JP2009101569A - Curing device and curing method of mass concrete - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a curing device and a curing method of a mass concrete. <P>SOLUTION: The intermediate part of a water conduit 2 is embedded in a part serving as the center of the mass concrete, and the water conduit 2 has a water supply port and a water drainage port arranged in a part located outside the mass concrete. In addition, the water drainage port is connected with a water sprinkling pipe or a sprinkling hose 11 arranged on the surface of the mass concrete through a connecting pipe. Further, water collecting facilities and a filter of curing water are arranged at the downstream side of the curing water, on the surface of the water-sprinkled mass concrete, and the water supply ports for the water collecting facilities and the water conduit are connected to one another through the water conduit and a pump. Hot water obtained by heat passing through the water conduit with the intermediate part embedded in the part serving as the center of the mass concrete is used as the curing water to be sprinkled for curing the surface of the mass concrete. The curing water cooled after sprinkling and curing the mass concrete is filtered using the filter, and then, returned to the water conduit to cool the center of the mass concrete. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention is a curing method for cooling a mass concrete surface by cooling water heated by hydration heat while cooling a central portion of mass concrete placed in a mold by a water flow pipe disposed in the mold. The present invention relates to a curing apparatus and curing method for mass concrete used as water.

Conventionally, various methods have been taken as countermeasures against cracking in a concrete structure having a large cross-sectional dimension such as a column head. Particularly in mass concrete, various methods have been taken to prevent cracks due to temperature differences between the central part of the concrete due to the heat of hydration and the peripheral part including the mass concrete surface, and cracks due to drying shrinkage (for example, patents). References 1-3).
It is also known to cool by piping inside mass concrete.
In addition, sprinkling curing that cures the mass concrete surface has been performed by a method of continuously spraying water on the concrete surface. However, in recent years, attention has been paid to environmental considerations, and when water sprayed on alkaline concrete is allowed to flow around. There is also the problem of having to consider the water quality.
JP-A-6-137364 JP-A-6-285832 Japanese Patent Laid-Open No. 6-129095

As a means for solving the above problems, a combination of watering and heat insulation is considered. However, in the case of mass concrete, the central portion of the mass concrete becomes a considerably high temperature due to heat of hydration, and the temperature difference from the peripheral portion is large, and the possibility of cracking due to temperature stress increases.
If water curing is done there, the result is that the temperature of the peripheral part including the mass concrete surface is lowered even temporarily, increasing the temperature of the central part of the mass concrete and the peripheral part including the surface of the mass concrete. Therefore, there is a problem that the possibility of cracking due to temperature stress is increased.
It is an object of the present invention to provide a mass concrete curing device and a curing method that can advantageously solve the above problems.

In order to advantageously solve the above-described problem, in the mass concrete curing device of the first invention, an intermediate portion of the water pipe is embedded in a portion that is a central portion of the mass concrete, A water supply port and a discharge port are provided in a portion located outside the mass concrete, and the discharge port and a watering pipe or a watering hose installed on the surface of the mass concrete are connected via a connection pipe. Features.
In the second invention, in the curing apparatus for mass concrete in the first invention, a curing water collecting facility and a filter are provided on the downstream side of the curing water on the surface of the mass concrete sprayed from the watering pipe or the watering hose, The mass concrete curing device according to claim 1, wherein the water collection facility and the water supply port of the water flow pipe are connected via a water supply line and a pump.
In the mass concrete curing method according to the third aspect of the present invention, curing is performed by spraying the surface of the mass concrete with hot water heated through a water passage pipe having an intermediate portion embedded in a central portion of the mass concrete. It is characterized by being used as water.
According to a fourth aspect of the present invention, there is provided a method for curing mass concrete according to the third aspect of the present invention, wherein the cured water cooled by spraying water is filtered by a filter and then returned to the water flow pipe to cool the central portion of the mass concrete. It is characterized by doing.

