KR0151943B1 - Method for building concrete structure in winter - Google Patents

Abstract

The present invention relates to a construction method of the winter concrete structure that allows the concrete construction to be carried out without any problems even in winter, install a formwork (1) in which the heat insulation layer (2) is formed to a predetermined thickness, the formwork It is fixed to the bar in the place where the reinforcement (3) is reinforced in the interior of the ties are fixed and tied in place and install the heating wire (5) in a zigzag shape connect the two end lines to the power source, and the concrete structure by pouring the uncured concrete in the formwork (6) to be formed.

Description

Construction method of winter concrete structure

1 is an exemplary view showing a first embodiment of the present invention.

2 is an exemplary view showing a second embodiment of the present invention.

3 is an exemplary view showing another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1: formwork 2: heat insulation layer

3: reinforcing bar 5: heating wire

6: concrete structure 7: outside shield

The present invention relates to a construction method of the winter concrete structure that allows the concrete construction to be carried out without any problems even in winter.

Cement can only function as an adhesive by hydration with water.

Therefore, concrete made by mixing cement, aggregate, and water should not freeze the water therein until the hydration of the cement proceeds to a predetermined strength. This is because when cement freezes during the hydration process, the structural strength decreases because curing does not work properly. For this reason, concrete construction is not usually carried out in winter when the temperature drops below freezing.

However, in recent winter, there are times when it is necessary to proceed with unavoidable construction due to process control and climatic conditions of construction sites. In particular, the shorter the construction period, the shorter the summer and the longer the winter, so there is an urgent need for the construction of concrete in winter.

In order to prevent the strength of the concrete structure to be constructed in such a winter, conventionally it is to release heat with a hot air blower to increase the temperature of the room to cure uncured concrete. However, curing the uncured concrete by releasing heat to the hot air to raise the temperature of the room has some effects, but has the following problems. First, it is possible to cure uncured concrete by raising the temperature of the room with a hot air fan, but it is difficult to construct during the black cold period, which falls to several degrees below zero, and second, the elevated temperature of the room. The inner surface of the concrete structure allows the curing to proceed rapidly, but the curing time is long because it cannot affect the outer surface in contact with cold outside air. Third, the curing speed of the inner and outer surfaces of the concrete structure is not constant. There was a problem that the difference in the structural strength did not occur.

The purpose of the present invention is first, to enable concrete construction even in the black cold period, second, to shorten the concrete curing period, and third, the concrete structure is to be uniformly cured so that the structural strength of the winter concrete structure is kept constant To provide a construction method.

Hereinafter, the present invention will be described in detail the technical configuration.

The construction method of the winter concrete structure of the present invention installs the formwork (1) in which the heat insulation layer (2) is formed tightly to a predetermined thickness, and binds to the reinforcement bars (3) arranged in the interior of the formwork with binding lines. Fixed and zigzag heating wire (5) is installed to connect the two end wires to the power source, and the concrete structure 6 to form a concrete structure (6) by laying the uncured concrete inside the formwork is characterized in that .

Here, to form the heat insulating layer 2 in the form 1 tightly to prevent the heat generated in the form of heat to be transferred to the outside while preventing the cold air of the outside air to be transferred to the inside of the form uncured In order to promote the curing of concrete, and placing the heating wire (5) in the reinforcing bar (3) and placing the uncured concrete in the state connected to the power supply of the uncured concrete due to the heat generated from the heating wire (5) In order to prevent freezing and to promote curing, and the heating wire 5 is supported and fixed to the reinforcement bar 3 in several places and installed in a zigzag shape, the heating wire 5 may be disturbed due to the pressure during uncured concrete pouring. This is to prevent the concrete structure to maintain structural strength uniformly.

As described above, the first embodiment of the present invention is formed in the inner surface of the heat insulating layer 2 formwork 1 to prevent the heat generated in the formwork from being transferred to the outside while the cold air of the outside air is prevented. It is shown to promote the curing of uncured concrete by preventing it from being transferred into the formwork. At this time, it is preferable that the heat insulation layer 2 formed on the inner side tightly attach the heat insulation plate of a synthetic resin system such as Schiropol. At this time, it is necessary to attach with an adhesive or fix with a fixing pin so that the heat insulating layer (2) is arranged fixed to the inner side of the formwork. It is also revealed that the release agent may be applied to the inner surface of the heat insulation layer 2 so that the detachment is easily performed.

As described above, the first embodiment of the present invention in which the heat insulation layer 2 is formed on the inner surface of the formwork is preferably applied to a retaining wall structure or the like in which the concrete structure is not discharged to the outside. This is because the surface of the concrete structure is formed in direct contact with the heat insulating layer (2) is because complete removal of the heat insulating layer (2) is difficult and the surface is uneven.

