KR100616420B1 - Heating panel structure - Google Patents

Abstract

The present invention relates to a prefabricated dry ondol panel structure, and in particular, to provide a dry ondol panel structure having no sound deformation or leakage due to heat change, and a simple construction and sound insulation effect.

The present invention is a dry ondol panel structure for installing a heating pipe on the floor surface of the building, after completion of construction flat plate-like top plate constituting the floor of the building, extending downward from the center of the top plate to the slab surface of the building And a main rib supported, a pipe part formed on both sides of the main rib, and a male and female fitting part formed on both sides of the upper plate.

The pipe part includes a hot water passage through which hot water communicates, and an air layer formed on left and right sides and a lower surface of the hot water passage, an air layer is formed on a bottom surface of the upper plate, and a heat insulating material is provided below the air layer. One side of the part is provided with a connection pipe, the other side is provided with a coupling groove, the top plate provides a structure further provided with an auxiliary rib for preventing deformation.

In addition, when the conductive plate of the metal material is further provided on the surface of the top plate, heat is quickly and evenly transferred to the top surface, and the strength of the top plate is reinforced.

Description

Dry Ondol Panel Structure

1A and 1B are a perspective view and a cross-sectional view of a preferred embodiment of a straight ondol panel according to the present invention,

Figure 2a and 2b is a perspective view and a cross-sectional view of another embodiment of a straight ondol panel according to the present invention,

3 is a perspective view of a preferred embodiment of the U-shaped ondol panel according to the present invention,

4 is a perspective view of another embodiment of the U-shaped ondol panel according to the present invention;

5a and 5b is a conceptual diagram showing a hot water passage connection structure of a dry ondol panel according to the present invention,

Figure 6 is a plan view showing the construction of a dry ondol panel structure according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100, 100 ': straight ondol panel 110: top plate

120: main rib 130a, 130b: piping

140a, 140b: Hot water passage 200, 200 ': U-shaped ondol panel

210: hot water path 220: connector

230: connecting groove

The present invention relates to a prefabricated dry ondol panel structure, and in particular, to provide a dry ondol panel structure having no sound deformation or leakage due to heat change, and a simple construction and sound insulation effect.

Recently, a dry ondol panel structure incorporating a hot water pipe has been introduced. In the related art, a dry ondol panel uses a separate connection pipe or a separate metal connection member to connect the ondol panel. Due to the use environment of the panel, there was a possibility of leakage phenomenon and it was not widely spread.

The present invention is to solve the conventional problems, to provide a dry ondol panel structure that is provided with a hot water passage in the dry ondol panel itself, so that the entire assembly is made of the same material does not occur leakage even if the heat changes. have.

In another aspect, the present invention provides a dry ondol panel structure having a sound insulation effect to prevent heat leakage by forming a separate air layer and a conductive plate inside the dry ondol panel.

In order to achieve the above object, the present invention provides a dry ondol panel structure for installing a heating pipe on a floor of a building,
After completion of construction, the floor of the building forms a flat plate having a secondary rib for preventing deformation on the bottom surface, a main rib extending downward from the center of the top plate and supported on the slab surface of the building, and on both sides of the main rib. The hot water passage is formed in the longitudinal direction, and both sides and the lower side except the upper surface of the hot water passage is cut, a pipe portion having a side wall of the same height as the main rib formed on both sides of the hot water passage, and the pipe portion A conductive plate provided on the surface of the upper plate located, a heat insulating material provided at the bottom of the upper plate to form an air layer in the space therebetween, a U-shaped ondol panel for connecting the hot water passages on both sides of the pipe, and formed on both sides of the upper plate. Characterized in that it comprises a male and female fitting coupling.

It is preferable to provide an air layer on the left and right sides and the lower surface of the hot water passage.
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

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Figure 1a is a perspective view of a preferred embodiment of the flat ondol panel according to the present invention, Figure 1b is a cross-sectional view of a preferred embodiment of the flat ondol panel according to the present invention.

