KR101913419B1 - Insulation gang fom with heating wire for concrete curing and construction method using it - Google Patents

Abstract

The present invention can be applied to -30 ° C by widening the temperature limit of -20 ° C compared with the conventional limit in the curing of concrete in the middle of Korea, so as to realize high quality in domestic and foreign cold conditions. A plurality of horizontal supports fixed horizontally on one surface of a base plate having the foam tie holes formed therein, a corner portion contacting the base plate and the horizontal support, A plurality of heat lines to be installed, an adhesive layer to be applied to one surface of the base plate between the plurality of horizontal supports, a molded heat insulator that is sandwiched between the plurality of horizontal supports and adheres to one surface of the base plate, Characterized in that it comprises a plurality of vertical supports The.

Description

Technical Field [0001] The present invention relates to a curing method for a concrete curing method,

More particularly, the present invention relates to a hot-air thermal insulation gantry for curing a concrete in a heating zone classified by the outdoor temperature, and more particularly, to a hot- to be

When the concrete is placed in the cold environment, the hydration reaction is delayed and the concrete hardening is delayed. As the water is frozen, the initial frost damage occurs and the concrete strength increase is adversely affected.

Korean Patent Registration No. 10-1202061 (Adiabatic Insulation for Concrete Curing) is a method of inserting a heat insulating board on a gang form forming an outer form to prevent the deterioration of concrete quality due to curing, There is a problem that it is difficult to cope with the extreme air temperature exceeding the above-mentioned temperature.

In addition, the conventional hot-wire gangbuk was manufactured by attaching hot wire to tape and applying foaming urethane. This method is difficult to manufacture, increases cost, and does not drop urethane foam after foaming, so it must be burned or melted after use , And there is a problem that environmental pollution arises from this. Since the entire heat line is always operated, the use of electricity is excessive during maintenance, the maintenance cost is increased, and it is difficult to find a repair part because it is not compartmented when the heat line is short- There is a problem that the urethane is not dropped and maintenance is very difficult.

Korean Registered Patent Publication No. 10-1202061 (issued Nov. 15, 2012)

The present invention was made to solve the above-mentioned problems, and it is possible to apply the limit temperature of -20 ° C to the -30 ° C range in the present invention. The present invention is directed to provide a method of inserting a heat insulation layer for concrete curing and a method of constructing the same.

In addition, the present invention provides a method of separating concrete from concrete in a heating zone according to the outside temperature, which can achieve eco-friendly construction by shortening the air shortening time and shortening the air loss, And to provide a method of constructing the same.

In addition, the present invention relates to a method and a device for disposing a heat ray in a conventional insulated gantry so as to increase the curing limit temperature, The present invention aims at providing a method of inserting heat-insulating gypsum for curing a concrete type curing zone in a heating zone according to the outside temperature to allow operation to be planned.

In order to solve the above-mentioned problems, the present invention provides a hot zone thermal insulation glazing for curing a concrete in a heating zone-

A base plate having a plurality of foam tie holes drilled therein,

A plurality of horizontal supports fixed horizontally on one surface of the base plate,

A plurality of heat lines provided along the corner where the base plate and the horizontal support abut,

An adhesive layer applied to one surface of the base plate between the plurality of horizontal supports,

A molded heat insulating member sandwiched between the plurality of horizontal supports and closely attached to one surface of the base plate,

And a plurality of vertical supports vertically installed on the outer surface of the horizontal support.

Further, the base plate side edge of a part of the horizontal support rods among the plurality of horizontal support rods is cut and configured,

And the vertical connection of the hot wire is formed through the through hole formed by the cutting of the base plate side edge.

In addition, the hot wire is installed horizontally on the upper part of the base plate and three rows horizontally on the lower part of the base plate,

The three rows of heat lines provided below the base plate are separated into two rows on the upper side and one row on the lower side,

The hot line in the upper two rows, the hot line in the lower two rows, and the hot line in the lower one row are each provided with a connector for connecting to a power source so that power supply can be separately controlled.

The adhesive layer may include a first adhesive layer applied to the base plate around the horizontal support and a second adhesive layer applied to the base plate around the foam tie hole.

Further, the present invention is a method for constructing hot-air-insulating glazing for concrete curing by heating zones classified by outside temperature,

A step of preparing a horizontal support for cutting a corner of each pipe of a square cross section to form a horizontal support,

A horizontal support joining step for fixing the horizontal support to the prepared base plate,

 A heat line arranging step of providing a hot line along a corner portion where the base plate and the horizontal support abuttingly contact with each other through a through hole formed by cutting the side edge of the base plate,

An adhesive layer forming step of forming an adhesive layer by applying an adhesive to one surface of the base plate between the horizontal supports,

A molding heat insulating material joining step of sandwiching the molding heat insulating material between the plurality of horizontal supports,

And a vertical support joining step of vertically joining a plurality of vertical supports to the outer side surface of the horizontal support.

