KR100705415B1 - Heating structure and manufacturing method thereof using insulation panel - Google Patents

Abstract

The present invention relates to a heating structure, and more particularly, the heat insulation panel 10 and the heat insulation panel 10 are installed on the upper surface of the bottom concrete (B), which is the foundation floor of the room A, and the hot water pipe P is installed. It is provided to include an insulating heat transfer plate 13 located at the top of the), the heat insulating panel 10 is provided with a panel body 11 of a plate-shaped block, the lower inside of the panel body 11 The heat insulator 111 is embedded, and a plurality of protrusion members 12 protruding upward from a plurality of portions of the upper surface 101 of the panel body 11 are formed, and the hot water is provided between the plurality of protrusion members 12. Pipe (P) is installed to heat and heat the air in the heated air distribution space (a) between the panel body 11 and the heat transfer plate (13), the heating characteristics are superior to save fuel and floor Heating structure such as heat insulation panel and heat transfer plate on concrete It is easy to install, which shortens the construction period and saves construction cost and construction cost. In addition to heating only the flooring material by heating only the flooring material, the heating effect is also excellent because the indoor air is also heated by the heated air with hot water pipes. It relates to a heating structure using a heat insulating panel.

Heating structure, insulation, panel, hot pipe

Description

HEATING STRUCTURE AND MANUFACTURING METHOD THEREOF USING INSULATION PANEL}

1 is a cross-sectional view of a heating structure according to the prior art.

Figure 2 is a schematic perspective view of a room equipped with the present invention insulation panel.

Figure 3a and Figure 3b is a cross-sectional view of the heating structure using the heat insulation panel of the present invention.

4A to 4G are cross-sectional views illustrating a construction procedure of a heating structure using the heat insulation panel of the present invention.

Figures 5a to 5d is an illustration of the installation procedure of the side wall formwork used in the construction of the heat insulation panel of the present invention.

Figure 6 is a perspective view of a heat insulation panel installed in the heating structure of the present invention.

Figure 7 is a flow chart for the construction method of the heating structure using the heat insulation panel of the present invention.

<Explanation of symbols for the main parts of the drawings>

A: Indoor B: Floor concrete

P: hot water pipe S: side wall

a: Gaon air distribution space

10: heat insulation panel 11: panel body

12: projection member 13: heat insulation heat transfer plate

15: Gaon air circulation home 17: Mop

111: insulation

The present invention relates to a heating structure, comprising a heating structure using a heat insulating panel to save fuel, shorten the construction period, save construction costs, and to a heating structure using a heat insulating panel to heat up the indoor air within a short time will be.

In general, the interior heating structure is a facility that warms the interior of the building. Such indoor heating equipment can be heated using a hot water pipe or a room using a heater or the like.

Such a heating structure according to the prior art is a heat insulating layer 550 in the interior of the side wall 520 and the bottom concrete 510, as shown in Fig. 1, which shows Patent No. 0634983 (prefabricated ondol panel and construction method using the same). The foamed concrete layer 540 is formed above, and the plastering layer 530 is formed to cover the entire indoor floor after placing the hot water pipe P thereon.

Thus, the heat dissipated through the hot water pipe (P) is to warm the room through the plastering layer. The heat of the hot water pipe (P) is prevented from being released to the outside by the lower heat insulating layer 550.

However, the heating structure according to the prior art should be fixed to the hot water pipe (P) stably, but the porous insulating layer 550 is not hard, so the hot water pipe (P) is twisted to fix the hot water pipe (P) bubble Forming a concrete layer 540 and again to form a plastering layer 530 has a complicated structure, such as poor workability.

In addition, the foamed concrete layer 540 may be completely hardened to form the upper layer, and the plastering layer 530 may be completely delayed after finishing work.

In addition, since the heat of the hot water pipe (P) only warms the plaster layer 530 and then warms the room, it takes a long time to warm up, and only the part of the plaster layer 530 on which the hot water pipe (P) is located is warmed evenly. There is a problem such as not warm.

