JPH08338129A - Concrete curing form and method of concrete curing - Google Patents

Abstract

PURPOSE: To increase concrete strength by bringing a curing method close to standard curing without increasing a cost in particular. CONSTITUTION: In a concrete curing form in which a plurality of small holes penetrating a water tank 2 closely provided outside the face plate 1 of a concrete form and the face plate 1 are formed, and a filter material 10 covering the small holes is stuck inside the face plate 1, after discharging outward surplus water generated from concrete by placing the concrete through the small holes, water is poured in the water tank 2 so as to supply water content to the surface of the concrete through the small holes. Water temperature in the water tank 2 after pouring water is detected, pouring and discharging of water are executed in the case of the water temperature higher than a set temperature, and pouring and discharging of water are stopped in the case of the water temperature under the set temperature, so as to keep the water temperature at the set temperature.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete curing formwork and a concrete curing method. For more details,
The present invention relates to a concrete curing formwork for enhancing the strength of concrete to prevent cracking and a curing method using the curing formwork.

[0002]

2. Description of the Related Art With the recent Great Hanshin Earthquake, there is a strong demand for improvement in the strength of concrete that supports structures.
Conventionally, mass concrete has a high risk of cracking due to temperature stress in the member due to a high temperature rise due to the heat of hydration of cement and a temperature drop due to cooling. It is installed to cool the inner surface of concrete. In addition, on the piers, etc., the concrete top surface is watered after it is placed, or it is covered with a sheet for curing. Also,
It is also known to use special cement having low heat resistance. On the other hand, the concrete side surface is only cured by the formwork face plate and is not specially cured.

[0003]

Although it is easy to cure the concrete top surface, it is difficult to cure the concrete side surface surrounded by the mold face plate, so that cracking or bubble pocking is likely to occur and corrosion of the reinforcing bar and corrosion There is a problem that the neutralization of concrete tends to proceed, resulting in insufficient strength. Also, the cost will increase if special cement is used.

On the other hand, although there are various concrete curing methods, standard curing such as curing the concrete in water at about 20 ° C. is known as the method for maximizing the concrete strength.

An object of the present invention is to provide a concrete curing formwork capable of improving concrete strength by approaching standard curing without increasing the cost, and a concrete curing method using the formwork. is there.

[0006]

In order to achieve the above object, the concrete curing formwork of the present invention comprises a water tank for receiving water for adjusting the surface temperature of concrete on the outside of a face plate constituting the formwork of concrete. It is characterized in that they are installed close to each other (Claim 1).

Preferably, a plurality of small holes penetrating the face plate and the water tank are formed, and a filter material covering the small holes is attached to the inside of the face plate (claim 2).

More preferably, a sensor for detecting the water temperature of the water tank, a water injection valve for opening and closing the water passage of the water inlet provided at the upper part of the water tank, and a passage for the water outlet provided at the lower portion of the water tank are opened and closed. And a control means for opening the water injection valve and the drain valve when the water temperature detected by the sensor becomes higher than the set temperature and closing the water injection valve and the drain valve when the water temperature detected by the sensor becomes lower than the set temperature. And (3) are added (claim 3).

In the concrete curing method of the present invention, a plurality of small holes penetrating the water tank and the face plate, which are installed in close contact with the outside of the face plate constituting the concrete formwork, are formed, and a filter material covering the small holes is provided. In the concrete curing formwork attached to the inside of the face plate, after discharging the excess water generated from the concrete by pouring the concrete to the outside through the small holes, water is poured into the water tank and the moisture is absorbed through the small holes into the concrete. It is supplied to the surface of (claim 4).

Further, preferably, the water temperature of the water tank after the water injection is detected, and the water injection and the water discharge are performed when the water temperature becomes higher than a set temperature, and the water injection and the water discharge are stopped when the water temperature becomes lower than the set temperature ( Claim 5).

[0011]

According to the present invention, since the water tank for receiving the water for adjusting the surface temperature of the concrete is installed in close contact with the outside of the face plate constituting the concrete formwork, cooling water can be poured into the water tank, for example. For example, the temperature near the surface of the concrete is lowered, and the heat of hydration during concrete placement is suppressed.

Further, preferably, a plurality of small holes penetrating the face plate and the water tank are formed, and a filter material covering the small holes is attached to the inside of the face plate. If this is done, excess water generated from the concrete will be discharged into the water tank through the small holes, and will be discharged to the outside through the discharge port of the water tank. The amount of water required for complete hydration of cement is theoretically about 30% of the weight of cement, but in reality it is made at about 40-70% to make the cement soft and easy to mix, The surplus water of the difference is discharged. As a result, air bubbles on the concrete surface are reduced and the surface layer is densified. When the water is poured into the water tank after the excess water is discharged, the water is supplied to the surface of the concrete through the small holes, so the cooling effect suppresses the heat of hydration at the time of pouring the concrete and prevents cracks. Since the concrete will be cured in a state close to standard curing by the supply of, the concrete strength will be improved. The action of the filter material prevents particles such as sand particles from entering the small holes and clogging.

