KR101274768B1 - Seat for caring concrete including phase change material, concrete caring system comprising the same, and controlling method of concrete caring system - Google Patents

Abstract

Concrete curing sheet using a latent heat material is a finishing sheet portion, the air seat portion is connected to the lower surface of the finishing sheet portion and formed with a plurality of air caps, the heating wire sheet portion is connected to the lower surface of the air sheet portion and the heating wire is arranged at regular intervals, A heat shield sheet portion disposed between the air seat portion and the heat ray sheet portion, a latent heat sheet portion connected to a lower surface of the heat ray sheet portion and including a latent heat material, and a base sheet portion connected to a bottom surface of the latent heat sheet portion. According to the concrete curing sheet using a latent heat material configured as described above, electricity can be saved by using electricity at each time zone by using the latent heat material, and the risk of breakage of the sheet and risk of fire caused by the continuous use of the heating wire by the latent heat material. It is possible to reduce, and there is an advantage in that the workability is improved by the waterproofing function of the inner and outer sheets, the cooling line function and the braided body of the heating wire.

Description

SEAT FOR CARING CONCRETE INCLUDING PHASE CHANGE MATERIAL, CONCRETE CARING SYSTEM COMPRISING THE SAME, AND CONTROLLING METHOD OF CONCRETE CARING SYSTEM}

The present invention relates to a concrete curing sheet using a latent heat material, a concrete curing system using the same, and a control method of the concrete curing system, and more specifically, concrete heating sheet for heating to maintain the curing conditions of the concrete poured in winter and It relates to a curing system and a control method of the curing system using the same.

Recently, due to the development of building technology, construction of buildings is being actively performed in extreme areas such as cold weather. In particular, in the case of cold weather temperature may be lowered below freezing may cause problems in concrete curing.

When the temperature falls below zero, the water freezes, so that the cement, which should function as an adhesive by the hydration with water, cannot hydrate with water. That is, the concrete is hardened by the hydration action of the cement after being poured, and a predetermined strength should be expressed. However, when water is condensed, the hydration action does not occur, which causes hard work.

Therefore, if proper remedial action is not taken when placing concrete in winter, the temperature of concrete will be lowered below freezing point to freeze the moisture in the concrete and cracks will occur due to the pressure due to volume expansion and water movement, and continuous strength formation will occur. It becomes impossible.

In order to solve this problem, a method of maintaining a constant temperature around the concrete using a lignite stove or a hot air blower or a method of embedding a hot wire in reinforcing bars or formwork is used.

However, the method of using lignite stove or hot air blower is difficult to maintain a constant heat insulation effect due to the large heat loss of the cladding material, and may cause a difference in strength due to temperature difference between the inside and outside of the concrete, and cracks may occur due to rapid drying of the concrete surface. There is a high probability problem.

On the other hand, the method of embedding hot wires can maintain a constant heat insulating effect compared to the method of using lignite stoves or hot air blowers. There is an advantage.

However, the hot wire embedding method according to the prior art as described above has the following problems.

First, it takes at least a few days to several tens of days to cure and harden concrete. In the case of continuous use of the heating wire for such a long time, the electric cost is increased due to the rapid increase in the construction cost due to electric charges, or the coating of the heating wire is damaged or short-circuited. There is a problem that the same additional accident can occur.

In addition, in the case of curing using only a simple heating wire, there is a problem in that construction is complicated due to an increase in heat loss and insulation treatment for the heating wire.

The present invention is to solve such a conventional problem, it is an object of the present invention to reduce the electric charges caused by the use of hot wire for curing concrete.

Another object of the present invention is to provide a curing aid sheet with improved workability and excellent thermal insulation.

According to a feature of the present invention for achieving the above object, the concrete curing sheet using the latent heat material according to the first aspect of the present invention is a curing sheet for heating the concrete using a heating wire for the thermal curing of concrete to be installed in winter WHEREIN: It is preferable to include a latent heat material.