The present invention for overcoming the above problems is to the heating structure of the room, the heating characteristics are superior to save fuel and make a comfortable life, heating such as installing an insulation panel and heat transfer plate on the floor concrete Its purpose is to shorten the construction period and save construction costs due to its easy rescue facilities.

Furthermore, in addition to simply heating the floor by heating only the flooring material, the indoor air is also warmed up by the air heated by the hot water pipe.

The heating structure using the heat insulation panel of the present invention for achieving the above object, the heat insulation panel 10 is installed on the top surface of the bottom concrete (B) which is the base floor of the room (A) and the hot water pipe (P) is installed; It is provided to include an insulating heat transfer plate 13 located on the upper portion of the heat insulating panel 10, the heat insulating panel 10 is provided with a panel body 11 made of a block of plate-like, the panel body 11 A plurality of protrusions 12 protruding upward in a plurality of places of the upper surface 101 or the upper and lower surfaces 101 and 102 of the panel body 11 are embedded in the lower side of the inner). Is formed, the hot water pipe (P) is installed between the plurality of the projection member 12 to warm the air in the heated air distribution space (a) between the panel body 11 and the heat insulating heat transfer plate (13) It is characterized in that the heating is provided.

Accordingly, the insulation panel 10 has an edge of the panel body 11 inserted into the heated air atmospheric circulation groove 15 below the side wall S, and the upper surface of the heated air atmospheric circulation groove 15 is kept warm. The air heated upward by the heat transfer plate 13 to be heated by the hot water pipe P opens the heated air ejection groove 16 between the heat insulation heat transfer plate 13 and the warm air air circulation groove 15. Is provided to be blown into the room through, the mop base 17 is further provided to surround the lower side of the side wall (S) in contact with the heat transfer plate 13 is mop that the air of the heated air jet groove 16 is ejected Receiving through hole 171 may be formed in a number of places of the receiving base (17).

In addition, the heat insulating heat transfer plate 13 is formed of metal or synthetic resin, and the heat insulating material 111 is made of polystyrene foam (Foam Polystyrene Thermal Insulation Material), glass insulator (Thermal Insulation Material Made of Glass Wool), rock wool (Thermal) Insulation Material Made of Rock Wool, Polyethylene Foam, Polyurethane Foam, Vermiculite, Perlite, Ureafoam, Cellulose Insulation, Soft Fiber Board Soft Fiber Insulation Board), phenol foam (Phenol Foam) can be included to include any one.

And in another embodiment of the present invention is installed in the interior having the heating structure, the heat insulating material 111 is embedded in the panel body 11 formed of a plate-shaped block, the upper surface of the panel body 11 or A plurality of protrusion members 12 protruding upward from a plurality of upper and lower surfaces are formed, and the heat insulating panel 10 includes the panel body 11 and the protrusion members 12 in which the heat insulating material 111 is embedded. Provides a heat insulating panel formed by injection so that the one.

Furthermore, another embodiment of the present invention comprises the step of placing the bottom concrete (S), the bottom concrete (B) which is the foundation floor of the room (A) curing step (S01); Forming side wall formwork for installing side wall formwork 20 in which the circulating groove forming part 21 protrudes so that the heated air atmospheric circulation groove 15 is formed on the upper surface of the bottom concrete B for placing the side wall S. Step S02; A side wall surface forming step of curing by pouring concrete into the side wall formwork (S03); Thermal insulation panel installation step (S04) for installing the thermal insulation panel 10 to the upper surface of the bottom concrete (B); A thermal pipe installation step (S05) of installing hot water pipes (P) between the plurality of protrusion members 12 protruding from the upper surface of the heat insulation panel 10 installed as the upper surface of the bottom concrete B; Thermal insulation heat transfer plate installation step (S06) for installing the thermal insulation heat transfer plate 13 to the upper portion of the heat insulation panel 10 is installed the hot water pipe (P); The base plate 17 having a base plate through-hole 171 through which the heated air flows out to the front surface of the heated air atmospheric circulation groove 15 which is the lower side of the side wall S, which is an edge of the heat insulating heat transfer plate 13, is formed. To install the baseboard installation step (S07); Including a finishing step (S08) for finishing the heating construction by installing a finishing floor material 22 on the upper surface of the heat transfer plate 13 is installed the baseboard 17, the insulation panel 10 is It provides a heating structure construction method using a heat insulation panel formed by the injection so that the heat insulating material 111 is embedded.