In addition, the hot wire is installed horizontally on the upper part of the base plate and three rows horizontally on the lower part of the base plate,

And the three rows of heat wires provided under the base plate are separated into one row on the upper side and two rows on the lower side.

With the above-described problems, the present invention provides a method for curing concrete for curing in a heating zone classified by outside temperature, and a method for the same, wherein the limit temperature during curing of the concrete is increased from -20 ° C to -30 ° C It is possible to realize high quality in domestic and foreign cold conditions by early adopting of mold release, and it is possible to construct environmentally friendly by preventing shortage of air and energy loss, In addition, in order to control the consumption of electricity more than the heat consumed by placing the hot wire in the existing thermal insulating gantry and raising the curing limit temperature, it is divided beforehand when the hot wire is arranged, and the relationship between the outside air and the concrete curing is confirmed And it is possible to plan the operation of the hot wire.

FIG. 1 is a view showing a hot-wire thermal insulation reforming method for curing a concrete in a heating zone according to the present invention.
FIG. 2 is a cross-sectional view illustrating a hot-wire thermal insulation reforming method for concrete curing in accordance with the present invention.
FIG. 3 is a view schematically showing a heat line of a hot-wire thermal insulation gantry for curing concrete in a heating zone type according to the present invention.
FIG. 4 is a schematic view illustrating a method of constructing hot zone thermal insulation for concrete curing classified zones according to outdoor temperature according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a hot-wire thermal insulation glazing for curing a concrete according to the present invention. FIG. 2 is a cross-sectional view showing a hot- And FIG. 3 is a view schematically showing a heat line of a hot-wire thermal insulation gantry for curing concrete in a heating zone-type concrete according to the present invention.

1 and 2, a hot-zone thermal insulation glazing for curing a zone-type concrete according to the present invention includes a base plate 1, a plurality of horizontal supports 2, a plurality of heat lines 3, An adhesive layer, a molding heat insulating material 5, a plurality of vertical supports 6, and the like.

The base plate 1 is preferably formed of a steel panel, and a plurality of foam tie holes are formed by punching.

The horizontal support 2 is a rectangular pipe having a square cross section fixed horizontally on one surface of the base plate 1 having the foam tie holes formed therein, and is fixed to the base plate 1 by welding or the like.

The heating line 3 is configured to heat concrete or the like by converting electric energy into thermal energy when power is applied and is installed along the corner where the base plate 1 and the horizontal support 2 abut.

The base plate 1 side edge of a part of the horizontal support rods 2 of the plurality of horizontal support rods 2 is cut along the plurality of horizontal support rods 2 so as to cut And the heat ray 3 is installed to pass through the through hole H formed by the cutting of the side edge of the base plate 1 for vertical connection of the heat ray 3.

The adhesive layer 4 is provided to fix the molded heat insulating material 5 to the base plate 1 as a layer formed by applying an adhesive to one surface of the base plate 1 between the plurality of horizontal supports 2 . The adhesive layer 4 is composed of a first adhesive layer applied to the base plate 1 around the horizontal support 2 and a second adhesive layer applied to the base plate 1 around the foam tie hole.

The molded heat insulating material 5 is sandwiched between the plurality of horizontal supports 2 and is formed in close contact with one surface of the base plate 1, and a heat insulating board or the like is used.

The vertical support 6 is a rectangular pipe having a rectangular cross-section vertically installed on the outer side of the horizontal support 2.

Compared with the conventional method in which the existing heat ray 3 is adhered by tape and the foamed urethane is applied through the use of the hot wire 3 and the molded heat insulating material 5, the present invention is easy to manufacture, And the urethane foam must be removed for reuse after use, etc., and the efficient arrangement of the heat ray 3 facilitates the thermal diffusion, thereby enabling uniform and rapid heating or efficient warming.

As a further feature, in the present invention, the hot wire (3) is installed horizontally in two rows above the base plate (1) and separated horizontally from the base plate (1) Three rows of hot wires 3 provided at the lower portion of the main body 1 are provided separately in two rows on the upper side and one row on the lower side and the hot wires 3 in the upper two rows, the hot wires 3 in the lower two rows, And a connector for connecting to a power source, respectively, so that power supply can be separately controlled.

Through the thus constructed heat line 3, the present invention can be applied to the first zone in which two rows of hot lines 3 are disposed, the second zone in which two rows of hot lines 3 in the lower row are arranged, (-30 deg. C or less), the first zone to the third zone are heated. In the middle-low temperature (-20 deg. C or less), the second zone and the third zone And at the time of low temperature (-10 ° C or less), only the third zone is heated to reduce unnecessary energy consumption, and curing can be performed in a cryogenic environment, and optimum customized heating can be performed according to the temperature of the outside air.