The present invention is a straight ondol panel having a form of a panel assembled on the floor, the rectangular top plate 110 forming the bottom surface of the building interior space, and disposed in the longitudinal direction in the center of the top plate 110 And a main rib 120 which serves to support the upper plate by contacting the slab surface of the building during construction to the building, and formed side by side on both sides of the main rib 120, and having hot water passages 140a and 140b. It includes a pair of pipe parts 130a and 130b and female and female coupling parts 170a and 170b formed at both ends of the upper plate 110.

A portion of the upper plate 110 corresponding to the upper surfaces of the pipe parts 130a and 130b is provided with heat conductive plates 150a and 150b of a metal material (especially, a material having high thermal conductivity such as copper) to provide a pipe part 130a, It is desirable to allow the heat of 130b) to be delivered to the surface of the top plate 110 quickly and uniformly. Since the heat conduction plates 150a and 150b are metal plates, the heat conduction plates 150a and 150b also have an effect of reinforcing the strength of the upper surfaces of the piping parts 130a and 130b. Thus, the pipe parts 130a and 130b are damaged by a shock or sharp object and water leakage occurs. Can be prevented. In the illustrated embodiment, the heat conduction plates 150a and 150b are divided into two sheets, and cover about half of the entire area of the upper plate 110, but may have a configuration that covers the entire upper plate 110 with one heat conduction plate. Or, it may be narrowly formed to have an area covering only the portion corresponding to the pipe parts (130a, 130b). In particular, when the copper plate is used as the heat conduction plates 150a and 150b, it also brings about the effect of water vein or electromagnetic wave blocking.

Hot water passages 140a and 140b through which the hot water for heating passes are formed in the pair of pipe parts 130a and 130b provided side by side under the upper plate 110, except for the upper surfaces of the hot water passages 140a and 140b. Both sides and the lower part are incision. This structure has a structure in which the heat of hot water passing through the hot water passages 140a and 140b is transferred to the 'conduction' toward the top plate 110, and is transferred through the 'convection' in contact with air to the side or the bottom surface. to provide. Therefore, the heat of hot water may be transmitted more toward the top plate 110. Ondol panel is basically for heating the top plate 110, it is preferable that the heat of the hot water passage is transferred to the top plate as much as possible and is not lost to other parts. The pipe parts 130a and 130b are provided with sidewalls 142a and 142b on both sides of the hot water passages 140a and 140b. The side walls 142a and 142b have the same height as the main ribs 120 to support the pipe parts 130a and 130b. In addition, since the side walls 142a and 142b are in contact with the slab surface of the building (in actual construction, they are in contact with the silver foil ethylene which is pre-installed on the floor), so that the air around the hot water passages 140a and 140b is also sealed. If necessary, the lower surfaces of the pipe portions 130a and 130b, that is, between the sidewalls (between 142a and 142a and between 142b and 142b) may be blocked using a separate member.

An insulating material made of a material such as EPS (Expanded Poly Styrene) between the sidewalls 142a and 142b and the space between the main ribs 120 and the sidewalls 142a and 142b and the male and female fitting couplers 170a and 170b. And 180. The heat insulator 180 is spaced apart from the top plate 110 by a predetermined distance, thereby providing a structure in which an air layer exists between the top plate 110 and the heat insulator 180. The air layer between the top plate 110 and the heat insulator 180 serves as a heat insulation layer to prevent heat from being transferred downward and as a sound insulation layer to prevent vibration of the top plate 110 from being transferred downward. . The bottom surface of the upper top plate 110 of the heat insulating material 180 is preferably further provided with an auxiliary rib 125 for the reinforcement of strength. This is because when the length of the upper plate 110 is long, a phenomenon in which the upper portion of the upper plate 110 of the heat insulator 110 is fluctuated may occur.

The auxiliary ribs 125 reinforce the strength in the longitudinal direction of the upper plate 110 to bring about an effect of preventing deformation even if the length of the upper plate 110 becomes long.

Male and female fitting portions 170a and 170b formed at both ends of the upper plate 110 are formed, and a plurality of ondol panels 100 are provided to easily connect the fittings. The fitting structure of the panel is widely used in building interior materials and its shape may be modified in various ways, and is not limited to the illustrated embodiment.