The side wall form forming step (S02) is to install the buried circulation groove forming member 210 of the enclosure shape to form the heated air atmospheric circulation groove 15, and to install the side wall formwork 201, the buried The circulating groove forming member 210 has a plurality of vertical support pillars 212 formed in the housing member body 211 having an open front and an open portion of the front, and may include a synthetic resin material or a metal material. .

Hereinafter, with reference to the accompanying drawings will be described in detail.

Figure 2 is a schematic perspective view of a room equipped with a heat insulating panel of the present invention, Figures 3a and 3b is a cross-sectional view of the heating structure using the invention heat insulation panel, Figure 4a to 4g is a heating structure of the heat insulation panel of the present invention 5A to 5C are sectional views showing the construction sequence, and FIG. 5A to 5C are illustrations of the installation procedure of the side wall formwork used in the construction of the insulation panel of the present invention. FIG. 6 is a perspective view of the insulation panel installed on the heating structure of the present invention. Shows a flow chart for the construction method of the heating structure using the insulation panel of the present invention, respectively.

That is, the heating structure using the heat insulation panel of the present invention, as shown in Fig. 2 to 7, the heat insulation panel is installed on the top surface of the bottom concrete (B) which is the base floor of the room (A) is installed hot water pipe (P) ( 10) and the insulating heat transfer plate 13 positioned above the heat insulating panel 10 will be constructed to include.

The heat insulation panel 10 is provided with a panel body 11 made of a plate-shaped block, the heat insulating material 111 is embedded in the lower side of the panel body 11, the upper surface of the panel body 11 A plurality of protrusion members 12 protruding upwardly are formed at a plurality of portions 101 or at upper and lower surfaces 101 and 102, and the hot water pipe P is installed between the plurality of protrusion members 12. And it is provided to heat and heat the air in the heated air distribution space (a) between the panel body 11 and the heat insulating heat transfer plate (13). 6 and 3a illustrate that the protruding member 12 is formed on the upper surface 101 of the panel body 11, but the upper surface 101 and the lower surface of the panel body 11 are formed as shown in FIG. 3b. Each of the protrusions 12 protrudes from the 102. This can be applied to a case in which the spacing between each of the two protruding members 12 is different from each other, so that the size of the hot water pipe P seated between the protruding members 12 is different.

As such, when the hot water pipe P is seated between the protruding members 12 of the heat insulation panel 10, the panel body 11 is positioned downward, and the hot water pipe P is upward of the panel body 11. It is preferable to prevent the warm warmth of the hot water pipe (P) from being taken into the bottom concrete (B) of the lower side by the heat insulating material 111 inside the panel body (11). Therefore, when the protruding member 12 is formed on only one side of the panel body 11, the insulating panel 10 suitable for the thickness of the hot water pipe P is selected and used, and the protruding member on the upper and lower surfaces of the panel body 11. When the hot water pipe (P) is formed, the hot water pipe (P) is seated, and the thick hot water pipe (P) is seated so that the surface formed with a narrow gap between the projection members 12 is upward when the thin hot water pipe (P) is used. In the case of seating, the surface formed with a wide interval of the protrusion members 12 may be positioned upward so that the hot water pipe P may be mounted and installed.

