KR101010964B1 - Assembly ondol structure and heating assembly panel - Google Patents

Abstract

The present invention is easy to install and repair on the base floor 100 or wall 110 in the building, excellent heat transfer and thermal insulation, prevent noise and vibration, prefabricated ondol structure and heating prefabricated panel ( 200, a plurality of concave grooves 200b, which are coupled to the base floor 100 or the wall surface 110 of the indoor space, are formed, and at least one pipe groove 200a on each side of the concave grooves 200b. At least one prefabricated panel 200 for heating; A heating water pipe 250 accommodated in a pipe groove 200a of the prefabricated panel 200 for heating; An upper panel 230 having an upper surface installed to cover an upper portion of the prefabricated panel 200 for heating; And a plurality of spheres 270 accommodated in a space formed by the upper panel 230 and the concave groove 200b.

Prefabricated ondol structure and prefabricated panel 200 for heating according to the present invention as described above has a sphere 270 made of a main material, such as ocher, carbon, sodium in the space formed by the upper panel 230 and the recessed groove (200b) By accommodating, the dehumidification, antibacterial and deodorizing effect is excellent, and by forming a ventilation groove (200c) connecting the adjacent concave groove (200b) with the air layer caused by the voids (270a) between the sphere 270, the heating water pipe The heat generated at 250 is quickly transferred, and at the same time, the heat is kept warm for a long time. Furthermore, the formed air layer prevents heat loss and noise / vibration from being transferred to the base bottom 100 and the wall surface 110. It works. In addition, the prefabricated panel 200 for heating is made of stone powder and charcoal as a main material, which is beneficial to the human body by radiation of far infrared rays and negative ions during heating, as well as assembly of the prefabricated panel 200 for heating by making the side convex or concave. It is easy and can be easily installed on the wall surface 110 of the building with light and excellent durability according to the characteristics of the material, and it is economical to reduce the labor and construction cost by shortening the construction time due to the easy construction and repair. .

Heating, Prefab, Panels, Ondol

Description

Prefabricated ondol structure and prefabricated panel for heating {ASSEMBLY ONDOL STRUCTURE AND HEATING ASSEMBLY PANEL}

The present invention relates to a prefabricated ondol structure and a prefabricated panel for heating, and more particularly, excellent heat transfer and thermal insulation, and further prevents noise and vibration, as well as radiation of far infrared rays and anions, which are beneficial to the human body, as well as excellent dehumidification and antibacterial and deodorizing effects. The present invention relates to a prefabricated ondol structure and a prefabricated panel for heating, which are easy to construct and repair on the foundation floor or wall of a building.

Most Korean buildings have ondol heating facilities that heat the foundation floor of a building. In addition, the heating equipment is commonly used for the construction of ondol, which embeds a heating water pipe using cement mortar. However, in the conventional ondol construction method, the heating water pipe is constructed by the worker through a wet operation, so that the heating water pipe is not constructed at uniform intervals, and thus, there is a disadvantage in that the temperature of the building floor is uneven.

In addition, even if a submerged heating water pipe is deformed or corroded due to a load, the entire heating surface must be removed and repaired even if a failure occurs. There was a flaw of warming up.

In addition, the cement mortar has almost no soundproofing function, harmful chemicals are bleeding out, the shielding effect is insignificant, and mold-like bacteria are breeding. Insulation was also insignificant, causing a lot of heat loss.

The present invention has been proposed in order to solve the problems of the prior art as described above, excellent dehumidification, antibacterial and deodorizing effect, heat generated in the heating water pipe is transferred quickly and at the same time heat is kept warm, furthermore Not only does it prevent heat loss and noise and vibration from being transmitted to the wall, but also benefits the human body by the radiation of far infrared rays and negative ions during heating. And it aims to be able to work easily and efficiently repair.

In order to achieve the above object, the prefabricated ondol structure according to the present invention has a plurality of recessed grooves, which are coupled to a base floor or a wall surface of an indoor space, and at least one heating prefabricated groove having at least one pipe groove formed on each side of the recessed grooves. panel; A heating water pipe accommodated in a pipe groove of the heating assembly panel; And an upper panel having an upper surface installed to cover an upper portion of the prefabricated panel for heating.

In the above, it characterized in that it further comprises a plurality of spheres accommodated in the space formed by the upper panel and the concave groove.

In the above, the depth of the concave groove is in the range of 2 ~ 5cm, the diameter of the sphere accommodated in the concave groove is characterized in that the range of 2 ~ 10mm.

In the above, it is characterized in that a plurality of ventilation grooves for connecting the adjacent recessed grooves are formed between the plurality of recessed grooves formed in the prefabricated panel for heating.

The prefabricated panel for heating according to the present invention is characterized in that a plurality of concave grooves are formed, and at least one pipe groove is formed on each side of the concave grooves.

In the above, it is characterized by including 30 to 40% by weight of stone powder and 60 to 70% by weight of carbon.

