KR101698493B1 - Cold-Weathering Concrete Curing Method by Hot-air Circulation - Google Patents

Abstract

More particularly, the present invention relates to a method for heating and curing a cold-weather concrete, and more particularly, to a method for heating and curing a cold-weather concrete in which a circulating fan is installed together with hot air in a curing house surrounded by a thin film, Circulating hot-air curing method in which the efficiency of curing by heating is improved by recirculating the hot-air circulation.
The hot-air circulation heating and insulation curing method according to the present invention is a method for curing a hot-air circulation heating hot-air circulation method, comprising the steps of: covering a target concrete at a position spaced above a target concrete before or after pouring concrete to be cured; And a circulating fan is installed inside the ventilation film. After the target concrete is laid, the hot air and the circulating fan are operated at the same time, and the hot air is cured. The hot air is discharged to the outside of the target concrete And the circulating fan is mounted on the support frame while being positioned above the hot air from the inside of the hot air, heated by the hot air, circulated to the circulating fan, and cured by heating.

Description

{Cold-Weathering Concrete Curing Method by Hot-air Circulation} for the improvement of quality and curing cost of cold-

More particularly, the present invention relates to a method for heating and curing a cold-weather concrete, and more particularly, to a method for heating and curing a cold-weather concrete in which a circulating fan is installed together with hot air in a curing house surrounded by a thin film, Circulating hot-air curing method in which the efficiency of curing by heating is improved by recirculating the hot-air circulation.

When the average temperature of the day is less than 4 ℃, the hardened concrete hardening reaction is delayed so that the concrete may freeze at night or at dawn as well as during the daytime. To prevent such freezing phenomenon, it is concrete in the middle of the day. The early-strength concrete for the prevention of early East Sea and the promotion of mold release Acquisition, cracking of structure due to rapid temperature change Management is necessary for prevention. The Korea Concrete Institute has prepared concrete management standards according to the outside temperature as shown in [Table 1] below.

[Table 1]

Concrete management criterion according to ambient temperature

As shown in [Table 1], it is essential that the curing and curing reaction in winter is delayed and the duration of the formwork is increased, which affects the overall air. Particularly, when the temperature is lower than -3 ° C, rapid curing (heating and heating curing) is carried out. The heating curing is classified into three types according to the specific heating method. The heating methods are shown in Table 2 below.

[Table 2]

Comparison of types of heating methods

As shown in [Table 2] above, the space heating method using hot air is most commonly used as the heating method in the heating and curing. However, in the space heating method, a heated layer due to the density difference is formed inside the curing house maintained at a height of 2 to 4 m, the high temperature air is concentrated on the upper side and the surface temperature of the concrete on the lower side is low, There is a disadvantage that the oil cost becomes excessive.

Meanwhile, the prior patent documents related to the thermal curing of cold-weather concrete include patent applications 10-2002-0077018, 10-2004-0044589, and 10-2009-0090902, Techniques for improving the space heating method with curing techniques are insignificant.

The present invention has been developed to improve the disadvantages of heat insulation curing using a conventional hot air blower. The hot air circulation warming curing method capable of improving the efficiency of heat insulation curing by recirculating hot air stagnating in the curing cave surrounded by the curing film There is a technical challenge in providing the method.

The present invention also provides a hot air circulation thermal curing method which can maximize the efficiency of hot air circulation and which has a preferable hot air arrangement structure.

In order to solve the above-mentioned technical problem, the present invention is a method for heating and curing atmospheres around a winter concrete, comprising the steps of: covering a target concrete at a position spaced above the target concrete before or after pouring concrete to be cured; A support frame for supporting a target concrete or a reclamation membrane inside the reclamation membrane, a hot air fan for supplying hot air to the inside of the reclamation membrane, and a circulation fan inside the reclamation membrane. After the target concrete is laid, the hot air and the circulation fan are simultaneously And the circulating fan is mounted on the support frame while being positioned above the hot air in the hot air, and is heated and cured while being heated by the hot air and circulated to the circulating fan. Provides hot air circulation thermal curing method of cold-side concrete. In this case, the circulation fan can be connected to the support frame for supporting the membrane, which is installed in order to support the membrane, or the support frame for supporting the target concrete, and a plurality of hot winders can be installed outside the target concrete It is possible to install it while keeping the concrete around it, but it can be installed at the discharge angle of 50 ~ 70 degrees in the same direction in the plane toward the inside of the target concrete.