Concrete curing sheet using the latent heat of the present invention finish sheet portion; An air seat part connected to a lower surface of the finishing sheet part and having a plurality of air caps spaced apart at regular intervals; A hot wire sheet unit connected to a bottom surface of the air seat unit and including a heating wire for heat generation; A latent heat sheet portion is connected to the lower surface of the hot wire sheet portion and includes a latent heat material; and preferably includes a base sheet part connected to a bottom surface of the latent heat material sheet portion.

Concrete curing sheet using the latent heat material of the present invention preferably further comprises a heat shield sheet portion provided between the air seat portion and the hot wire sheet portion.

Preferably, the latent heat material sheet part of the present invention includes a container sheet having a space formed therein, and a latent heat material inserted into the inner space of the container sheet.

The latent heat material of the present invention is preferably composed of normal paraffin.

The finishing sheet part of the present invention preferably includes a condensation preventing layer formed on an upper surface of the finishing sheet part to prevent condensation, and an insulating treatment layer formed on the lower surface of the finishing sheet part.

Finishing sheet portion of the present invention is preferably composed of a waterproof sheet.

Air seat portion of the present invention is preferably formed by stacking a plurality of layers.

The hot wire sheet portion of the present invention preferably includes a sheet body in which the heating wire insertion space is formed at regular intervals, and a heating wire inserted into the heating wire insertion space of the sheet body.

The heating wire of the present invention is a heating wire portion; Insulation coating formed around the hot wire portion; And preferably formed around the insulation coating, a plurality of interlocking wires are preferably braided in a zigzag form.

Concrete curing sheet using a latent heat material according to a second aspect of the present invention is a finishing sheet; An air seat part connected to a lower surface of the finishing sheet part and having a plurality of air caps spaced apart at regular intervals; A composite sheet part connected to the lower surface of the air seat part and configured to heat the latent heat material by a heating wire for heat generation, and a base sheet part connected to the bottom surface of the latent heat material sheet part.

Composite sheet portion of the present invention; Heating elements arranged on the base sheet; and preferably connected to the heating wires spaced apart at regular intervals, and includes a latent heat material unit including the latent heat material.

The latent heat material unit of the present invention includes a body portion in which a hollow is formed and the latent heat material is included; It is preferably provided around the body portion, the heating wire portion connected to the heating wire; and connected to both sides of the body portion, it is preferable to include a cover connected to the heating wire.

It is preferable to further include a heat shield sheet portion provided between the air seat portion and the composite sheet portion of the present invention.

The latent heat material of the present invention is preferably composed of normal paraffin.

The body portion of the present invention preferably includes a temperature measuring portion.

Concrete curing system using a concrete curing sheet using a latent heat material according to a third aspect of the present invention includes a concrete curing sheet using the latent heat material, and a control unit connected to the concrete curing sheet, the control unit is the concrete It is preferably configured to heat or stop the heating wire depending on the temperature or operating time measured in the curing sheet.

The control unit of the present invention heats the heating wire until the temperature inside the concrete curing sheet rises to a temperature at which the heat storage of the latent heat material is completed, and the heating wire until the temperature inside the concrete curing sheet drops to a heating temperature. It is preferable to stop the heating of.

It is preferable that the control unit of the present invention heats the heating wire during the late night electric time.

In the control method of the concrete curing system using the concrete curing sheet using the latent heat material according to the fourth aspect of the present invention in the control method of the curing sheet to assist the concrete curing in the winter by heating or stopping the latent heat material by heating wire, A heating wire heating step of heating the heating wire; A temperature measuring step of measuring a temperature in the curing sheet; A heat storage temperature determination step of determining whether the measured temperature corresponds to the heat storage temperature; A heating wire stopping step of stopping heating of the heating wire according to a result of the heat storage temperature determining step; and a heating temperature determining step of determining whether the measured temperature after the heating wire stopping step corresponds to a heating temperature; When the measurement temperature corresponds to the heat storage temperature is entered into the heating wire heating stop step, if the measurement temperature does not correspond to the heat storage temperature is configured to enter into the heating wire heating step, the heating temperature determination step is the heating temperature determination step If the temperature corresponds to the heating wire heating step, and if the measured temperature does not correspond to the heating temperature is preferably configured to enter the heating wire heating stop step.