Normal hot water pipes of such hot water pipes (P) are generally used, but the thickness thereof is generally 12 mm or 15 mm in inner diameter. However, the present invention is not limited thereto, and hot water pipes having a thickness appropriate to the installation situation may be seated. When a protective pipe or the like is provided on the outside of the hot water pipe, a gap between the protruding members 12 may be formed in accordance with the outer diameter of the protective pipe (for example, a protective pipe for preventing the hot water pipe from being damaged due to the formation of a through hole). Thus, the insulation panel 10 may be provided.

Heat generated in the hot water pipe (P) is heated air distribution space (a) between the projection member 12 between the upper side of the panel body 11 of the heat insulation panel 10 and the lower side of the heat insulating heat transfer plate (13). Will heat the air. In this way, the heated air of the heated air distribution space (a) moves not only to the portion where the hot water pipe P is located, but also to the portion that is not heated by the convection of the heated air (fluid). 13) heats the air in the room by heat exchange.

The insulation panel 10 provided as described above may be provided so that the edge of the panel body 11 is inserted into the heated air atmospheric circulation groove 15 below the side wall S.

In addition, the inner upper surface of the warm air air circulation groove 15 is installed upward than the heat insulating heat transfer plate 13, whereby the air of the heated air distribution space (a) heated by the hot water pipe (P) is It may be provided to be blown into the room through the heated air blowing groove 16 between the upper portion of the heat insulating heat transfer plate 13 and the heated air atmospheric circulation groove 15.

In particular, the mop base 17 is further provided to be surrounded by the lower front side of the side wall (S) in contact with the heat insulating heat transfer plate 13, and thus the mop is a heated air discharge port through which the air of the warm air blowing groove 16 is ejected. The receiving through hole 171 is provided to be formed in a plurality of places of the receiving base 17.

Therefore, as shown in FIG. 3a or 3b, the heated air of the heated air flow space (a) between the panel body 11 and the heat insulating heat transfer plate 13 of the insulation panel 10 is heated by the convection phenomenon caused by heating Through the air air circulation groove 15 to the indoor air through the heated air ejection groove 16 and the mop through-hole 171 that is the heated air outlet, so that the indoor air is quickly warmed by the heated air ejected thereto It is equipped.

The thermal insulation heat transfer plate 13 of the heating structure of the present invention provided as described above may be configured to include a metal or a synthetic resin, and the heat insulating material 111 is also a polystyrene foam (Foam Polystyrene Thermal Insulation Material), a glass insulator (Thermal Insulation Material) Made of Glass Wool, Thermal Insulation Material Made of Rock Wool, Polyethylene Foam, Polyurethane Foam, Vermiculite, Perlite, Ureafoam , Cellulose (Cellulose) insulation, soft fiber board (Soft Fiber Insulation Board), it may be configured to include any one of phenol foam (Phenol Foam).

In particular, the heat insulation panel 10 has a heat insulating material 111 is embedded in the panel body 11 formed of a plate-shaped block, and protrudes upward in a plurality of places on the upper surface or the upper and lower surfaces of the panel body 11. Since a plurality of protruding members 12 are formed, the insulating panel 10 is formed by injection molding so that the panel body 11 and the protruding member 12 in which the insulating material 111 is embedded are integrated. It may comprise a plastic material, synthetic resin material, urethane material and the like.

Looking at the construction method of the heating structure using the present invention insulation panel provided as described above are as follows.

That is, as shown in FIGS. 4A to 4G, first, the bottom concrete B, which is the foundation floor of the room A, is poured to cure the bottom concrete forming step S01. Accordingly, as shown in FIG. 4A, a portion where the side wall S is formed may be formed to partially protrude the reinforcing bar.

Thereafter, the side wall formwork for installing the side wall formwork 20 in which the circulation groove forming portion 21 protrudes is formed so that the heated air atmospheric circulation groove 15 is formed on the upper surface of the bottom concrete B for the side wall S to be cast. Forming step (S02) is performed.

