing sheet according to claim 1, wherein the surface of the second adhesive layer opposite to the heat insulating sheet is covered with a second release sheet.

Images