JP2013117125A - Curing method for concrete structure and curing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To construct a high quality concrete structure by curbing a crack on concrete through appropriate temperature and moisture controls in curing the concrete structure.SOLUTION: Water supply devices 40 and 42 as well as the water supply devices 54 and 56 are respectively installed at an out wall side and an inner wall side of a caisson 10 for spraying water over concrete after the same is placed. Temperatures of water supplied from the water supply devices 40 and 42 and the water supply devices 54 and 56 can be controlled respectively by a water temperature control device 50 and the water temperature control device 60. The water temperature control device 50 controls the temperature of the water supplied from the water supply devices 40 and 42 on the basis of a water temperature measured by an outer wall side thermometer 62. The water temperature control device 60 controls the temperature of the water supplied from the water supply devices 54 and 56 on the basis of the water temperature measured by an inner wall side thermometer 64.

Description

The present invention relates to curing of a concrete structure, and more particularly to wet curing in consideration of a temperature difference between an outer wall side and an inner wall side of a concrete structure.

Construction of a concrete structure begins with assembling a mold first, then placing fresh concrete on the mold, then compacting, finishing, and finally curing. Temperature management and humidity management are important during this curing period. In summer, when the temperature is high, the reaction of the concrete is accelerated, and as a result of rapid hardening, problems such as cold joints and cracks in the wall surface are likely to occur. Conversely, there is a problem of expansion due to freezing in winter. Accordingly, during the curing period, it is necessary to maintain a predetermined temperature and a predetermined moisture content until the concrete is sufficiently cured.

For the wet management during the concrete curing period, there are methods such as covering curing with a curing mat and a watertight mat, in addition to flooded curing, water supply curing, and wet sand curing, and they are selectively used according to construction conditions. On the other hand, with regard to temperature management, heat insulation and heat supply are applied when it is cold, and water supply and sun protection are provided when it is hot. Among these techniques, a technique of spraying cold water or hot water on the inner wall surface of a caisson has been proposed as a technique used for temperature management particularly in summer and winter (see Patent Document 1).

JP-A-10-266157

Caisson is a large concrete structure widely used in harbor construction. The caisson is mostly manufactured near the construction site such as quay and backyard for the convenience of transportation, but such a place is often a flat ground where there are few things blocking the wind, and strong winds are generated during the caisson production.・ It is very susceptible to cold winds. In particular, when steel metal foam is used as a formwork, the temperature is lowered by direct wind, and the heat of concrete is easily taken away, so the concrete after placement is maintained at a temperature suitable for curing. This is a quality control issue. The caisson usually has different outside temperatures between the outer wall exposed to the outside air and the inner wall facing the closed space surrounded by the outer wall. This difference in outside air temperature appears as a difference in the rate of progress of the hydration reaction necessary to develop the strength of the concrete on the outer wall side and the concrete on the inner wall side, and may adversely affect the quality and characteristics of the concrete structure.

The present invention has been made to solve such problems, and by performing appropriate temperature management and moisture management in curing a concrete structure, the cracking of the concrete is suppressed, and a high-quality concrete structure is provided. It aims at providing the curing method and apparatus which can manufacture.

The curing method of the present invention has dropped along the outer wall, the step of supplying water toward the outer wall of the concrete structure after placing, the step of supplying water toward the inner wall of the concrete structure after placing, Measuring the temperature of water near the lower end of the outer wall, measuring the temperature of water falling along the inner wall near the lower end of the inner wall, and based on the temperature of water measured at the outer wall Adjusting the temperature of the water supplied toward the outer wall, and adjusting the temperature of the water supplied toward the inner wall based on the temperature of the water measured at the inner wall.

The concrete structure of the present invention is a concept including civil engineering structures using concrete, such as retaining walls and bridge piers, as well as caisson. Further, the outer wall and the inner wall are the whole or part of the concrete structure, and the concept includes all of them if the outside and inside of the concrete wall can be conceived. Water supply is a concept that does not matter the physical shape of water to be supplied, such as watering or spraying, or supply means.

In the curing method of the present invention, temperature control and wetness control of concrete can be performed by supplying water to the outer wall and inner wall of the concrete structure after placing the concrete. Regarding temperature management, by providing a water temperature adjustment function capable of individually adjusting the temperature of water on the inner and outer walls, temperature management can be performed in consideration of the temperature difference between the inner and outer walls. The temperature difference between the inner and outer walls can be detected as a difference in water temperature in a state close to the temperature of the wall surface itself by measuring the temperature of the water that has fallen along the wall surface in the vicinity of the lower end of the outer wall and the inner wall. By feeding back the detection result to the water temperature control, precise temperature management corresponding to the temperature difference between the inner and outer walls can be realized.