In addition, according to a second embodiment of the present invention, FIG. 2 shows that the heat insulation layer 2 is formed on the outer surface of the formwork 1, thereby preventing the heat generated in the formwork from being transferred to the outside, while cooling the outside air. It is shown to promote the curing of uncured concrete by preventing it from being transferred into the formwork. At this time, the heat insulating layer 2 formed on the outer surface is easy to form by blowing urea foam. And it is desirable to be formed in a thin portion so as to facilitate the desorption operation of the long payment in the portion where the long payment is installed in the outer surface of the formwork is preferably not formed.

As described above, the second embodiment of the present invention in which the heat insulation layer 2 is formed on the outer surface of the formwork is preferably applied to the structure in which the concrete structure is exposed to the outside. This is to ensure that the surface of the concrete structure is made of a dense and smooth inner surface of the formwork.

Thus, the present invention is configured to be applied to the construction of a concrete structure in the winter, unlike the conventional heat cured concrete by releasing heat to the hot air to increase the outside temperature, the insulating layer on the outer surface or the inner surface of the formwork It is arranged, the heating wire (5) is installed in a zigzag shape on the reinforcement bar (3), to be bound to the reinforcement bar (3) at a predetermined position and to draw the two end wires outside the formwork to be connected to the power supply to supply electricity Because it prevents the freezing of unhardened concrete due to the heat generated from the heating wire (5) First, concrete construction is possible even in cold weather, and second, the reinforcing bar reinforced inside the concrete promotes the conduction of heat. It proceeds faster to shorten the overall construction period. Third, heating wires (5) to the reinforcement It is to be installed in a zigzag shape, but is bound to the reinforcement bar (3) at a predetermined position, thereby preventing the disturbance even when the pressure of the uncured concrete has an effect of increasing the structural strength while curing the concrete structure uniformly.

The heating wire (5) is to be installed in a zigzag, but it is noted that the interval may vary depending on the difference in temperature. That is, the spacing of the heating wires 5 is arranged so that the narrower as the temperature decreases, and wider as the temperature increases. This is because the heat amount per unit area increases as the spacing of heating elements 5 is narrower, and the heat amount per unit area decreases as the heating line 5 is narrower. In addition, the heating value can be adjusted according to the thickness of the low heating wire, the heating value increases as the heating wire is thicker. The heating wire 5 installed in this way is integrally embedded in uncured concrete and constructed.

Here, the heating wire (5) is preferably to be installed in a zigzag to the reinforcement bar (3) to be installed in the outer reinforcement bar. This is because the outer side of the structure is easy to freeze, so that the heating wire (5) is installed on the outer reinforcement (3) to increase the amount of heat on the outside to cure the outer and inner sides of the structure almost simultaneously to prevent structural defects For sake. However, since the upper surface is in contact with the outside air during the construction of a horizontal structure such as slabs, it is preferable that the heating wire 5 be installed on the upper reinforcing bar close to the upper side.

In addition, the heating wire (5) binds to the reinforcing bar (3) in several places so as to prevent it from being distracted by the pressure when the uncured concrete is poured. The heat generated from the heating wire (5) is the reinforcing bar (3) having high thermal conductivity. It is transmitted to have an effect of further promoting the curing of the concrete structure. When placing uncured concrete, it is necessary to be careful not to cut or stretch the heating wire (5) and to check the flow of current continuously until the concrete is completely cured after connecting the current to the heating wire (5). Do.

On the other hand, the present invention, as shown in Figure 3, it is preferable to cover the upper surface of the concrete structure (6) with an external air blocking membrane (7). This is because the upper surface of the concrete structure (6) is in contact with the low temperature outside air to prevent the difference between the structural strength of the interior and exterior of the concrete structure while promoting the curing of the uncured concrete by blocking the outside air. In addition, the outdoor air barrier membrane 7 may be made of a waterproof material to protect the concrete structure 6 from snow and rain.

As described above, the present invention is to allow concrete construction to be carried out without any problems even in winter, the insulation layer is disposed on the formwork and prevents the freezing of uncured concrete by heat generated from the heating wire and promotes curing As it blocks the outside air by covering the upper surface of the concrete structure with an external air barrier, it is very useful to prevent the defect of structural strength of the concrete structure while promoting curing of uncured concrete.

Claims (4)

Install the formwork (1) in which the heat insulation layer (2) is formed to a predetermined thickness, and the binding line is fixed to the reinforcement (3) reinforcement in the interior of the formwork in a binding line and installed heating wire (5) in a zigzag shape Connecting the two end lines to a power source, and the construction method of the winter concrete structure, characterized in that to form a concrete structure (6) by pouring uncured concrete in the formwork. The method of claim 1, wherein the heat insulation layer (2) is to be formed tightly on the inner surface of the formwork (1). The method of claim 1, wherein the heat insulation layer (2) is to be formed tightly on the outer surface of the formwork (1). The method for constructing a winter concrete structure according to claim 1, wherein the upper surface of the concrete structure (6) is covered with an outside air blocking membrane (7).