According to the mass concrete curing device of the first invention, a water pipe or a water hose installed on the surface of the mass concrete is connected to the water pipe embedded in the central portion of the mass concrete via the connection pipe. It can be a curing device with a simple structure. Moreover, it can be set as the curing apparatus which cools the center part of mass concrete and warms a mass concrete peripheral part with the curing apparatus of such a simple structure.
Moreover, the curing water for curing the mass concrete surface can be changed to the curing water (warm water) heated by cooling the central part of the mass concrete using a simple structure curing device. It can be used as curing water for warming and curing the surrounding area including the surface of the mass concrete, so that the water cooled in the area can be used as a curing water. The temperature difference can be made smaller than in the conventional case.
The temperature difference between the temperature of the central portion of the mass concrete and the temperature of the peripheral portion including the mass concrete surface can be reduced to suppress or prevent cracking due to temperature stress and drying shrinkage.
Moreover, since the curing temperature of the whole mass concrete can be stabilized and cured, the cured mass concrete can be made high-quality concrete.
Further, in the curing device as in the second invention, the water heated by cooling the central portion of the mass concrete is heated by flowing the surface of the mass concrete, while the curing water is cooled. Can filter and use the curing water circulate, can reduce the cooling water and curing water, economically cool the center of mass concrete and warm the periphery including the surface of mass concrete Can be cured. Therefore, since the curing temperature of the entire mass concrete can be stabilized and cured, the cured mass concrete can be made high-quality concrete.
In addition, it is possible to obtain a double effect that limited water is used as cooling water or curing water, and it is only necessary to filter the limited water, and it is only necessary to consider the quality of the limited water. It is done.
Moreover, according to 3rd invention, the warm water warmed through the inside of the water flow pipe by which the intermediate part was embedded and arrange | positioned in the part used as the center part of mass concrete is utilized as curing water which sprinkles the surface of mass concrete. Therefore, the water that cooled the center of mass concrete can be economically warmed and used as curing water to warm and cure the surrounding area including the surface of mass concrete. And the temperature difference between the surroundings of the mass concrete can be made smaller than in the conventional case. Therefore, since the curing temperature of the entire mass concrete can be stabilized and cured, the cured mass concrete can be made high-quality concrete.
Further, by a simple method, the temperature difference between the temperature of the central portion of the mass concrete and the temperature of the peripheral portion including the mass concrete surface can be reduced, and cracking due to temperature stress can be prevented.
According to the fourth aspect of the present invention, the warm water heated through the water pipe in which the middle part is embedded in the central part of the mass concrete is used as curing water for watering and curing the surface of the mass concrete. After the water cured and cooled, the cured water is filtered through a filter, and then returned to the water pipe to cure the mass concrete so that the center of the mass concrete is cooled. It is only necessary to perform a filtration treatment of the obtained water, and it is possible to obtain an effect capable of providing a filtration device having a double advantage that only the water quality of the limited water needs to be considered. Moreover, since the curing temperature of the entire mass concrete can be stabilized and cured, the cured mass concrete can be made of high quality concrete.

    Next, the present invention will be described in detail based on the illustrated embodiment.

  1 to 3 show an embodiment of a mass concrete curing device 1 according to an embodiment of the present invention, in which a water flow pipe 2 is provided at a central portion of a concrete column head 3 in a bridge. By filling the column head mass concrete 4 while being bent continuously in a formwork (not shown), the middle part of the water flow pipe 2 is embedded in the concrete column head 3 Has been.

The water flow pipe 2 is connected to a short pipe or the like as appropriate through a joint, and is continuously bent in the horizontal direction and bent in multiple stages in the vertical direction, or bent in the vertical direction. The middle part of the water flow pipe 2 (cooling water flow pipe) is embedded from the center of the mass concrete 4 to the peripheral part of the mass concrete 4, The temperature increase of the central portion of the mass concrete 4 due to the heat of hydration of the mass concrete 4 can be suppressed, and the temperature difference between the central portion of the mass concrete 4 and the peripheral portion at a position away from the central portion of the mass concrete 4 is reduced. .
The center part and the peripheral part may be the central part and the peripheral part of the mass concrete 4 in at least one cross section including the center position of the mass concrete 4, respectively.

  When the concrete 4a for the upper floor slab 5 immediately above the column head is placed, a concrete curing mat 8 including a wet curing mat 6 is laid on the upper surface of the upper floor concrete 4a. A curing water supply pipe 7 is laid on the curing mat 8, and a plurality (four or five in the illustrated case) of water spray pipes or intervals in the longitudinal direction of the curing water supply pipe 7. The base end side of the watering hose 11 is appropriately connected via a water supply valve (not shown).

  The watering hose 11 is provided with watering holes on both sides or one side in the longitudinal direction at intervals in the longitudinal direction. When a commercially available hose made of a synthetic resin (for example, vinyl chloride) is used as the watering hose 11, the watering hose 11 is inexpensive and can easily form a watering hole.