In the curing method of the present invention, the concrete structure may be either in a state where the formwork is mounted or in a state where it is removed. If the mold is still attached, the main function of water supply is to adjust the temperature of the mold. By using a part of the supplied water to prevent drying of the uppermost joint surface, it is also possible to have a wet function. For concrete structures that have been de-framed, humidity control by supplying moisture to prevent the drying of the inner and outer wall surfaces exposed to the outside air, and to maintain the hydration reaction necessary to develop the strength of the concrete, and temperature control Is the main function of water supply.

The curing method according to the present invention includes a step of supplying water toward the outer wall of the post-cast concrete portion with the formwork attached, when the concrete structure is manufactured by casting the concrete, and the formwork The process of supplying water toward the inner wall of the post-cast concrete part with the mold attached, the process of supplying water toward the outer wall of the cast-in concrete part with the formwork removed, and the condition of removing the formwork Supplying water toward the inner wall of the precast concrete portion, measuring the temperature of water descending along the outer wall near the lower end of the precast concrete portion, and water falling along the inner wall Measuring the temperature near the lower end of the precast concrete portion, adjusting the temperature of water supplied toward the outer wall based on the temperature of water measured at the outer wall, and the inner wall Step of adjusting the temperature of the water for supplying water toward the inner wall based on the temperature of the water Oite measurements can also be configured to include.

When a concrete structure is manufactured by concrete splicing, the splicing is performed step by step from the lower stage to the upper stage. While preventing the drying of the inner and outer wall surfaces due to transpiration, it is possible to supply moisture for maintaining the hydration reaction necessary to develop the strength of the concrete.

Further, the curing method of the present invention is directed to the temperature of the water supplied toward the outer wall and the inner wall so that the temperature of the water measured on the outer wall and the temperature of the water measured on the inner wall are equal to or higher than a predetermined temperature. The temperature of the water to be supplied can be adjusted.

By providing such a feed water temperature adjusting function, the hydration reaction can be promoted particularly in winter, and the temperature of the concrete can be maintained at a temperature required for strength development.

Furthermore, in the curing method of the present invention, the temperature of water supplied to the outer wall and the inner wall are adjusted so that the temperature of water measured on the outer wall and the temperature of water measured on the inner wall are the same. It can also comprise so that the temperature of the water to supply may be adjusted.

By providing such a feed water temperature adjusting function, the entire concrete structure can be maintained at a substantially uniform temperature, and quality and characteristics after completion can be improved.

The curing device of the present invention supplies water toward the outer wall of the post-cast concrete part with the mold attached, and supplies water toward the inner wall of the post-cast concrete part with the mold attached. Means, water supplying means toward the outer wall of the precast concrete part with the formwork removed, means for supplying water toward the inner wall of the precast concrete part with the formwork removed, and the outer wall Means for measuring the temperature of water descending along the lower end of the precast concrete part, means for measuring the temperature of water descending along the inner wall near the lower end of the precast concrete part, and Means for adjusting the temperature of water supplied toward the outer wall based on the temperature of water measured at the outer wall; and adjusting the temperature of water supplied toward the inner wall based on the temperature of water measured at the inner wall. It means provided with a,.

According to the present invention, since the temperature management can be performed in consideration of the temperature difference between the inner and outer walls of the concrete structure during the curing period after placing the concrete, the hydration reaction progress rate due to the temperature difference between the inner and outer walls The difference can be eased. In addition, it is possible to prevent the drying of the inner and outer wall surfaces due to the transpiration of moisture after removing the frame, and to supply moisture for maintaining the hydration reaction necessary for developing the strength of the concrete. As a result, it is possible to suppress the occurrence of wall dropouts, cracks, and the like, and it is possible to realize the production of a concrete structure excellent in quality and strength.

The figure which shows the example which applied the curing apparatus of embodiment of this invention to caisson manufacture 2-2 sectional view of FIG.

Embodiments of the present invention will be described with reference to the drawings. 1 and 2 show an example in which the curing device of the present invention is applied in the production of caisson. The caisson 10 includes a base portion 12, a side wall portion 14 that forms an outer frame of the box, and a partition wall portion 16 that divides the inner space of the box. The caisson 10 is manufactured stepwise from bottom to top by casting concrete. In FIG. 1, a precast concrete portion 18 is cast on the foundation portion 12, and a postcast concrete portion 20 is cast thereon. It is inherited. The post-cast concrete portion 20 is in a state in which the molds 22 and 24 used when placing fresh concrete are still mounted. The mold frame 22 is mounted on the outer wall side facing the outside of the caisson 10 in the side wall portion 14, and the mold frame 24 is mounted on the inner wall side facing the inside of the caisson 10 in the side wall portion 14 and both sides of the partition wall portion 16. Has been.

A work scaffold 30 is constructed around the caisson 10 at a predetermined distance from the outer wall of the side wall 14. Scaffolds 32 and 34 are also constructed inside the caisson 10. Scaffolds 32 and 34 are respectively constructed at two positions near the upper end and near the lower end of the four-sided formwork 24.