The experimental results are as follows.

When the hot wire (3) was installed in three rows on the lower part of the formwork at the lowest temperature of -30 ℃, the temperature history was about 15 ℃ for two days from the pouring. On the other hand, when two rows and three columns of heat ray (3) were installed, the temperature distribution at 10 ° C and 7 ° C was clearly visible. The temperature history of the central part irrespective of the installation of the hot wire (3) is shown to be about 14 ° C. for two days from the pouring, but when it is analyzed that the relationship between the temperature at the central part and the upper part is analyzed, Respectively.

When three rows of hot wire (3) were installed at the bottom of the formwork at the lowest temperature of -20 ℃, the temperature history was about 26 ℃ for two days from the pouring. On the other hand, heat ray (2) and heat ray (2) show temperature distributions at 20 ℃ and 16 ℃.

The temperature history of the central part irrespective of the installation of the hot wire (3) was 19 ° C for two days from the time of installation. As in the case of -30 ° C, two heat lines (3) show a temperature history of 20 ° C, showing the nearest temperature distribution to 19 ° C in the middle, and the weakest part can be compensated with only two heat lines (3) at the lowest temperature -20 ° C.

At the lowest temperature of -10 ℃, the temperature history is about 33 ℃ in the case of installing three heat lines (3). The heat ray (3) in column 2 and column 1 showed the temperature distribution at 29 ° C and 25 ° C. The temperature history of the central part irrespective of the installation of the hot wire (3) was 25 ° C for two days from the time of installation.

The lowest temperature is -10 ℃. Also, the temperature distribution is the same as 25 ℃ in the center of the hot line (3). The temperature range is -25 ℃ and the lowest temperature is -10 ℃.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a method of constructing a heat insulation layer for concrete curing (3) according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a schematic view illustrating a method of constructing hot zone thermal insulation for concrete curing classified zones according to outdoor temperature according to the present invention.

As shown in FIG. 4, according to the present invention, a hot zone thermal insulation method for curing a concrete zone curing type zone by outside temperature is performed by preparing a horizontal support unit for cutting a corner of a square pipe, A horizontal supporting step of fixing the horizontal supporting table 2 to the prepared base plate 1 and a heating line 3 along the corner of the base plate 1 and the horizontal supporting table 2, The vertical connection of the hot wire 3 is performed through a through hole H formed by the cutting of the edge of the base plate 1, (E) of forming an adhesive layer 4 by applying an adhesive to one surface of the base plate 1 and placing the molded insulating material 5 in close contact with one surface of the base plate 1 with sandwiching the plurality of horizontal supports 2 Molded insulation (G) joining vertically the plurality of vertical supports (6) to the outer side of the horizontal support (2) by joining the plurality of vertical supports (6) Three rows of hot wires (3) are installed horizontally in the upper part of the base plate (1), and three rows are arranged horizontally below the base plate (1) And two rows of the upper side and the lower side.

Through the above-described construction, the heat insulation germination method and method for curing the concrete according to the present invention can be applied to the temperature range of -30 ° C, It is possible to realize high quality in domestic and foreign cold conditions. In addition, it is possible to shorten the time of air by early demoulding of formwork and to prevent energy loss, and it is possible to implement eco-friendly construction. In addition, in order to control the consumption of electricity more than necessary for heating by increasing the curing limit temperature by disposing hot wire on the existing insulating gangue, it is divided beforehand when hot wire is arranged, And the operation can be planned.

1: Base plate 2: Horizontal support
3: hot wire 4: adhesive layer
5: Mold insulation 6: Vertical support
H: Through hole

Claims (1)

A base plate having a plurality of foam tie holes drilled therein,
A plurality of horizontal supports fixed horizontally on one surface of the base plate,
A plurality of heat lines provided along the corner where the base plate and the horizontal support abut,
An adhesive layer applied to one surface of the base plate between the plurality of horizontal supports,
A molded heat insulating member sandwiched between the plurality of horizontal supports and closely attached to one surface of the base plate,
And a plurality of vertical supports vertically installed on the outer surface of the horizontal support,
The base plate side edge of some of the plurality of horizontal supports is cut and configured,
The vertical connection of the hot wire is made through the through hole formed by the cutting of the base plate side edge,
Wherein the hot wire is installed horizontally in two rows on an upper portion of the base plate and is horizontally arranged in three rows below the base plate,
The three rows of heat lines provided below the base plate are separated into two rows on the upper side and one row on the lower side,
The hot line in the upper two rows, the hot line in the lower two rows, and the hot line in the lower one row are each configured to have a connector for connecting to a power source,
Heating zone classified by outside temperature Classification Concrete curing Hot wire Insulation Gang

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