More preferably, when the water temperature detected by the sensor is higher than the set temperature, the water injection valve and the drainage valve are opened, and when the water temperature is below the set temperature, the water injection valve and the drainage valve are closed, so that the water temperature is always maintained. Is adjusted to the set temperature.

[0014]

Embodiments of the present invention will be described with reference to the drawings. 1 is a perspective view showing an appearance of a concrete curing formwork according to an embodiment of the present invention, FIG. 2 is a plan view thereof, and FIG. 3 is a sectional view taken along line AA of FIG.

This concrete curing formwork has four face plates 1 in which a water tank 2 is closely attached to the outside, a temperature sensor 3 for water temperature detection attached to the inner central portion of the water tank 2,
Water injection port 4 provided at the top of the water tank 2, water injection valve for opening and closing the flow path of the water injection port 5, drainage port 6 provided at the bottom of the water tank 2, drainage for opening and closing the flow path of the drainage port 6 The valve 7 and the control box 8 are included.

A plurality of small holes 9 are formed through the face plate 1 and the side face of the water tank 2 on the face plate side, and a filter material 10 is detachably attached to the inside of the face plate 1 so as to cover the small holes 9. It is attached. The filter material 10 is made of cloth or the like and is designed to prevent particles such as sand from entering the small holes 9 and clogging. The water injection valve 5 and the water discharge valve 7 are solenoid valves, and the opening and closing of the valves is a control box 8.
It is supposed to be done by the process inside. Or
The water injection valve 5 and the drainage valve 7 may be opened and closed by using a motor.

Next, with reference to FIG. 4, an outline of the configuration of the electric system incorporated in the control box 8 will be described. This electric system includes a CPU 11 for controlling the whole, a ROM 12 in which a control program and the like are written in advance, a RAM 13 for storing a detected temperature T and a set temperature T ₀ sent from the temperature sensor 3, an operation board 14, a water injection valve 5 And a solenoid driver 15 for driving the drain valve 7 to open and close, and a power source 16 is supplied to each part. The operation board 14 is provided with a start switch SW for starting control of opening and closing the water injection valve 5 and the drainage valve 7.

In order to cure concrete using the concrete curing form configured as described above, first, the water injection port 4 is closed and the drainage port 6 is opened, and then concrete is poured. Therefore, excess water generated from the concrete is discharged through the filter material 10 into the water tank 2 through the small holes 9, and further discharged from the discharge port 6 to the outside. As a result, air bubbles on the concrete surface are reduced and the surface layer is densified.

When the drainage is completed, the water injection port 4 is opened next,
After closing the drainage port 6, water for controlling the surface temperature of the concrete is poured into the water tank 2. As a result, water reaches the surface of the concrete through the small holes 9 and the filter material 10,
Due to the cooling effect, the heat of hydration at the time of pouring concrete is suppressed to prevent cracking, and the supply of water causes the concrete to be cured in a state close to standard curing, so that the concrete strength is enhanced.

Next, in order to always keep the water temperature in the water tank 2 constant, the opening / closing of the water injection valve 5 and the drainage valve 7 is automatically controlled. The control will be described with reference to FIG. That is, when the power is turned on, the CPU 11 performs initialization (step 1, the word step is omitted in the following cuts). In this initialization, the flag F indicating whether the solenoid, which will be described later, is on or off is 0.
(Solenoid is off).

Then, the CPU 11 uses the start switch S
It waits until W is turned on (2), and when the start switch SW is turned on by the user, the water temperature of the water tank 2 sent from the temperature sensor 3 is read and the value is input to the register T (3). Next, the value of the register T is compared with the temperature value T ₀ set by the input key (not shown) on the operation board 14 (4).

When the water temperature T of the water tank 2 is higher than the set temperature T _0, it is checked whether or not the flag F is 0 (5), and if it is 0 (initially in the initialization of step 1 0
Is set to. ), The solenoids of the water injection valve 5 and the drain valve 7 are turned on via the solenoid driver 15 to set the flag F to 1 (6, 7). As a result, the water injection valve 5 and the drainage valve 7 are opened, so that water is injected into the water tank 2 and at the same time drainage is performed, that is, water is circulated. This is repeated until the water temperature T becomes equal to or lower than the set temperature T ₀ . Here, the set temperature T ₀ is usually set to about 20 degrees in order to bring the concrete into a state close to standard curing, but it can be freely changed in consideration of the outside air temperature. Therefore, regardless of whether the concrete is cast in the cold or in the hot, it is possible to handle both cases.

When the water temperature T becomes equal to or lower than the set temperature T ₀ , it is checked whether the flag F is 0 (8), 1
If so (the flag F indicates that the solenoid is on), the solenoids of the water injection valve 5 and the drain valve 7 are turned off, and the flag F is set to 0 (9, 1).
0). As a result, the water injection valve 5 and the drainage valve 7 are closed, so that the water injection and drainage are stopped.

As a result, even if the heat of hydration generated when pouring concrete is taken away and the water temperature of the water tank 2 rises, the temperature of the water supplied to the surface of the concrete is always kept constant (set temperature T ₀ ). Therefore, the cooling effect can be obtained continuously. It is also effective to put a water retaining material in the water tank 2 in order to keep the water temperature constant.