According to the concrete curing sheet using the latent heat material, the concrete curing system using the same, and the control method of the concrete curing system according to the present invention, by using electricity by time zones using the latent heat material can save electricity, latent heat material By using the heating wire intermittently, the continuous use of the heating wire can reduce the risk of sheet breakage and fire.

In addition, due to the uniform heating effect by the latent heat material can prevent the non-uniformity of the curing of the concrete, there is an advantage that the workability is improved by the waterproofing function and inner function of the inner and outer sheets and the braid of the heating wire.

1 is a perspective view showing a preferred embodiment of the concrete curing sheet using the latent heat material according to the present invention.
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
Figure 3 is a partial cross-sectional view showing an air seat portion of the concrete curing sheet using the latent heat material according to the present invention.
Figure 4 is a partial cross-sectional perspective view showing the hot wire sheet portion of the concrete curing sheet using the latent heat material according to the present invention.
Figure 5 is a partial cross-sectional perspective view showing the latent material sheet portion of the concrete curing sheet using the latent heat material according to the present invention.
Figure 6 is a structural view showing a composite sheet showing another embodiment of the concrete curing sheet using a latent heat material according to the present invention.
Figure 7 is an exploded perspective view showing a latent material unit of the concrete curing sheet using the latent heat material according to the present invention.
8 is a cross-sectional view of Fig.
Figure 9 is a flow chart showing a control method of the curing system using a concrete curing sheet using a latent heat material according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 shows a preferred embodiment of the concrete curing sheet using the latent heat material according to the present invention.

As shown in Figure 1, the curing sheet of the present invention is wound in the form of a roll, it can be installed on the concrete surface by covering the curing sheet in contact with each other on a certain concrete construction surface.

2 is an exploded state of the concrete curing sheet 100 according to the present invention. As shown, the top surface is provided with a finishing sheet portion 110 to protect the surface of the curing sheet 100.

The finishing sheet part 110 may be formed of a kind of waterproof sheet for preventing the sheet from being damaged by an external impact and preventing penetration of moisture or contaminants from the outside. In addition, an insulating layer (not shown) may be further formed on the bottom surface of the finishing sheet part 110 to prevent the internal heat of the concrete curing sheet 100 from dissipating to the outside.

In addition, condensation may easily occur due to a temperature difference between the inside and the outside of the concrete curing sheet 100 as the top surface of the finish sheet part 110 is exposed to the outside. Such condensation may be directly frozen by the outside air temperature, and the frozen condensation may freeze the curing sheet 100 to damage the curing sheet 100 when the curing sheet 100 is removed. Therefore, a condensation prevention layer (not shown) may be further formed on the upper surface of the finishing sheet part 110 to prevent condensation due to a lubricant.

The bottom surface of the finish sheet portion 110 is provided with an air seat portion 120 formed of a plurality of layers. The air seat unit 120 is formed by sealing the PE film to each other so that an air cap is formed between a plurality of PE film, such as a heat insulating material to block the heat inside the concrete curing sheet 100 to go outside Play a role.

As shown in FIG. 3, the air seat part 120 is configured by bringing the second seat layer 123 into close contact with the first seat layer 121 so that an air cap A is formed. It is formed by stacking a plurality of formed first sheet layers 121 and second sheet layers 123 in plurality. Each time the first sheet layer 121 and the second sheet layer 123 are added and laminated one by one, a heat insulating effect of 2 ° C. to 3 ° C. may be achieved.

The lower surface of the air seat 120 is provided with a hot wire sheet 140 for heat generation, between the air seat 120 and the hot wire sheet 140, the air seat by the hot seat sheet 140 A heat shield sheet 130 for preventing breakage of the portion 120 is provided.