The present invention has the following effects.

First, since the circulating fan is installed on the hot air in the curing house surrounded by the thin film, the hot air of the hot air can be recirculated through the circulation fan to form a vertical air stream and stagnate in the upper hot layer. , Thereby making it possible to reduce the heat loss due to the thermally-induced layer as a whole and to improve the efficiency of heating and insulation curing. Improving the efficiency of heating and curing can lead to a reduction in the number of installed heaters or shortening the operating time of hot air, which can lead to a reduction in overall curing cost.

Secondly, since the present invention is installed while arranging a plurality of hot air blowers at a discharge angle of 50 to 70 degrees in the same direction on the outer surface of a mat foundation or slab to be cured, hot air is circulated Thus, the interior of the curing house can be uniformly heated and cured at a low temperature, thereby improving the quality of the in-house concrete.

1 is a schematic view of a hot air circulation thermal curing method according to the present invention.
2 is a first embodiment of the hot air circulation thermal curing method according to the present invention.
3 is a second embodiment of the hot air circulation thermal curing method according to the present invention.
4 is an embodiment of a circulating fan to be suitably applied to the hot air circulation thermal curing method according to the present invention.
FIG. 5 is a schematic view of a preferred embodiment of a hot air arrangement structure in the hot air circulation thermal curing method according to the present invention.
6A to 6D show a field verification process for the application effect of the hot air circulation thermal curing method according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings and preferred embodiments.

The present invention relates to a method for heating and curing a winter concrete by heating the concrete. The method for curing heating and insulation according to the present invention is characterized in that before or after the concrete 10 to be cured is placed, The hot air 40 and the circulating fan 50 are installed and the hot air 40 and the circulating fan 50 are operated simultaneously after the target concrete 10 is installed. . Herein, the covering membrane 20 is installed so as to cover the target concrete 10 at a position apart from the target concrete 10, and the supporting frame is disposed inside the covering membrane 20 or inside the covering concrete 10 or the covering membrane 20, And the circulation fan 50 is mounted on the support frames 31 and 32 while being positioned above the hot air from the inside of the air heaters 40. In this case, When the hot air 40 and the circulating fan 50 are simultaneously operated inside the curing house surrounded by the sanitary membrane 20 according to this installation, even if the hot air inside the cured house heated by the hot air supply of the hot air 40 rises, Circulated by the circulation fan 50 located above the circulation fan 40 and descended. As a result, it is possible to suppress the stagnation of the hot air into the upper thermostatic layer, thereby effectively heating and curing the target concrete 10, thereby improving the efficiency of the hot wind 40. [

FIG. 2 is a first embodiment of the hot air circulation thermal insulation curing method according to the present invention, which is an example of a concrete foundation 10 as a mat foundation or floor slab without a lower layer. As shown, an excrement membrane supporting frame 31 for supporting the excrement membrane 20 is installed around the target concrete 10, a supplemensible membrane 20 is installed over the excrement membrane supporting frame 31, The fan 50 is installed in a ceiling shape and is installed downward toward the target concrete 10 on the pleat film supporting frame 31. Of course, the hot wind 40 is installed on or around the target concrete 10. The sanitary membrane 20, the support frames 31 and 32, the circulating fan 50 and the hot air 40 can be installed before or after the target concrete 10 is installed depending on the situation of the site. Since the circulating fan 50 is provided in a ceiling shape and installed in the supporting membrane support frame 31, the circulating fan 50 is naturally positioned on the hot air 40, and the air heated by the hot air 40 Respectively.