As a result of conducting an experiment in the present embodiment, it is about 1.3 to 1.5 as compared with the case of using only an ordinary mold without a water tank.
We were able to double the concrete strength.

In the present embodiment, the form made up of the face plate 1 having the four water tanks 2 is constructed, but when the concrete is thin, for example, the face plates 1 having the water tank 2 are opposed to each other.
You may use only one. Further, although one temperature sensor 3 is attached to the water tank 2, a plurality of temperature sensors are attached to detect the water temperature at different water surface heights, calculate the average value of the water temperature, and compare it with the set temperature T _0. May be. Further, the surplus water generated from the concrete is once put into the water tank 2 and discharged from the discharge port 6 provided in the water tank 2, but even if another water discharge port is provided without being able to enter the water tank 2. Good.

FIG. 6 is an external perspective view showing another embodiment of the concrete curing formwork of the present invention. This is one in which a water tank 2 for receiving water for adjusting the surface temperature of concrete is installed in close contact with the outside of a face plate 1 constituting a concrete formwork, and in particular, a small hole 9 penetrating the face plate 1 and the water tank 2 is provided. Although the filter material 10 is not provided, the temperature near the concrete surface can be lowered by pouring water into the water tank 2, which is effective in that the heat of hydration during concrete pouring can be easily suppressed. In addition, you may make it perform the control which makes the water temperature constant as mentioned above.

[0028]

As described above, according to the present invention, since the water tank for receiving the water for adjusting the surface temperature of the concrete is closely placed on the outside of the face plate constituting the concrete formwork, the water tank is, for example, If cooling water is poured, the temperature near the surface of the concrete will drop, and the heat of hydration during concrete pouring can be easily suppressed without increasing the cost. Therefore, cracking of concrete is prevented, and along with this, durability against corrosion prevention, neutralization, salt permeation, freezing and thawing of reinforcing bars is improved.

Further, preferably, by forming a plurality of small holes penetrating the face plate and the water tank, when the water tank is emptied and concrete pouring is performed, surplus water generated from the concrete is discharged to the outside. The air bubble patter etc. is reduced and the surface layer is densified. Therefore, it is possible to further prevent cracking of concrete. In addition, when water is poured into the water tank after the excess water is discharged, the water is supplied to the surface of the concrete, so the cooling effect suppresses the heat of hydration during concrete placement, further preventing cracks, and supplying water provides standard curing. Since concrete will be cured in a state close to, the concrete strength will be improved. Note that the filter material prevents particles such as sand from entering the small holes and clogging, so that the water can be discharged and supplied stably.

More preferably, since the water temperature is always adjusted to the set temperature, even if the water temperature in the water tank rises by removing the heat of hydration generated during concrete pouring, the water supplied to the surface of the concrete The temperature is constant, so a stable cooling effect can be obtained continuously.

[Brief description of drawings]

FIG. 1 is an external perspective view showing an example of a concrete curing formwork according to the present invention.

FIG. 2 is a plan view of FIG.

3 is a cross-sectional view taken along the line AA of FIG.

FIG. 4 is a block diagram showing a schematic configuration of an electric system of the concrete curing formwork shown in FIG.

5 is a flowchart showing the processing contents of the CPU 11 shown in FIG.

FIG. 6 is an external perspective view showing another embodiment of the concrete curing form of the present invention.

[Explanation of symbols]

 1 Face plate 2 Water tank 3 Temperature sensor 4 Water injection port 5 Water injection valve 6 Drain port 7 Drain valve 11 CPU 15 Solenoid driver

Claims (5)

[Claims] 1. A concrete curing formwork, characterized in that a water tank for receiving water for adjusting the surface temperature of the concrete is installed in close contact with the outside of a face plate constituting the concrete formwork. 2. The concrete curing composition according to claim 1, wherein a plurality of small holes penetrating the face plate and the water tank are formed, and a filter material covering the small holes is attached to the inside of the face plate. Formwork. 3. A sensor for detecting the temperature of water in the water tank, a water injection valve for opening and closing a flow path of a water injection port provided in the upper part of the water tank, and a flow path for a drainage port provided in the lower part of the water tank. A control for opening the water injection valve and the water discharge valve when the water temperature detected by the sensor becomes higher than a set temperature, and closing the water injection valve and the water discharge valve when the water temperature detected by the sensor becomes lower than the set temperature. The concrete curing formwork according to claim 1 or 2, further comprising means. 4. A plurality of small holes penetrating the water tank and the face plate which are installed in close contact with the outside of a face plate constituting a concrete formwork, and a filter material covering the small holes is provided inside the face plate. In the concrete curing form pasted, after discharging the excess water generated from the concrete by placing the concrete to the outside through the small holes, water is poured into the water tank and the water content is passed through the small holes to the surface of the concrete. A concrete curing method, which comprises supplying to 5. The water temperature of the water tank after the water injection is detected, water injection and drainage are performed when the water temperature becomes higher than a set temperature, and the water injection and drainage are stopped when the water temperature becomes lower than the set temperature. The concrete curing method according to 4.