  From the intermediate part to the tip part of the watering hose 11 is disposed on the wet curing mat 6 through a positioning support member (not shown) as appropriate, and the tip of each watering hose 11 is also provided. The part is closed. The watering hoses 11 extend in the direction perpendicular to the bridge axis (in the case of illustration) or the direction of the bridge axis (not shown), and are arranged in parallel at intervals in the direction perpendicular to the bridge axis.

  On both sides of the bridge deck direction (or a right angle direction not shown) in the upper floor slab 5, weir dam plates 12 extending in the bridge axis right angle direction (or a bridge axis direction not shown) are appropriately disposed in a direction perpendicular to the bridge axis ( Alternatively, it is provided so as to extend in the direction of the bridge axis (not shown) so that it can be wet-cured.

  On the downstream side where the curing water sprinkled from the watering hose 11 flows down (in the illustrated case, the bottom end flange in the width direction of the bridge body), the water collecting basin 13 is slightly inclined in the longitudinal direction. And a filter 22 is provided at the downstream end of the water collecting basin 13 to remove harmful components eluted from the curing concrete and contained in the curing return water, and connected to the filter 22. Water is stored in a water collection tank 14 as a water storage tank.

  The filter 22 removes (or neutralizes) the harmful components contained in the curing water containing harmful components such as alkaline components eluted from the concrete on the surface of the bridge body.

  The water collection tank 14 is supported by a support member installed on a work platform or the like on the ground or in a wagen (mobile work vehicle), as appropriate, at a position slightly away from the end in the width direction of the girder (not shown). Omitted).

  The cured water treated as described above is stored in a water collection tank (water storage tank) 14. One end of the water supply conduit 9 is connected to the water collection tank 14, and an electric water supply pump 15 is interposed in the middle of the water supply conduit 9 (if necessary, the electric water supply pump 15 and as necessary. A curing water temperature control device is interposed), and the other end of the water supply pipe 9 is connected to the inlet 2 a of the water flow pipe 2.

  The curing water temperature control device is equipped with an outside air temperature detection device, a water temperature detection device, a curing water heating device, a curing water cooling device, or a curing water heating and cooling device, You may make it use what detects temperature and makes temperature control of curing water possible.

  In addition, when a curing water temperature control device is further interposed, the curing water temperature control device can set the temperature of the curing water according to the working place, working season or working time, or working place. Or according to the curing time, the temperature of curing water can also be made controllable suitably.

  The outlet 10b of the drain pipe 10 is connected to the outlet 2b of the water pipe 2. The outlet 10b of the drain pipe 10 is connected to the upper surface 5a of the upper floor slab 5 built integrally on the column head. It is connected to the entrance of a curing water supply pipe 7 laid so as to extend in the direction of the bridge axis (in the case of illustration) or in the direction perpendicular to the bridge axis (not shown).

  A heat insulating sheet 18 is provided on the bridge body so as to cover the watering hose 11. Thereby, the upper surface of the mass concrete 4 of the column head and the floor slab 5 immediately above the column head in a thermally insulated state is heat-cured and wet-cured. In addition, the side surface of the pillar head in the direction perpendicular to the bridge axis is appropriately heat-treated.

  Further, instead of the curing mat 8 comprising the wet curing mat 6, as shown in FIG. 4, between the wet curing mat 6 disposed on the lower surface side and the moisturizing curing mat 19 disposed on the upper surface side. Moreover, you may make it use the mat | matte 8b for a two-layer structure provided with the watering hose 11 extended in the bridge axis direction and arrange | positioned in parallel with the space | interval at right angles to the bridge axis. When such a two-layer curing mat 8b is used, a sheet 18b having no heat insulating property or a sheet 18b may be omitted as a sheet covering the entire bridge surface of the new concrete including the watering hose 11 and the like. You can also

  By the curing water sprayed from the watering hose 11 as described above, the wet curing mat 6 is always moistened with water, and the risk of the concrete surface being dried and cracked can be eliminated. In addition, since the wet water curing or the wet / heat insulation curing is possible by continuously passing water, the sheet (the heat insulation sheet 18 or the sheet 18b) covering the entire bridge surface can be omitted.

  The wet mat may be composed of a plate-shaped water retention material and a water-permeable sheet material surrounding the outside.