The scaffold 30 is provided with water feeders 40 and 42 at positions facing the outer wall of the side wall 14. The water feeders 40 are arranged at equal intervals in the width direction of the caisson 10 at positions higher than the upper end of the mold 22. The water supply 42 is provided below the water supply 40 at a position substantially the same height as the lower end of the mold 22, and is arranged at equal intervals in the width direction of the caisson 10 as with the water supply 40.

The water supply units 40 and 42 are connected to a water storage tank 46 placed outside the caisson 10 by a water supply pipe 44 provided so as to be placed over a single pipe constituting the scaffold 30. A pressure pump 48 is installed in the water supply pipe 44, and the water stored in the water storage tank 46 is pumped through the water supply pipe 44 by the operation of the pressure pump 48 and supplied to the water supply units 40 and 42. . A water temperature adjusting device 50 is installed in the water supply pipe 44, and the water supplied to the water feeders 40 and 42 is managed at a predetermined temperature by the water temperature adjusting device 50.

A water supply pipe 52 of a different system from the water supply pipe 44 is also connected to the water storage tank 46. The water supply pipe 52 extends to the inside of the caisson 10 through substantially the center of the space surrounded by the four molds 24. Two water supply devices 54 and 56 are connected to the water supply pipe 52. The water supply 54 is provided below the upper scaffold 32. The water feeder 56 is provided below the lower scaffold 34. A pressure pump 58 is installed in the water supply pipe 52, and the water stored in the water storage tank 46 is pumped through the water supply pipe 52 by the operation of the pressure pump 58 and supplied to the water supply units 54 and 56. . A water temperature adjusting device 60 is installed in the water supply pipe 52, and the water supplied to the water supply devices 54 and 56 is managed at a predetermined temperature by the water temperature adjusting device 60.

A thermometer 62 (outer wall side thermometer 62) and a thermometer 64 (inner wall side thermometer 64) are provided at the lower end of the precast concrete portion 18 of the side wall portion 14 on the outer wall side and the inner wall side, respectively. The outer wall side thermometer 62 measures the water temperature when the water supplied from the water supply device 40 and the water supply device 42 descends to the lower end of the precast concrete portion 18 through the outer wall. The inner wall side thermometer 64 measures the water temperature when the water supplied from the water supply device 54 and the water supply device 56 travels down the inner wall to the lower end of the precast concrete portion 18.

The curing device according to the embodiment of the present invention includes the above-described water feeders 40, 42, 54, 56, water supply pipes 44, 52, water tank 46, pressurizing pumps 48, 58, water temperature adjusting devices 50, 60, and outer wall side temperature. A total 62 and an inner wall side thermometer 64 are included. The water feeder 40 supplies water toward the joining surface 70 at the upper end portion of the post-cast concrete portion 20 of the side wall portion 14 and the mold 22 that remains attached to the outer wall side. The water supplied from the water feeder 40 has a function of adjusting the temperature of the post-cast concrete portion 20 with which the mold 22 is in contact from the outer wall side by wetting substantially the entire surface of the mold 22 from above to below. .

A water supply 42 provided below the water supply 40 supplies water toward the boundary between the precast concrete portion 18 and the postcast concrete portion 20 of the side wall portion 14. The water supplied from the water feeder 42 wets the outer wall of the precast concrete portion 18 from the top to the bottom, wet-cures the outer wall surface of the precast concrete portion 18, and changes the temperature of the precast concrete portion 18 to the outer wall side. There is a function to adjust from.

On the other hand, the water supply device 54 provided inside the caisson 10 supplies water in four directions from a substantially central position of the four-side mold 24. The water supplied from the water feeder 54 adjusts the temperature of the post-cast concrete part 20 with which the mold 22 is in contact from the inner wall side by wetting substantially the entire surface of the four molds 24 from above to below. There is a function.

A water supply 56 provided below the water supply 54 supplies water toward the boundary between the precast concrete portion 18 and the postcast concrete portion 20 of the side wall portion 14. The water supplied from the water feeder 56 wets the inner wall of the precast concrete portion 18 from top to bottom, wet-cures the inner wall surface of the precast concrete portion 18, and changes the temperature of the precast concrete portion 18 to the inner wall side. There is a function to adjust from.

The water supplied from the water supply device 40 and the water supply device 42 descends along the surface and outer wall surface of the mold 22. The outer wall side thermometer 62 measures the temperature when the descending water reaches the lower end of the precast concrete portion 18. The temperature data measured by the outer wall side thermometer 62 is transmitted to the water temperature adjusting device 50. The water temperature adjusting device 50 compares the temperature data (set value) set in advance with the temperature data (measured value) transmitted from the outer wall side thermometer 62, and if the measured value exceeds the set value, the water temperature is adjusted. If the measured value is lower than the set value, water temperature adjustment control is performed to increase the water temperature.