Since the air seat part 120 is made of a PE material which is vulnerable to heat, the air seat part 120 may be damaged by heat by the hot wire sheet part 140. Therefore, by interposing the heat shield sheet 130 between the air seat 120 and the hot wire sheet 140, it is possible to prevent the air seat 120 from being damaged by heat.

The hot wire sheet unit 140 is a sheet including a heating wire for heat generation is shown in detail in FIG. As illustrated, the hot wire sheet unit 140 includes a sheet body 141 and a heating wire 143 inserted into the sheet body 141.

The sheet body 141 is a sheet formed of an insulating coating material, and a heating wire insertion space 141s is formed in the sheet body 141 at regular intervals. By inserting the heating wire 143 into the heating wire insertion space 141s, the spacing of the heating wire 143 can be kept constant, and electrical leakage by the heating wire 143 can be prevented.

Since the hot wire sheet 140 is often folded or bent in the construction process, the heating wire 143 may be disconnected or broken. Therefore, the heating wire 143 is preferably configured as a disconnection prevention structure as shown in the partial perspective view of FIG.

A heating wire portion 143h is provided at an inner center of the heating wire 143, and an insulation coating 143p which is a non-conductor is formed around the heating wire portion 143h. The braid 143k is wound around the insulating coating 143p.

The braid 143k is a plurality of tin-plated interlocking wires alternately braided in a zigzag form, and may protect the outer surface of the heating wire 143, and the braid of metals may be bent even if the insulated wire 143 is bent. By 143k, despite the elasticity of the insulating coating 143p, the curved state is maintained without being restored to its original state. This shape maintenance characteristic can improve the workability by maintaining the shape of the curing sheet 100 in the construction process.

The bottom surface of the hot wire sheet 140 is provided with a latent heat sheet portion 150 including a latent heat material therein. The latent heat sheet part 150 includes a container sheet 151 in which a plurality of sheets are stacked to form a latent heat material insertion space therebetween, and a latent heat material 153 included in the container sheet 151.

The latent heat material 153 serves to heat the ambient temperature using a latent heat amount used to phase change from solid to liquid or liquid to solid as a PCM (Phase Change Material) material that changes phase at a constant temperature. Therefore, the heat generated from the heating wire 143 may be stored and used when needed using the latent heat material 153.

The latent heat material 153 of the present invention preferably has a high latent heat density and a heat transfer rate as a phase change material within a range of 0 ° C to 30 ° C. In addition, the latent heat material preferably has a smooth furnace temperature equilibrium, low gas pressure, small volume expansion ratio, and high density. In addition, the latent heat material should not have a supercooling phenomenon, have a high growth rate of crystals, have no deformation during long-term freezing and liberation, and it is preferable that it is an eco-friendly product without toxic or fire hazard. In addition, the latent heat material 153 is preferably an electrochemically stable material that can be produced domestically or cheaply. Therefore, the latent heat material 153 is preferably composed of normal paraffin, and more preferably, parasol C134 to parasol C147.

The latent heat material 153 has an advantage that it is possible to use a low-cost late night electricity. That is, by heating the latent heat material 153 by using a late night electricity at night, and by using the latent heat material 153 accumulated during the day can be reduced by the construction cost by reducing the electricity bill.

In addition, since the heating wires 143 are spaced apart at regular intervals, only a specific part is heated. The latent heat material 153 absorbs the heat supplied from the heating wires 143 and distributes the heat. 153 can perform a uniform heating action.

The base sheet part 160 is provided on a lower surface of the latent heat material sheet part 150. The base sheet portion 160 is preferably configured to prevent the water or foreign matter from the concrete surface to immerse the inside of the curing sheet by the waterproof function, and to mitigate the impact from the outside by the cushion function.