The side wall surface forming step (S03) of curing concrete by pouring concrete into the side wall formwork 20 is performed to form the side wall S on which the warm air atmospheric circulation groove 15 is formed.

Accordingly, the insulation panel installation step (S04) of installing the insulation panel 10 to the top surface of the bottom concrete B manufactured by injection or the like is performed in advance, and the insulation panel 10 installed to the top surface of the bottom concrete B. Insulating pipe installation step (S05) to install a hot water pipe (P) between the plurality of protrusion members 12 protruding on the upper surface of the), where the hot water pipe (P) is connected to the pipe (not shown) and the pipe Hot water can be added to prepare for warm-up operation. Such warming operation preparation is preferably carried out after the completion of the construction of the heating structure is completed.

In this way, the heat insulation heat transfer plate 13 is installed to the top of the heat insulation panel 10 in which the hot water pipe P is installed, and the heat insulation heat transfer plate installation step S06 is performed, and the heat insulation heat transfer plate 13 is an edge of the heat insulation heat transfer plate 13. The baseboard installation step of installing a baseboard 17 in which a baseboard hole 171, which is a heated air discharge port through which heated air flows out to the front surface of the heated air atmospheric circulation groove 15, which is the lower side of the side wall S, is formed. S07) and the finishing structure (S08) to finish the heating construction by installing a finishing floor material 22 on the upper surface of the heat transfer plate 13 in which the baseboard 17 is installed to perform the heating structure construction. You are done.

Thus, as mentioned above, the heat insulating panel 10 is preferably to be formed by injection so that the heat insulating material 111 is embedded.

Even if the construction is somewhat changed, the heating structure is installed by installing an insulation panel 10, a hot water pipe (P), an insulating heat transfer plate (13), and a finished flooring material (22) in a room where floor concrete and side walls are installed. The main purpose is to construct.

Therefore, in the above embodiment, the formwork for forming the warm air air circulation groove 15 is formed before the side wall S is poured, and then the side wall S is cured by placing the formwork. Can be constructed by drilling to form a warm air atmospheric circulation groove (15).

In another embodiment, the side wall inner member (not shown) is formed on the existing side wall S so that the upper side protrudes into the interior of the room. As a result, the warmed air atmospheric circulation groove 15 is formed below the side wall inner member. It may be provided to be formed. That is, not only in the interior of the newly constructed building, but also in the form of the side wall S of the interior of the building in which the heating air atmospheric circulation groove 15 is not formed, the heating structure using the insulation panel of the present invention may be provided. Naturally, such an embodiment is within the scope of the present invention.

As for the heating structure construction method of the present invention constructed as described above, the above-mentioned sidewall form forming step (S02) is also to be constructed as in Figures 5a to 5c, so that the heated air atmospheric circulation groove 15 is formed The buried circulating groove forming member 210 may be installed, and the side wall formwork 201 may be installed.

Accordingly, the buried circulation groove forming member 210 may be formed to have a plurality of vertical support pillars 212 in the housing member body 211 and the front open portion of the housing shape of the front open, the material is a synthetic resin It may be configured to include ash, wood or metal.

In the case of the heating structure using the heat insulation panel of the present invention provided as described above, it can be provided with a heat insulating heat transfer plate which is the floor of the room as a metal material to easily transfer the heat of the hot water pipe (P), the heating is fast, and to the heat insulating heat transfer plate As well as heating by the heated air circulating groove 15 and the receiving air through the hole 171 is circulated through the heated air quickly warms the indoor air and finally the indoor floor and indoor air at the same time has the advantage of easy warming have.

