WO2011046237A1 - Panel assembly for ondol underfloor heating - Google Patents

Abstract

The present invention relates to a panel assembly for Ondol underfloor heating that employs a lightweight and easily mass-producible heating panel, end panel, radiating panel, and frame member to not only enable easy and quick Ondol installation, but also obtain good durability, heating efficiency, and environmental friendliness. For these ends, the panel assembly for Ondol underfloor heating comprises: a heating panel (10) having at least 2 first linear grooves (11) defined lengthwise in a top thereof to house a hot water pipe (1000); end panels (20, 20") respectively disposed at a lengthwise end of the heating panel (10) to house curved portions (1100) of the hot water pipe (1000); elongated frame members (30) supporting both widthwise ends, respectively, of the heating panel (10) and the end panels (20, 20"); a radiating panel (40) mounted on tops of the heating panel (10) and the end panels (20 and 20"); fixing bars (50) mounted on tops of the frame members (30), respectively, for simultaneously pressing against tops of 2 adjacent radiating panels (40); and first supporting pieces (60) each having both ends attached to one side, respectively, of 2 adjacent frame members (30) to maintain a uniform gap between the 2 frame members (30).

Description

Panel assembly for underfloor heating

The present invention relates to a panel assembly for ondol heating, and more particularly, the construction of the ondol can be easily and quickly performed using a heating panel, an end panel, a heat dissipation panel, and a frame member that are light and easy to mass produce, and have durability and heating efficiency. And it relates to a panel assembly for ondol heating excellent in environmental friendliness.

Ondol heating system is a traditional Korean heating system that heats the stone on the floor (ball field) with combustion heat and uses the conductive and radiant heat of the heated stone. Recently, the ondol heating system embeds a hot water pipe made of metal or resin on the floor to form a large heat dissipation surface. In addition, a hot water circulation type ondol heating system that performs indoor heating by circulating hot water heated in a boiler in a hot water pipe is generally used.

The construction of hot water circulation type ondol generally uses a wet method. The wet process forms an insulating layer on the floor of the building, spreads the hot water pipes, and casts mortar to a certain thickness. Then, after finishing the curing process of mortar and cover the finishing materials, such as floor coverings, tiles, flooring, the ondol construction procedure is terminated.

However, the wet method is difficult to install and fix the hot water pipe. In addition, there is a problem in that excessive cost and time are required due to the planarization work and curing process of mortar. In addition, the mortar is a burden on the building structure because it weighs a lot, there is a problem that the heating efficiency is low because the heat generation efficiency is not good. In addition, cracks are likely to occur due to thermal expansion after ondol construction. In addition, there is a problem that takes a considerable time and effort to remove the mortar for repair and removal. In addition, the cement component causes various skin diseases such as atopic dermatitis, and construction waste cannot be recycled, thereby causing environmental pollution.

In order to solve the problem of the above-described wet method, a dry method using a modular ondol panel has been introduced. Ondol panels are generally manufactured in advance in a constant size and shape to accommodate the hot water pipes, and the construction of the ondol is achieved by assembling the ondol panels and the hot water pipes.

However, the conventional dry method using the ondol panel has a problem that it is difficult to install when the shape and size of the room to be constructed is not standardized. In addition, there is a problem in that the efficiency of the work is made by bonding or screwing the adhesive to assemble the ondol panel and hot water pipe during the construction of the ondol. Furthermore, the combination of the ondol panel and the hot water pipe is weak, and there is a structural defect inferior in durability such as deformation due to thermal expansion. That is, when the ondol panel assembly is used for a long time, the hot water pipe and the ondol panel are warped. This causes a problem that the heating efficiency is greatly reduced.

The present invention is to solve the problems as described above, the object of the present invention can be easily carried out the construction of the ondol irrespective of the shape and size of the room to be installed, and at the same time easy to maintain the ondol heating panel assembly To provide.

In addition, another object of the present invention is to provide a panel assembly for ondol heating, which has improved durability by preventing deformation due to thermal expansion and has a long service life.

In addition, another object of the present invention is to provide a panel assembly for ondol heating, which can achieve excellent heating efficiency at low cost, and environmentally friendly.

A heating panel 10 having at least two first linear grooves 11 formed on an upper surface thereof in a longitudinal direction to accommodate the hot water pipe 1000; End panels 20 and 20 "positioned on one side of the heating panel 10 in the longitudinal direction and accommodating the curved portion 1100 of the hot water pipe 1000; have a long rod shape, and have a heating panel 10 and an end panel ( A frame member 30 for supporting both ends of the width direction 20, 20 " A heat dissipation panel 40 seated on the upper surfaces of the heating panel 10 and the end panels 20 and 20 "; mounted on the upper surface of the frame member 30, and simultaneously pressing the upper surfaces of two neighboring heat dissipation panels 40 at the same time. And a first support piece 60 having both ends mounted on one side of two adjacent frame members 30 to maintain a constant distance between the two frame members 30. A panel assembly for underdol heating is provided.