6 to 8 illustrate a portion of the concrete curing sheet according to another embodiment of the present invention. As shown, the concrete curing sheet according to another embodiment includes a composite sheet portion 200 in which the hot wire sheet portion 140 and the latent heat sheet portion 150 is integrated into one.

The composite sheet unit 200 has a heating wire 220 is arranged on the base sheet 210, it is configured to connect a plurality of latent heat material unit 230 to the heating wire 220. The latent heat material unit 230 includes a body 231 formed in a substantially cylindrical shape having an elliptical cross section as shown in FIGS. 7 and 8.

The body portion 231 has a hollow formed therein and includes a latent heat material 153. In addition, a plurality of hot wire portions 233 are disposed at regular intervals in the circumference of the body portion 231.

The cover 235 is connected to both side surfaces of the body 231. The heating wire 220 is connected to the cover 235, and the heating wire 220 is connected to the plurality of heating wire parts 233.

Therefore, heat generated from the heating wire part 233 connected to the heating wire 220 heats the body part 231 and the latent heat material 153 inside the body part. The latent heat material unit 230 may enhance the heating effect of the latent heat material 153 by the heat wire part 233.

One surface of the body portion 231 may be provided with a temperature measuring unit 237. In addition, the latent heat material unit 230 may be connected to an external control unit 240. The control unit 240 may heat or stop the heating wire 220 according to the temperature or operating time measured by the temperature measuring unit 237.

That is, the control unit 240 determines whether all of the latent heat material units 230 are stored on the basis of the temperature measured by the temperature measuring unit 237, and all of the latent heat material units 230 accumulate. If it is, the heating of the heating wire 220 may be stopped.

In addition, the control unit 240 may be configured to heat the heating wire 220 only in the corresponding time period by setting a time period of low price for each time zone. Therefore, the electric charge can be saved by the control unit 240. The control unit 240 may be connected to the hot wire sheet unit 140 described above.

The control method of the control unit 240 for controlling the heating of the heating wire 220 according to the temperature measuring unit 237 will be described in detail below.

First, the control unit 240 performs a heating wire heating step of heating the heating wire 220. Then, the temperature measuring unit 237 performs a temperature measuring step of measuring the temperature inside the curing sheet.

In the temperature measuring step, a heat storage temperature determination step of determining whether the temperature measured by the temperature measuring unit 237 corresponds to the heat storage temperature is performed. The heat storage temperature means a temperature at which heat storage of the latent heat material 153 is completed.

If the measurement temperature does not reach the heat storage temperature, the heating wire heating step is performed again. In addition, when the measured temperature reaches the heat storage temperature, the heating wire is stopped and the heating of the heating wire is stopped.

Then, the heating temperature determination step is performed again in the heating wire heating stop step. The heating temperature means a temperature at which the heat storage of the latent heat material is exhausted and needs to be heated again.

If the measurement temperature does not reach the heating temperature, the heating wire is stopped again to stop heating of the heating wire. When the measured temperature reaches the heating temperature, the heating wire is further heated to heat the heating wire. By continuously cycling these steps, it is possible to control the operation of the heating wire.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be.

Description of the main parts of the drawing
110: finishing sheet portion 120: air seat portion
130: heat shield sheet portion 140: hot wire sheet portion
150: latent heat sheet portion 160: base sheet portion

Claims (20)