It is preferable that the ondol panel 100 according to the present invention is manufactured by a molding method of extrusion, and the heat insulating material 180 is formed integrally by a method of being pulled out together during extrusion molding, or the heat insulating material 180 is attached later. Can be used. As the material of the ondol panel 100, EP (Engineering plastic) material, PVC material, crosslinked polyethylene or other synthetic resin material may be used, and when using these materials, thermal conductivity is added by adding impurities such as charcoal powder, loess, or jade. , Antibacterial properties can be improved.

2a and 2b is a perspective view and a cross-sectional view showing another embodiment of the straight ondol panel according to the present invention.

The present embodiment is formed by separately forming the hot water pipes (145a, 145b) constituting the hot water passages (140a, 140b) and extruded together with the ondol panel 100 at the time of extrusion. In this embodiment, the hot water pipes 145a and 145b constituting the hot water passages 140a and 140b are made of PVC, crosslinked polyethylene, or other synthetic resin, and the ondol panel 100 is made of PVC, EP, wood, or Can be made of other synthetic materials. The method of manufacturing the hot water pipes 145a and 145b as a separate material has an advantage of improving reliability regarding watertightness of the product. In addition, when the length of the hot water pipes 145a and 145b is longer than the top plate 110 and extruded, the hot water pipes 145a and 145b may be drawn out before and after the top plate 110 as shown.

In this embodiment, the through holes 147a and 147b are provided on the left and right sides and the bottom surfaces of the hot water pipes 145a and 145b. The through holes 147a and 147b are for transferring more heat from the hot water passing through the hot water pipes 145a and 145b to the upper plate 110 in the same manner as in the previous embodiment, and form an air layer to obtain a heat insulating effect.

The ondol panels 100 and 100 'of the present invention have a symmetrical shape so as to be used by cutting in the longitudinal direction as needed, and when the center of the main rib 120 is cut in the longitudinal direction, the ondol panel having only one hot water passage is provided. Becomes

3 and 4 are perspective views showing preferred embodiments of the U-shaped dry ondol panel according to the present invention.

The U-shaped dry ondol panel is an ondol panel for attachment to both sides of the ondol panel to interconnect the hot water passages of the ondol panel (hereinafter, referred to as a flat ondol panel) of the embodiment of FIGS. 3 and 4 described above.

As shown, the U-shaped ondol panels 200 and 200 ′ have the same thickness and width as the straight-shaped ondol panels, and are provided with a U-shaped hot water passage therein. The U-shaped ondol panel is preferably made of the same material as the straight temperature panel, it may be cut in half if necessary. The U-shaped ondol panels 200 and 200 'are not provided with an air passage or a heat insulating material provided in the straight ondol panel, and the whole of the U-shaped ondol panels except for the hot water passage is filled. This is to prevent heat loss and increase the insulation effect by sealing the air forming the air layer from the outside by blocking the air layer provided on the straight ondol panel when the U-shaped tube and the straight tube is connected to both sides.

The connection between the U-shaped ondol panel and the linear ondol panel will be described later with reference to FIGS. 5 and 6.

Such a U-shaped ondol panel cannot be molded by the method of extrusion, but can be manufactured using the method of injection. The form can be freely formed as compared with the extrusion. 3 is a U-shaped ondol panel 200 having a connection pipe 220 to form a hot water pipe to the outside, Figure 4 is provided with a connection groove 230 that can be inserted into the connector of another panel It is a U-shaped ondol panel 200 'of the form.

5a and 5b is a conceptual diagram showing a hot water passage connection structure of a dry ondol panel according to the present invention.

The heating pipe is preferably connected to the entire bottom surface as a single pipe, for this purpose, the linear ondol panels (100, 100 ') and the U-shaped ondol panels (200, 200') as described above must be connected in one. . The arrangement thereof will be described later with reference to FIG. 6, and the pipe joint structure of the linear ondol panels 100 and 100 ′ and the U-shaped ondol panels 200 and 200 ′ will be described.

FIG. 5A illustrates a connection structure of the straight ondol panel 100 of the embodiment of FIG. 1A and the U-shaped ondol panel 200 of the embodiment of FIG. 3.