FIG. 3 is a second embodiment of the hot air circulation thermal insulation curing method according to the present invention, which is an example in which the concrete containing the interlayer slab is the target concrete 10. The second embodiment includes not only the construction of the interlayer slabs alone but also the construction of the columns, beams and walls supporting the interlayer slabs below the interlayer slabs together with the interlayer slabs. The second embodiment is generally similar to the first embodiment except that the presence or absence of the molding support frame 32 for supporting the target concrete 10 and the installation position of the hot air 40 and the circulation fan 50 There is a difference. In other words, before the target concrete 10 is laid, a formwork supporting frame 32 for supporting the interlayer slab or the like as the target concrete 10 is further installed, and the hot air 40 and the circulating fan 50 are placed in the lower layer In the present invention. Here, the form support frame 32 includes not only the joists supporting the interlayer slab, but also the yoke, and the circulation fan 50 is mounted on the form support frame 32. Generally, the hot air 40 is installed on the floor of the lower layer of the target concrete 10, and the circulation fan 50 is installed on the upper side of the formwork supporting frame 32 in consideration of this installation. The second embodiment can further mount the circulation fan 50 downward toward the target concrete 10 in the open-air membrane support frame 31. However, the hot air 40 is installed in the lower layer of the target concrete 10 It is enough. When the hot air 40 is operated in the lower layer of the target concrete 10, the hot air will rise to the upper side of the target concrete 10 through the openings of the interlayer slabs (openings for the cores and ducts) And circulated to the circulating fan 50.

4 is an embodiment of a circulating fan 50 for suitably applying to the hot air circulation thermal curing method according to the present invention. The circulating fan 50 is configured to circulate the air inside the curing house by generating airflow, which is suitable for a conventional air blower (fan). 4 illustrates a ceiling-type circulating fan 50, in which the ceiling-type circulating fan 50 includes a motor 51; A blowing vane 52 connected to the motor 51 and generating an airflow by driving the motor 51; And a clamp (53) connected to the motor (51). Further, the ceiling-type circulating fan 50 may be configured to further include a protective cover 54 installed to protect the motor 51 between the motor 51 and the clamp 53, (51), thereby preventing the inflow of dew on the ceiling generated during the heating and heating curing. And protects the motor 51 from an accident such as a short circuit in which water droplets formed on the surface of the recuperator membrane are separated. The motor 51 and the air bladder 52 are the same as those of a general ceiling blower and the clamp 53 is fastened to the support frames 31 and 32. It is appropriate to apply a general pipe clamp as it is. 4, the motor 51 may be installed in the motor housing and connected to the clamp 53 via a connection support 55. The motor housing may be rotatably mounted on the connection support 55 in a hinged manner. And the clamp 53 is fixedly attached to the connection support 55. The air circulation effect can be further improved by rotating the circulation fan 50 while rotating the motor 51 built in the motor housing.

FIG. 5 is a schematic view of a preferred arrangement of the heat wind 40 in the hot air circulation thermal curing method according to the present invention. As shown in the drawing, a plurality of hot air fans 40 are installed spatially around the target concrete 10 in the periphery of the target concrete 10, and are arranged at an ejection angle of 50 to 70 degrees in the same plane direction toward the inside of the target concrete 10 It is preferable to install them while arranging them. This arrangement is to circulate the hot air while inducing the flow of the air in the horizontal direction together with the hot air supply. The circulation fan 50 may be installed in the region of the target concrete 10 in which heat can not be supplied to the inside of the hot air 40. [ 5 (b) is an example in which the hot air 40 and the circulating fan 50 are arranged according to the planar structure of the target concrete 10 as shown in FIGS. 5 (b) to (d) FIG. 5 (c) shows an example in which the heat exchanger 40 and the circulation fan 50 are arranged in a square structure in the case of a square structure capable of being L 5 (d) is an example of arranging the heat exchanger 40 and the circulating fan 50 in a U-shaped structure in the case of a quadrilateral plane structure capable of supplying a heat source from three sides, 50) are disposed. As a result, the inside of the curing house can be uniformly heated and circulated while being warmed and cured, thereby improving the quality of the whole Chinese concrete as a whole.