In addition, since the porous heat insulating material 111 is formed inside the panel body 11, the upper layer can be alleviated from the shock and noise of the upper layer, and the impact and noise can be reduced by the plurality of protrusion members 12. In particular, a plurality of protrusion members 12 may be formed only on the upper surface 101 of the panel body 11 to provide excellent thermal and heating characteristics, and in addition, the lower surface 102 of the panel body 11 may also be provided. Protruding member 12 ′ may be formed. In the case of forming a plurality of projection members 12 and 12 ′ together on the upper surface 101 and the lower surface 102 of the panel body 11 as described above, not only the above-mentioned thermal and heating characteristics but also indoors By preventing the transmission of shock noise to the lower side, especially in a multi-storey building such as a building, apartment, villa has the excellent advantage to prevent the noise of the upper floor is transmitted to the lower floor to lead a more comfortable life.

And the construction of the heat-insulating panel 10 prepared in advance to the upper portion of the bottom concrete (B) just by moving, and the finished flooring material consisting of hot water pipe (P) and heat-insulating heat transfer plate (13) of the upper part and jangpan, solid wood board ( 22) can be easily installed, such as to shorten the construction period and to reduce the cost of construction.

In addition, it is possible to reduce the heating cost as shown in Table 1 and Table 2 below.

The test of the test example of Table 1 and Table 2 measured what was needed, heating about 10 hours from about 20:00 pm night time to 06:00 the next day.

And when the measurement by the conventional conventional method and the case of construction by the present invention, the initial temperature was measured starting from the same state (almost the same state).

Episode division Initial temperature Fuel consumption Saving ratio Fuel saving  1 time existing 23 ℃ 3.053㎡ Save 30.00% 0.916㎡ saving The present invention 23 ℃ 2.137㎡  Episode 2 existing 22 ℃ 8.260㎡ Save 47.67% 3.938㎡ saving The present invention 22 ℃ 4.322㎡  3rd time existing 23 ℃ 7.150㎡ Save 32.53% 2.326㎡ saving The present invention 23 ℃ 4.824㎡

(Experiment at set temperature-present temperature about 3 ℃)

Episode division Initial temperature Fuel consumption Saving ratio Fuel saving  1 time existing 22 ℃ 8.009㎡ Save 46.71% 3.741㎡ saving The present invention 22 ℃ 4.268㎡  Episode 2 existing 23 ℃ 8.591㎡ Save 36.43% 3.130㎡ saving The present invention 23 ℃ 5.461㎡  3rd time existing 23 ℃ 11.430㎡ Save 46.51% 5.316㎡ saving The present invention 23 ℃ 6.114㎡

(Experiment at set temperature-current temperature about 4 ℃)

In Table 1, the average saving ratio is about 36.73%, and the amount of fuel saved is about 2.400 m2, and in Table 2, the average saving ratio is about 43.22%, and the amount of fuel saved is about 4.060 m2. It can be seen that the fuel saving effect is significant.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art without departing from the spirit and scope of the invention described in the claims below In the present invention can be carried out by various modifications or variations.

The present invention provided as described above is for the heating structure of the room, there is an effect that the heating characteristics are superior to save fuel and a comfortable life. In addition, there is an effect of shortening the construction period and saving construction cost and construction cost by easy heating structure facilities such as installing insulation panels and heat-insulating heat transfer plates on the floor concrete.

Furthermore, in addition to simply heating the floor and heating the room, the indoor air is also warmed up by the air heated by the hot water pipes, so that the indoor air is heated up quickly. have.

Claims (6)