In addition, the heating panel 10 includes a metal panel 10a on which the first linear groove 11 is formed, and a heat insulation panel 10b bonded to the bottom surface of the metal panel 10a. In this case, the metal panel 10a is made of aluminum, and the heat insulating panel 10b is made of foamed polystyrene or urethane. In addition, the fixing rod 12a is installed in the longitudinal direction between the first straight grooves 11, and is inserted into the mounting hole 13 formed in the lower portion of the reinforcing rod 12a at equal intervals and formed in the metal panel 10a. It is further provided with a reinforcing member 12 made of a fixing protrusion 12b. Then, seating grooves 14 supported by the frame member 30 are formed at both ends in the width direction of the heat insulating panel 10b.

In addition, the end panel 20 of one type has a semicircular groove 21a connected to two first linear grooves 11 and a quarter groove 21b connected to one first linear groove 11 and a semicircular groove 21a. Curved groove 21 made of) is formed. At this time, at least one second straight groove 22 is formed at one side of the curved groove 21 in the width direction.

Further, T-shaped first fasteners 23 are formed at both ends in the width direction of the end panels 20 and 20 ″ so as to be inserted and fixed to the side surfaces of the frame member 30.

Meanwhile, the other end panel 20 ″ may include a plate 25 ″ and a cylindrical protrusion 26 ″ formed in a lattice shape on the upper surface of the plate 25 ″.

In addition, the frame member 30 is equipped with a first guide 31 formed in the longitudinal direction at the top, and one end of the end panel (20, 20 ") and the first support piece 60 for mounting the fixing table (50) In order to support the second guide 32 formed in the longitudinal direction on both sides, respectively, and the support protrusions 34 formed on both sides of the lower side in order to support the width direction both ends of the heating panel 10.

In addition, the heat dissipation panel 40 includes an upper plate 41 and a lower plate 42, and both ends of the lower plate 42 protrude in the width direction so as to be stepped, and the upper plate 41 and the lower plate having the same length in the longitudinal direction ( 42 are stepped together. At this time, the upper plate 41 and the lower plate 42 contains magnesium oxide.

In addition, the fixing table 50 is formed over the entire length of the fixing plate 51 in contact with the upper surface of the heat dissipation panel 40, the fixing plate 51 is provided with an elastic locking projection (52a) at the end to the arrow-shaped cross section It consists of a hook portion 52 having a mounted on the upper surface of the frame member 30 in a snap fit manner.

In addition, the first support piece 60 is formed in the same shape as the cross section in the width direction of the heating panel 10, the T-shaped second fasteners 61 to be inserted and fixed to the side of the frame member 30 at each end, respectively. Is formed.

Meanwhile, the ondol heating panel assembly of the present invention may further include interlayer noise preventing means 100 under the heating panel 10, the end panels 20 and 20 ″ and the frame member 30. The noise preventing means 100 has a pair of fitting protrusions 112 formed in the longitudinal direction on the upper surface of the frame member 30 so as to be fixed to the bottom surface of the frame member 30, and a pair of fitting grooves 114 corresponding to the fitting protrusions 112. ) Are both ends of the long bar-shaped height adjusting member 110 formed in the longitudinal direction on the lower surface, and the fitting groove 114 of the two adjacent height adjusting members 110, respectively, of the two height adjusting members 110. It includes a second support piece 120 to maintain a constant interval, and the sound insulating panel 130 and the auxiliary insulating panel 140 mounted between two adjacent height adjusting members 110.

As described above, the panel assembly for ondol heating according to the present invention has the following effects.

First, the heating panel, the end panel, the heat dissipation panel, the frame member and the interlayer noise preventing means, which are the components of the present invention, are modularized and mass-produced. In addition, the present invention adjusts the length of the heating panel or the number of installation, and uses two types of end panels. This has the advantage that the construction of the ondol can be easily performed regardless of the shape and size of the room to be constructed.

Second, the ondol heating panel assembly of the present invention is modularized so that the heating panel, the end panel, the heat dissipation panel, the frame member and the interlayer noise preventing means can be easily assembled. This can greatly reduce the construction period and cost. In addition, even if not skilled workers can easily perform the construction and repair work.

Third, the heating panel, the end panel and the heat dissipation panel may be firmly fixed to the frame member to prevent the hot water pipe and the ondol panel from being deformed due to thermal expansion. This greatly improves the durability of the present invention and can maintain a long service life.

Fourth, the metal panel made of aluminum has a high thermal conductivity, thereby minimizing the heat energy loss of the hot water pipe, thereby greatly improving the heating efficiency of the present invention. In addition, aluminum has the effect of protecting the human body by blocking water veins or electromagnetic waves.