Water supplied from the water supply 54 and the water supply 56 descends along the surface and inner wall surface of the mold 24. The inner wall side thermometer 64 measures the temperature when the descending water reaches the lower end of the precast concrete portion 18. The temperature data measured by the inner wall side thermometer 64 is transmitted to the water temperature adjusting device 60. The water temperature adjusting device 60 compares temperature data (set value) set in advance with temperature data (measured value) transmitted from the inner wall side thermometer 64, and if the measured value exceeds the set value, the water temperature is adjusted. If the measured value is lower than the set value, water temperature adjustment control is performed to increase the water temperature.

As described above, the curing device according to the present embodiment supplies water whose water temperature is individually adjusted to the outer wall side and the inner wall side during the curing period after the concrete is placed on the side wall portion 14 of the caisson 10. Thus, wet management and temperature management can be performed simultaneously. In particular, in the case of the side wall 14, since the temperature is greatly different between the outer wall side exposed to the outside air and the inner wall side facing the inside which is a half-closed space, by supplying water adjusted to different temperatures, It is possible to mitigate the difference in the progress rate of the hydration reaction due to the temperature difference. In addition, by controlling the temperature of the concrete by supplying water, it is possible to prevent the drying of the inner and outer wall surfaces due to the transpiration of moisture after de-framework, and to supply moisture to maintain the hydration reaction necessary to develop the strength of the concrete. Can do. As a result, it is possible to suppress the occurrence of falling and cracking of the inner and outer wall surfaces, and it is possible to realize the manufacture of the caisson 10 having excellent quality and strength.

10 Caisson 14 Side wall part 16 Bulkhead part 18 Precast concrete part 20 Postcast concrete part 22 Formwork (outer wall side)
24 formwork (inner wall side)
40, 42 Water supply (outside wall side)
44 Water supply pipe (outer wall side)
46 Water tank 48 Pressure pump (outer wall side)
50 Water temperature control device (outside wall side)
52 Water supply pipe (inner wall side)
54, 56 Water supply (inner wall side)
58 Pressurizing pump (inner wall side)
60 Water temperature control device (inner wall side)
62 Outer wall side thermometer 64 Inner wall side thermometer

Claims (5)

Supplying water toward the outer wall of the concrete structure after placing;
Supplying water toward the inner wall of the concrete structure after placement;
Measuring the temperature of water descending along the outer wall near the lower end of the outer wall;
Measuring the temperature of water descending along the inner wall near the lower end of the inner wall;
Adjusting the temperature of water supplied toward the outer wall based on the temperature of the water measured at the outer wall;
Adjusting the temperature of water supplied toward the inner wall based on the temperature of the water measured at the inner wall;
Curing method for concrete structures including Supplying water toward the outer wall of the post-cast concrete part with the formwork attached,
Supplying water toward the inner wall of the post-cast concrete part with the formwork attached,
Supplying water toward the outer wall of the pre-cast concrete part in a state where the formwork is removed;
Supplying water toward the inner wall of the precast concrete part in a state where the formwork is removed;
Measuring the temperature of water descending along the outer wall in the vicinity of the lower end of the precast concrete part;
Measuring the temperature of water descending along the inner wall in the vicinity of the lower end of the precast concrete part;
Adjusting the temperature of water supplied toward the outer wall based on the temperature of the water measured at the outer wall;
Adjusting the temperature of water supplied toward the inner wall based on the temperature of the water measured at the inner wall;
Curing method for concrete structures including The temperature of water supplied toward the outer wall and the temperature of water supplied toward the inner wall are adjusted so that the temperature of water measured at the outer wall and the temperature of water measured at the inner wall are equal to or higher than a predetermined temperature. The method according to claim 1 or 2. The temperature of water supplied toward the outer wall and the temperature of water supplied toward the inner wall are adjusted so that the temperature of water measured at the outer wall and the temperature of water measured at the inner wall are the same. The method according to claim 1. Means for supplying water toward the outer wall of the post-cast concrete part with the formwork attached;
Means for supplying water toward the inner wall of the post-cast concrete part with the formwork attached,
Means for supplying water toward the outer wall of the pre-cast concrete part in a state where the formwork is removed;
Means for supplying water toward the inner wall of the precast concrete part in a state where the formwork is removed;
Means for measuring the temperature of water descending along the outer wall in the vicinity of the lower end of the precast concrete part;
Means for measuring the temperature of water descending along the inner wall in the vicinity of the lower end of the precast concrete part;
Means for adjusting the temperature of water supplied toward the outer wall based on the temperature of the water measured at the outer wall;
Means for adjusting the temperature of water supplied toward the inner wall based on the temperature of water measured at the inner wall;
A concrete structure curing device comprising:

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