Insulating panel 10 is installed on the upper surface of the floor concrete (B), which is the base floor of the room (A), and the heat insulation panel (10) on which the hot water pipe (P) is installed, To be included, The heat insulating panel 10 includes a panel body 11 made of a plate-shaped block, the heat insulating material 111 is embedded in the lower side of the panel body 11, the upper surface of the panel body 11 ( A plurality of protrusion members 12 protruding upward from a plurality of places are formed, and the hot water pipe P is installed between the plurality of protrusion members 12 so that the panel body 11 and the heat insulating heat transfer plate are provided. Heating structure using a heat insulation panel, characterized in that it is provided to heat the air in the heated air distribution space (a) between (13). The method of claim 1, The insulation panel 10 has an edge of the panel body 11 is inserted into the warm air air circulation groove 15 below the side wall (S), and a plurality of places of the lower surface 102 of the panel body 11. A plurality of protrusion members 12 'are further formed to protrude downward, The upper surface of the warm air circulation groove 15 is installed upward of the heat insulation heat transfer plate 13 so that the air heated by the hot water pipe P is upper than the heat insulation heat transfer plate 13 and the warm air air circulation. It is provided to be blown into the room through the heated air jet groove 16 between the grooves 15, The base plate 17 is further provided to surround the lower side of the side wall S in contact with the heat insulating heat transfer plate 13 so that the base plate through-hole 171 through which the air of the heated air blowing groove 16 is ejected is provided. Heating structure using a heat insulation panel, characterized in that formed in a plurality of places (17). The method of claim 1, The thermal insulation plate 13 is composed of a metal or synthetic resin, The insulation 111 is made of polystyrene foam (foam polystyrene thermal insulation material), glass insulation (thermal insulation material made of glass wool), rock wool (thermal insulation material made of rock wool), polyethylene foam (polyethylene foam), polyurethane foam (Polyurethan Foam), Vermiculite, Perlite, Ureafoam, Cellulose Insulation, Soft Fiber Insulation Board, Phenolic Foam Heating structure using a heat insulation panel, characterized in that the configuration. It is installed in a room having a heating structure of any one of claims 1 to 3, Insulating material 111 is embedded in the panel body 11 formed of a plate-shaped block, a plurality of projection members protruding upward or downward in a number of places on the upper surface or upper and lower surfaces of the panel body 11. 12, 12 'are formed, The heat insulation panel 10 is a heat insulation panel, characterized in that formed by injection so that the panel body (11) and the projection member (12) (12 ') in which the heat insulating material 111 is embedded. A floor concrete forming step of pouring and curing bottom concrete (B), which is the base floor of the room (A) (S01); Forming side wall formwork for installing side wall formwork 20 in which the circulating groove forming part 21 protrudes so that the heated air atmospheric circulation groove 15 is formed on the upper surface of the bottom concrete B for placing the side wall S. Step S02; A side wall surface forming step of curing by pouring concrete into the side wall formwork (S03); Thermal insulation panel installation step (S04) for installing the thermal insulation panel 10 to the upper surface of the bottom concrete (B); A thermal pipe installation step (S05) of installing hot water pipes (P) between the plurality of protrusion members 12 protruding from the upper surface of the heat insulation panel 10 installed as the upper surface of the bottom concrete B; Thermal insulation heat transfer plate installation step (S06) for installing the thermal insulation heat transfer plate 13 to the upper portion of the heat insulation panel 10, the hot water pipe (P) is installed; The base plate 17 having a base plate through-hole 171 through which the heated air flows out to the front surface of the heated air atmospheric circulation groove 15 which is the lower side of the side wall S, which is an edge of the heat insulating heat transfer plate 13, is formed. To install the baseboard installation step (S07); It is provided with a finishing step (S08) to finish the heating construction by installing a finishing floor material 22 on the upper surface of the heat transfer plate 13 is installed the baseboard 17, The heat insulation panel 10 is a heating structure construction method using a heat insulation panel, characterized in that formed by injection so that the heat insulating material 111 is embedded. The method of claim 5, The sidewall form forming step (S02) is To install the buried circulation groove forming member 210 of the housing shape to form the heated air atmospheric circulation groove 15, and to install the side wall formwork 201, The buried circulation groove forming member 210 has a plurality of vertical support pillars 212 formed in the housing member body 211 and the front open portion of the front shape is formed of a synthetic resin material or a metal material Heating structure construction method using an insulating panel, characterized in that.

Images