  Moreover, what is necessary is just to comprise as a mat | matte for heat insulation with the bag-shaped waterproof sheet | seat material which wraps the outer side of a strip-shaped heat insulation member. Also, a wet / moisturizing curing mat having a two-layer structure in which a watering hose is interposed in parallel with a gap between the moistening mat and the moisturizing mat and integrated by adhesion or adhesion. Good.

As the heat insulating curing sheet, for example, a reinforcing waterproof sheet is bonded to both surfaces of a bubble sheet in which a plurality of air cells formed by sealing air in a cylindrical shape between two thermoplastic resin films are provided at predetermined intervals. It is also possible to use a heat-insulating curing sheet adhered by smoke processing or the like.

  The water supply pipe 9 may be appropriately provided with a main supply type water supply valve (not shown) to adjust the flow rate.

  In addition, you may make it the surrounding side part of the mass concrete 4 heat-insulate by the heat insulating material provided in a formwork inner side or an outer side.

In the apparatus of the embodiment, since the water flow pipe 2 is arranged in the central portion of the mass concrete 4, the hydration heat in the central portion of the mass concrete 4 is absorbed by the lubricating water flowing in the water flow pipe 2. Thus, the mass concrete center can be cured while being reliably cooled. Therefore, the curing accuracy of the mass concrete center can be increased, and a curing method with high curing quality can be obtained.
Moreover, in the center part of the mass concrete 4, it can be set as the mass concrete which is uniform and good quality.

  Next, a curing method of the upper floor slab 5 constituting the mass concrete 4 of the column head shown in FIG. 1 and the bridge body immediately above the mass concrete 4 shown in FIG. 1 will be described using the mass concrete curing device 1 as described above.

  When the pump 15 is driven to pass through the water pipe 2, the water passed through the water pipe 2 piped inside including the central part of the mass concrete 4 at the head of the column gradually flows into the mass concrete 4. The hot water from the heated cooling water is sprinkled from the watering hose 11 installed on the upper surface of the upper floor slab 5 while being heated while cooling the center of the mass concrete 4 by removing the heat of hydration (pipe cooling), Curing water for warm water for curing the upper surface of the upper floor slab 5 forming the upper surface of the mass concrete 4 while warming.

  Curing is performed while warming the surface of the mass concrete 4 with the above-described curing water. Accordingly, the temperature difference between the inside and outside of the mass concrete 4 portion can be reduced as shown by the two-dot chain line in FIG. 5, and the curing temperature difference between the central portion and the peripheral portion of the mass concrete 4 portion is reduced. Can be cured and can be made to be homogeneous concrete throughout the mass concrete.

  In addition, the continuous line in FIG. 5 shows the internal-external temperature difference in the mass concrete part at the time of curing only the surface of a bridge body (normal curing) in the conventional case, and the internal-external temperature difference of mass concrete is large. Moreover, the dotted line in FIG. 5 shows the case where a water flow pipe is arrange | positioned in mass concrete and only the inside of mass concrete is cooled (pipe cooling).

  As can be seen from FIG. 5, in the case of the present invention, it can be seen that the difference in temperature between the inside and outside of the mass concrete 4 portion is smaller than that in the other cases even when the age has passed.

Fig. 6 shows the water temperature (discharge temperature) of the outlet of the water pipe 2 passing through the center of the mass concrete 4, and after showing the maximum temperature of less than 30 ° C around the age of 1 day, It can be seen that the temperature of the water at the outlet gradually decreases until about 3 days of age.
As an analysis condition, the heat transfer coefficient between the water flow and the pipe is 105 kcal / hrm ² ° C.
Cooling water flow temperature is 20 ℃
The cooling water flow rate is 15 cm / sec.
As analyzed.
From FIG. 6, the temperature (discharge temperature) of the water at the outlet of the water pipe 2 does not exceed 30 ° C., and the temperature of the water at the outlet (° C.) is almost 25 after the age of 3 days. It can be seen that the temperature is stable and the curing temperature is stable.