As described above, since the connection tube 220 is integrally molded to the U-shaped ondol panel 200 and drawn out to the outside, the connection groove 220 may be inserted into the straight ondol panel 100. 132a and 132b are processed. The connecting grooves 132a and 132b are formed to have a size corresponding to the outer diameter and the length of the connecting tube 220, and when it is difficult to form during extrusion molding, the worker cuts and uses a separate tool.

The connection tube 220 of the U-shaped ondol panel 200 is attached to the connection grooves 132a and 132b of the linear ondol panel 100 using a method of thermal fusion or thermal welding. Since the connection structure is entirely made of a single material, there is no fear of deformation or leakage due to thermal expansion or thermal contraction.

FIG. 5B illustrates a connection structure of the straight ondol panel 100 ′ of the embodiment of FIG. 2A and the U-shaped ondol panel 200 of the embodiment of FIG. 4.

As described above, the hot water pipes 145a and 145b are separately manufactured and then molded together with the top plate in the extrusion process, and the hot water pipes 145a and 145b protrude from the front and back of the top plate. It can be produced in the form, the hot water pipes (145a, 145b) so protruded is used as a connecting pipe. Since the U-shaped ondol panel 200 ′ is manufactured by injection molding, the connecting groove 230 may be integrally formed at the time of manufacture.

As in the previous embodiment, the connection pipes 147a and 147b are attached to the connection grooves 230 by heat fusion or heat welding.

Figure 6 is a plan view showing a state in which the construction of the bottom pipe using the ondol panel according to the present invention.

As shown, in the case of constructing a heating pipe using the ondol panel according to the present invention, the entire pipe is connected so that the pipe started at the hot water inlet (In) passes through the entire bottom surface and then flows out to the hot water outlet (Out). Should be.

For this construction, first, determine in which direction to install the flat ondol panels (100, 100 '), considering the length of the U-shaped ondol panels (200, 200') on both sides of the flat ondol panel (100, 100 '). In this way, the length-shaped ondol panels 100 and 100 'are manufactured (or cut). The construction sequence is to first install the silver foil ethylene (not shown) on the slab surface and then arranged the linear ondol panels (100, 100 ') and combine the male and female fittings of each of the linear ondol panels (100, 100'). Next, the hot water inlet (In), hot water outlet (Out) and the U-shaped ondol panels (200, 200 ') and the C-shaped ondol panels (250, 250') corresponding to half the size of the U-shaped ondol panel Connect the straight ondol panels (100, 100 ') and connect both sides of each of the flat ondol panels (100, 100') to finish the construction. If necessary, a straight ondol panel 100-1 having a single hot water passage is constructed by cutting in half as shown. It is preferable to finish the construction with a gap of predetermined interval between the entire ondol panel and the wall, and then fill the part with a finishing material 300 of a flexible material such as urethane, and when the thermal expansion and thermal contraction of the entire ondol panel occurs In order to allow the finish to absorb changes in the length of the ondol panel.

As described above, the ondol panel structure according to the present invention has a built-in heating pipe so that the floor construction is completed only by assembling the ondol panel. Therefore, there is an effect to shorten the air and reduce the construction cost.

In addition, compared to the conventional wet ondol structure, the weight is significantly reduced, resulting in an effect of reducing the load of the entire building.

Claims (7)

In the dry ondol panel structure for installing a heating pipe on the floor of the building, After completion of the construction and forms the floor of the building, the top plate of the shape of a plate having a secondary rib for preventing deformation on the bottom surface, A main rib extending downward from the center of the upper plate and supported on the slab surface of the building; Hot water passages are formed on both sides of the main rib in the longitudinal direction, and both sides and the lower side of the hot water passage except for the upper surface are cut out, and the side walls of the same height as the main ribs are formed on both sides of the hot water passage. Wealth, A conductive plate installed on a surface of the upper plate on which the pipe part is located; Is installed on the bottom of the top plate and the heat insulating material to form an air layer in the interspace, U-shaped ondol panel for connecting the hot water passages on both sides of the pipe, Dry ondol panel structure characterized in that it comprises a male and female fitting coupling formed on both sides of the top plate. The method of claim 1, Dry ondol panel structure comprising an air layer on the left and right sides and the lower surface of the hot water passage. delete delete delete delete delete

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