In the above, the side surface is formed in a convex or concave shape is characterized in that connected to each other.

In the above, it is characterized in that a plurality of ventilation grooves for connecting the adjacent recessed grooves are formed between the plurality of recessed grooves formed in the prefabricated panel for heating.

Prefabricated ondol structure and prefabricated panel 200 for heating according to the present invention as described above has a sphere 270 made of a main material, such as ocher, carbon, sodium in the space formed by the upper panel 230 and the recessed groove (200b) By accommodating, the dehumidification, antibacterial and deodorizing effect is excellent, and by forming a ventilation groove (200c) connecting the adjacent concave groove (200b) with the air layer caused by the voids (270a) between the sphere 270, the heating water pipe Heat generated from the 250 is quickly transferred to enable uniform heating throughout, and at the same time has the effect of keeping the heat long, and further, the formed air layer has lost the heat to the base floor 100 and the wall surface 110 and It is effective in preventing noise and vibration from being transmitted. In addition, the prefabricated panel 200 for heating is made of stone powder and charcoal as a main material, which is beneficial to the human body by radiation of far infrared rays and negative ions during heating, as well as assembly of the prefabricated panel 200 for heating by making the side convex or concave. It is easy and can be easily installed on the wall 110 of the building with light and excellent durability according to the characteristics of the material, and it is economical to reduce the labor and construction cost by reducing the construction time due to the easy construction and repair. .

Hereinafter, the prefabricated ondol structure and prefabricated panel 200 for heating according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prefabricated ondol structure according to a preferred embodiment of the present invention may be installed on the wall surface 110 as well as the base floor 100 of the interior space, as shown in Figure 1, the prefabricated ondol structure as shown in FIG. At least one prefabricated panel 200 for heating having a plurality of recesses 200b formed therein; A heating water pipe 250 accommodated in the prefabricated panel 200 for heating; An upper panel 230 having an upper surface covering the upper part of the prefabricated panel 200 for heating; And a plurality of spheres 270 accommodated in a space formed by the upper panel 230 and the concave groove 200b.

In the above, as shown in Figs. 2 and 3, the prefabricated panel 200 for heating has a rectangular shape, a plurality of concave grooves 200b are formed, and each of the concave grooves 200b is formed. At least one pipe groove 200a is formed on the surface. The concave groove 200b has a range of 2 to 5 cm depth. The pipe groove (200a) is preferably formed in the range of the upper width of 2 ~ 2.5cm, the depth of 2 ~ 5cm. The prefabricated panel 200 for heating is preferably 30 to 40% by weight of stone powder and 60 to 70% by weight of carbon (charcoal) so that far infrared rays and anion radiation are made at the same time as heating, and dehumidification, antibacterial and deodorizing functions are effectively performed. Is made of. The stone powder may include tourmaline, germanium, elvan, loess and the like. The smaller the content of stone powder, the lighter the weight and the easier installation and transportation.However, when the panel 200 is manufactured by mixing the stone powder to 30% by weight or less and 70% by weight or more of carbon, the panel (in case of fire) As the 200 is lost, there is a problem that can not act as a flame retardant.

It is possible to install on the wall surface 110 of the indoor space by having the light weight and durability of the prefabricated panel 200 for heating due to the properties of the material by the composition. In addition, the prefabricated ondol structure composed of at least one prefabricated panel 200 for heating has a convex or concave side surface thereof so that assembly can be made more easily between neighboring prefabricated panels 200 (see FIG. 2). That is, the side surface of another heating prefabricated panel 200 which is attached to the concave side of the prefabricated heating panel 200 installed first is convex, so that the assembly between the two prefabricated panels 200 for heating is made easier. The convex or concave surface may be formed of a circular surface, an angular surface or a zigzag surface. The thickness of the prefabricated panel 200 for heating is preferably configured within the range of 3-6 cm in order to have the function and shape as described above.

In the above, the heating water pipe 250 is accommodated in the pipe groove (200a) formed in the prefabricated panel 200 for heating, the pipe is filled with a heat storage material (not shown), the inside of which can heat the heat storage material. A heating wire (not shown) may be installed, and heated heating water may flow as a hollow pipe. Preferably, the heating water pipe 250 uses a pipe having a diameter ranging from 12 to 18 mm. The heat storage material is used as a heat transfer medium, the proper use temperature range of -30 ~ 290 ° C, it is the use of alkyl benzene (Alkyl Benzene), one of the synthetic heat medium oil having a high ignition point, excellent oxidation stability and thermal stability desirable.

In the above, the upper panel 230 is installed to cover the prefabricated panel 200 for heating, the upper surface is made of a flat plate. The upper panel 230 may be manufactured by mixing the same composition as the prefabricated panel 200 for heating. The upper panel 230 is thinner than the prefabricated panel 200 for heating. Effective antibacterial and deodorizing function, adds to the excellent comfort of the interior space.