In the concrete curing sheet for thermal curing of concrete to be constructed in winter,
Finishing sheet portion;
An air seat part connected to a lower surface of the finishing sheet part and having a plurality of air caps spaced apart at regular intervals;
A hot wire sheet unit connected to a bottom surface of the air seat unit and including a heating wire for heat generation;
A latent heat sheet part connected to a lower surface of the hot wire sheet part and including a latent heat material; and
It includes a base sheet portion connected to the lower surface of the latent heat sheet portion
Concrete curing sheet.
delete The method of claim 1,
Further comprising a heat shield sheet portion provided between the air seat portion and the hot wire sheet portion
Concrete curing sheet.
The method of claim 1,
The latent heat sheet portion
A container sheet having a space formed therein,
A latent heat material is inserted into the inner space of the container sheet.
Concrete curing sheet.
5. The method of claim 4,
The latent heat material is composed of normal paraffin
Concrete curing sheet.
The method of claim 1,
The finishing sheet portion
A condensation prevention layer formed on an upper surface of the finishing sheet part to prevent condensation;
It includes a heat insulation layer formed on the lower surface of the finishing sheet portion
Concrete curing sheet.
The method of claim 1,
The finishing sheet portion is composed of a waterproof sheet
Concrete curing sheet.
The method of claim 1,
The air seat unit is formed by stacking a plurality of layers
Concrete curing sheet.
The method of claim 1,
The hot wire sheet portion
A sheet body in which heating wire insertion spaces are formed at regular intervals,
A heating wire inserted into the heating wire insertion space of the sheet body;
Concrete curing sheet.
10. The method of claim 9,
The heating wire is
Hot wire;
An insulation coating formed around the hot wire portion; And
It is formed around the insulating coating, the plurality of interlocking lines include a braided body braided in a zigzag form
Concrete curing sheet.
Finishing sheet portion;
An air seat part connected to a lower surface of the finishing sheet part and having a plurality of air caps spaced apart at regular intervals;
A composite sheet part connected to a bottom surface of the air seat part and configured to heat the latent heat material by a heating wire for heat generation; and
It includes a base sheet portion connected to the lower surface of the composite sheet portion
Concrete curing sheet.
The method of claim 11,
The composite sheet portion
Base sheet;
A heating wire arranged on the base sheet; And
It is connected to the heating wire at regular intervals, and includes a latent heat material unit including the latent heat material
Concrete curing sheet.
The method of claim 12,
The latent heat material unit
A hollow formed inside the body part including the latent heat material;
A heating wire portion provided around the body portion and connected to the heating wire; and
Is connected to both sides of the body portion, including a cover connected to the heating wire
Concrete curing sheet.
The method of claim 11,
Further comprising a heat shield sheet portion provided between the air seat portion and the composite sheet portion
Concrete curing sheet.
The method of claim 11,
The latent heat material is composed of normal paraffin
Concrete curing sheet.
The method of claim 13,
The body portion includes a temperature measuring unit
Concrete curing sheet.
The concrete curing sheet according to any one of claims 1, 3 to 16,
It includes a control unit connected to the concrete curing sheet,
The control unit
It is configured to heat or stop the heating wire according to the temperature or operating time measured in the concrete curing sheet
Concrete curing system.
18. The method of claim 17,
The control unit
The heating wire is heated until the temperature inside the concrete curing sheet rises to a temperature at which the heat storage of the latent heat material is completed, and the heating of the heating wire is stopped until the temperature inside the concrete curing sheet decreases to a heating temperature.
Concrete curing system.
18. The method of claim 17,
The control unit heats the heating wire during the late night electric time
Concrete curing system.
In the control method of the curing system including a curing sheet to assist in curing the concrete in winter by heating or stopping the latent heat by heating wire,
A heating wire heating step of heating the heating wire;
A temperature measuring step of measuring a temperature in the curing sheet;
A heat storage temperature determination step of determining whether the measured temperature corresponds to the heat storage temperature;
A heating wire stopping step of stopping heating of the heating wire according to a result of the heat storage temperature determination step; And
And a heating temperature determining step of determining whether the measured temperature after the heating wire stop step corresponds to a heating temperature.
The step of determining the heat storage temperature is configured to enter the heating heating stop step when the measurement temperature corresponds to the heat storage temperature, and to enter the heating wire heating step if the measurement temperature does not correspond to the heat storage temperature,
The heating temperature determining step is configured to enter the heating wire heating step if the measurement temperature corresponds to the heating temperature, and enters the heating wire heating stop step if the measurement temperature does not correspond to the heating temperature.
Control method of concrete curing system.

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