The hot air circulation thermal curing method according to the present invention has been verified in the field, and FIGS. 6A to 6C show a field verification process. FIG. 6A is a field photograph of the hot air circulation thermal curing method according to the present invention. As shown in FIG. 6A, the circulating fan 50 is installed in the curing membrane support frame and the die support frame in the curing house. When the target concrete 10 is a mat foundation, a circulation fan 50 is installed in the recovery membrane support frame 31 and a concrete support frame 32 for supporting the corresponding interlayer slab in the lower layer in the interlayer slab The circulation fan 50 is installed. In FIG. 6A, it is confirmed that the circulating fan 50 is installed in the connection frame connecting the dancer in the dancer supporting frame 32. 6B is a plan view showing the arrangement of the hot air 40 and the circulation fan 50. A plurality of hot air fans 40 are arranged at an outer side of the target concrete 10 in the same direction Install at an angle. 6C is a result of measuring the inside temperature of the curing house before and after the circulation fan 50 is installed. As shown in FIG. 6C, it can be seen that the vertical temperature difference inside the curing house decreases with the installation of the circulation fan 50.

10: Target concrete
20:
31: Protective membrane support frame
32: Form support frame
40: heat wind
50: Circulating fan
51: Motor
52: air blades
53: Clamp
54: protective cover
55: Connection support

Claims (7)

As a method for heating and curing concrete around the winter season,
(20) covering the target concrete (10) at a position spaced above the target concrete (10) before or after placing the concrete to be cured (10) 10 or a support frame 31 for supporting the supporter membrane 20 and a fan 40 for supplying hot air into the supernatant membrane 20 and a circulation fan 50 inside the supporter membrane 20 Install,
After the target concrete 10 is laid, the hot air 40 and the circulating fan 50 are simultaneously operated,
The hot air 40 is installed outside the target concrete 10 and the circulating fan 50 is mounted on the support frames 31 and 32 while being positioned above the hot air in the hot air 40, 40) is heated toward the inside of the target concrete and is circulated to the circulating fan (50), thereby curing by heating.
The method of claim 1,
The target concrete (10) is a mat foundation or a bottom slab,
The support frame includes a pleat membrane supporting frame 31 provided to support the pleat membrane 20,
The supernatant membrane 20 is installed over the supernatant membrane support frame 31,
Wherein the circulation fan (50) is installed in a ceiling shape and is installed downward toward the target concrete (10) on the culture medium supporting frame (31). The method of claim 1,
The target concrete (10) comprises an interlayer slab,
The support frame includes a form support frame 32 provided to support a form for pouring a target concrete 10 and a pleasure film supporting frame 31 installed to support the pleasure film 20 ,
The supernatant membrane 20 is installed over the supernatant membrane support frame 31,
The hot air 40 is installed in a lower layer of the target concrete 10,
Wherein the circulation fan (50) is installed in a ceiling shape and is mounted downward toward the lower layer of the target concrete (10) on the form support frame (32). 4. The method of claim 3,
Wherein the circulation fan (50) is further installed downward toward the target concrete (10) in the recovery membrane support frame (31). 5. The method according to any one of claims 2 to 4,
The circulation fan (50) includes a motor (51); A blowing vane 52 connected to the motor 51 and generating an airflow by driving the motor 51; And a clamp (53) connected to the motor (51) so as to be fastened to the support frames (31, 32) with a clamp (53) . The method of claim 5,
Wherein the circulation fan (50) further comprises a protective cover (54) installed to protect the motor (51) between the motor (51) and the clamp (53) Heat curing method. 5. The method according to any one of claims 2 to 4,
A plurality of the hot winds 40 are provided so as to surround the target concrete 10 in the periphery of the target concrete 10 so that the hot air is directed to the inside of the target concrete 10 at an ejection angle of 50 to 70 degrees The hot air circulation thermal insulation curing method of the cold-side concrete is characterized in that it is installed while being disposed.

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