FIG. 7 shows a schematic perspective view of the mass concrete curing device 1 of the present invention placed on the column head 3, and FIG. 8 is an explanatory diagram showing the temperature stress state when cured by the method of the present invention. FIG. 9 is an explanatory diagram showing a temperature stress state when the mass concrete 4 is cooled only by the water passage pipe 2, and FIG. 10 shows a temperature stress state when the water pipe 2 is not cooled without being arranged. It is explanatory drawing shown. In the figure, the “spotted region” has higher tensile stress than the “hatched region”, and the “satched and dotted region” has higher tensile stress than the “dotted region”. It is shown.
Further, as can be seen by comparing FIG. 8 with FIG. 9 or FIG. 10, in the order of FIG. 10, FIG. 9, FIG.
It can be seen that the tensile stress is smaller on the end side in the bridge axis direction.
That is, as in the present invention, when the central portion of the mass concrete 4 is cooled by the water flow pipe 2 and the upper floor slab 5 is sprinkled with warm water heated by cooling the central portion, 9 or 10, the temperature difference between the central portion of the mass concrete 4 and the concrete at the peripheral portion thereof can be reduced, and the tensile stress on the end side in the bridge axis direction can be reduced.

  As in the present invention, the water flow pipe 2 is embedded in the interior including the central portion of the mass concrete 4 at the head of the column, and the cooling water 2 is cooled by flowing through the water flow pipe 2 while the cooling water 2 is warmed. Since the hot water can be used as the curing water and flowed to the upper surface of the upper floor slab 5 immediately above the head of the column, the curing water can be warmed economically. The upper floor slab 5 can be poured over the upper floor slab 5 to heat the water while it is warmed. The temperature between the inside of the column head including the center of the mass concrete 4 and the peripheral edge of the center of the mass concrete 4 on the outer surface side The difference can be reduced and cured.

In addition, as in the above embodiment, when water is sprayed on the concrete surface, it is limited if water is sprinkled from above the concrete surface, a receiving tub is provided under the water, water is collected and sent back to the inlet. Since the cured water can be used repeatedly, mass concrete can be cured economically.
When actually implementing the present invention, as in the above-described embodiment, the arrangement form of the pipes arranged in the central portion of the mass concrete is performed by FEM analysis, and the temperature of the central portion of the mass concrete is uniformly made into water. It should be designed to allow heat exchange.

  When carrying out the present invention, after curing the mass concrete, the water pipe 2 such as a steel pipe is filled with a curable filler such as mortar or concrete, and a cross section by a hollow portion in the cooling circulation pipe 2 It is also possible to improve the ultimate strength such as compression strength by eliminating the defect.

It is a schematic perspective view which shows the state which is curing the pillar head made from concrete using the mass concrete curing apparatus of this invention. It is a top view of FIG. It is a vertical side view which shows the state which is watering curing. It is a vertical side view which shows the state which is watering curing with another form. It is a graph which shows the relationship between various curing methods and the temperature difference inside and outside mass concrete. It is a graph which shows the relationship between discharge temperature of curing water, and discharge water temperature history. It is the schematic which shows the piping state of a concrete pillar head. It is the analysis figure which analyzed the temperature stress state at the time of curing with the curing method of the present invention using the curing device of the present invention. It is explanatory drawing of the temperature stress state of a column head. It is the figure which analyzed the temperature stress state at the time of piping and curing inside mass concrete in a column head. It is explanatory drawing which analyzed the temperature stress state at the time of curing only the surface side of the mass concrete in a column head.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Mass concrete curing device 2 Water flow pipe 3 Concrete pillar head 4 Concrete 5 Upper floor slab 6 Wet curing mat 7 Curing water supply pipe 8 Concrete curing mat 9 Water supply pipe 10 Drainage pipe 10a Drainage pipe entrance 11 Watering pipe or watering hose 12 Water stop weir 13 Water collecting tank 14 Water collecting tank (water storage tank)
15 Pump 19 Moisturizing mat 22 Filter

Claims (4)

  An intermediate portion of the water pipe is embedded in the central portion of the mass concrete, and the water pipe is provided with a water supply port and a discharge port at a portion located outside the mass concrete. A mass concrete curing device, characterized in that a sprinkling pipe or a sprinkling hose installed on the mass concrete surface is connected via a connecting pipe.   On the downstream side of the curing water on the surface of the mass concrete sprayed from the sprinkling pipe or watering hose, there is a curing water collection facility and a filter, and the water collection facility and the water supply port of the water pipe are a water supply line and The mass concrete curing device according to claim 1, wherein the mass concrete curing device is connected via a pump.   The mass concrete is characterized by using warm water heated through a water pipe with the middle part embedded in the central part of the mass concrete as curing water to sprinkle the surface of the mass concrete. Curing method.   4. The mass concrete curing method according to claim 3, wherein the cured water cooled by spraying water is filtered by a filter, and then returned to the water flow pipe to cool the central portion of the mass concrete. How to cure mass concrete.

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