3 and 4 are a partial perspective view and a cross-sectional view of the prefabricated panel 200 for heating according to an embodiment of the present invention. 3 and 4, the sphere 270 is included in the space formed by the concave groove 200b formed in the upper panel 230 and the prefabricated panel 200 for heating, mainly ocher, carbon (charcoal) , Sodium (salt), etc., has far-infrared rays and negative ions during heating, as well as humidity control, antibacterial, air purification and deodorization. At this time, the diameter of the sphere 270 accommodated in the space surrounded by a wall around the depth of the concave groove (200b) 2 ~ 5cm is preferably made in the range of 2 ~ 10mm. At this time, an air layer is formed inside the upper panel 230 and the concave groove 200b due to the gap 270a (see FIG. 4) generated between the spheres 270. Thus, the heating water pipe 250 is formed by the formation of the air layer. As the generated heat is transferred quickly, the indoor space can be uniformly heated within a short time, and at the same time, the indoor space can be maintained for a long time with the effect of keeping the heat long. Furthermore, the formed air layer has an effect of preventing heat loss and noise and vibration from being transferred to the base floor 100 and the wall surface 110. The sphere 270 is accommodated in the space formed by the upper panel 230 and the concave groove (200b) to prevent resonance phenomenon caused by the space to prevent the vibration or noise to increase, the panel 200 It serves to prevent the transfer to the bottom of the.

5 and 6 are partial perspective and cross-sectional views of a second modified example of the prefabricated panel for heating shown in FIGS. 3 and 4. As illustrated in FIGS. 3 and 4, in order to further activate the flow of the air layer due to the voids 270a (see FIG. 6) generated between the spheres 270, the plurality of concave grooves 200b formed in the prefabricated panel 200 for heating. It is preferable to form a plurality of ventilation grooves (200c) for connecting the concave groove (200b) adjacent to each other on the side surrounding. The sphere 270 may be additionally located in the ventilation groove 200c according to the depth of the ventilation groove 200c. Aeration between the concave grooves 200b is made through the ventilation grooves 200c formed to connect the concave grooves 200b adjacent to each other, thereby reducing the temperature difference between neighboring concave grooves 200b. The loss of heat and the transmission of noise and vibration to the floor 100 and the wall surface 110 side can be reduced more efficiently. In addition, the sphere 270 made of ocher, carbon (charcoal), sodium (salt), etc., which are additionally accommodated in the ventilation grooves 200c, can more efficiently radiate far infrared rays and anions to indoor spaces, as well as humidity control, antibacterial and air. Gives cleansing and deodorizing function.

1 and 2 is a perspective view showing a preferred embodiment of the prefabricated ondol structure according to the present invention,

3 is a partial perspective view of a prefabricated panel for heating according to a preferred embodiment of the present invention,

4 is a cross-sectional view of the assembled state of the prefabricated panel for heating shown in FIG.

5 is a partial perspective view of a second modified example of the prefabricated panel for heating shown in FIG. 3,

6 is a cross-sectional view of the second modified example of the prefabricated panel for heating illustrated in FIG. 5.

     * Description of the symbols for the main parts of the drawings *

100: foundation floor 110: wall surface

120: cement mortar 200: prefabricated panel for heating

200a: piping groove 200b: concave groove

200c: Vent groove 230: Upper panel

250: heating water pipe 270: sphere

270a: void

Claims (8)

It is coupled to the base floor 100 or the wall 110 of the indoor space, a plurality of concave grooves (200b) are formed, one or more heating grooves formed with one or more pipe grooves (200a) on each side of the concave grooves (200b) Prefabricated panel 200; A heating water pipe 250 accommodated in a pipe groove 200a of the prefabricated panel 200 for heating; The upper panel 230 is a flat surface is installed to cover the upper portion of the prefabricated panel 200 for heating; includes, The prefabricated panel 200 for heating is 30 to 40% by weight of stone powder and 60 to 70% by weight of Prefabricated ondol structure comprising carbon. The method of claim 1, Prefabricated ondol structure characterized in that it further comprises a plurality of spheres (270) in the space formed by the upper panel 230 and the concave groove (200b). The method of claim 2, wherein the depth of the concave groove (200b) is in the range of 2 ~ 5cm, the diameter of the sphere 270 accommodated in the concave groove (200b) is prefabricated, characterized in that in the range of 2 ~ 10mm. Ondol structure. The method of claim 1, wherein a plurality of ventilation grooves (200c) for connecting the adjacent recessed grooves (200b) is formed between the plurality of recessed grooves (200b) formed in the prefabricated panel for heating (200). Prefabricated ondol structure. A plurality of concave grooves (200b) are formed, at least one pipe groove (200a) is formed on each side of the concave grooves (200b), including 30 to 40% by weight of stone powder and 60 to 70% by weight of carbon Prefabricated panel 200 for heating, characterized in that made. delete delete delete

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