Fifth, the heat dissipation panel uses natural magnesium oxide to prevent the growth of bacteria, fungi and pests, and does not emit toxic gases when burned.

Sixth, it is possible to recycle the ondol panel and the frame member can significantly reduce the construction waste.

Seventh, the interlayer noise preventing means not only blocks and absorbs the interlayer noise, but also compensates for the height difference that may occur during the construction of the ondol, and has an additional effect of distributing the load of the panel assembly.

1 is an exploded perspective view showing the configuration of a panel assembly for underfloor heating according to a first embodiment of the present invention.

Figure 2 is a perspective view showing an example of the combined state of the panel assembly for underfloor heating according to the first embodiment of the present invention in which the heat dissipation panel and the holder are not mounted.

3 is a perspective view showing a heating panel according to a first embodiment of the present invention.

4 is a perspective view showing an end panel according to a first embodiment of the present invention;

5 is a perspective view showing a frame member according to a first embodiment of the present invention.

6 is a perspective view showing a heat dissipation panel according to a first embodiment of the present invention.

7 is a perspective view showing a holder according to a first embodiment of the present invention.

8 is a cross-sectional view showing a mounting state of the heat dissipation panel and the fixing stand.

9 is a perspective view showing a first support piece according to a first embodiment of the present invention.

10 is a perspective view illustrating a state in which the first support piece is attached to the frame member.

11 is a perspective view showing an end panel according to a second embodiment of the present invention.

12 is an exploded perspective view showing the construction of the interlayer noise preventing means according to the third embodiment of the present invention;

Fig. 13 is a sectional view showing an example of a state in which the interlayer noise preventing means is mounted;

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

1: Panel assembly for ondol heating

10: heat insulating member 11: first linear groove

12: reinforcing member 12a: reinforcing rod

12b: fixing protrusion 13: mounting hole

14: Seating groove 20, 20 ": End panel

21: curved groove 21a: semi-circular groove

21b: quarter groove 22: second straight groove

23: first fixture 24: frame member receiving groove

25 ": Plate 26": Cylindrical protrusion

30 frame member 31 first guide

32: second guide 34: support protrusion

35: lower groove 36a: locking jaw

40: heat dissipation panel 41: top plate

42: lower plate 43: protrusion fitting portion

44: step fitting portion 50: fixing table

51: fixing plate 52: hook portion

52a: elastic locking projection 60: the first support piece

61: second fixture 100: interlayer noise preventing means

110: height adjustment member 120: second support piece

112: mounting projection 130: sound insulation panel

130: auxiliary insulation panel 1000: hot water pipe

1100: curved portion

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to components of each drawing, the same reference numerals are used for the same components as much as possible even though they are shown in different drawings.

(First embodiment)

Hereinafter, a panel assembly for under heating according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 10.

1 is an exploded perspective view showing the configuration of a panel assembly for underfloor heating according to a first embodiment of the present invention. 2 is a perspective view showing an example of a combined state of the panel assembly for underfloor heating according to the first embodiment of the present invention in which the heat dissipation panel and the holder are not mounted. Ondol heating panel assembly 1 according to the first embodiment of the present invention is a heating panel 10, the end panel 20, the frame member 30, the heat dissipation panel 40, the fixing stand (shown in Figure 1) 50) and the first support piece 60. As described above, the panel assembly 1 for heating the ondol may have a wide heat dissipation surface by continuously installing another panel assembly 1 ′ on one side as shown in FIG. 2.

3 is a perspective view showing a heating panel according to a first embodiment of the present invention. Here, reference numeral 1000 denotes a hot water pipe, and 1100 denotes a curved portion of the hot water pipe. At this time, the hot water pipe 1000 used in the present invention is preferably a synthetic resin material that can be deformed so that the operator can form the curved portion 1100.

The heating panel 10 has a first linear groove 11 is formed to accommodate the hot water pipe (1000). The heating panel 10 has a structure in which the metal panel 10a and the heat insulation panel 10b are bonded to each other in a rectangular shape having a predetermined thickness. The heating panel 10 is formed long in the longitudinal direction may be used one. In addition, a plurality of heating panels 10 may be continuously arranged in the longitudinal direction. 1 illustrates a state in which two heating panels 10 are arranged in one column.

The metal panel 10a is made of a metal having good thermal conductivity such as copper, aluminum, tungsten, and iron, and serves to absorb thermal energy of the received hot water pipe 1000. At this time, according to the present embodiment, the metal panel 10a uses a relatively thin aluminum (pure about 99%) plate that is injection molded. Such an aluminum plate improves heating efficiency by minimizing heat energy loss of the hot water pipe 1000. In addition, the aluminum material has an effect of blocking water vein or electromagnetic waves to protect the human body.

As shown in FIG. 3, the metal panel 10a is positioned above the heating panel 10, and two first linear grooves 11 are formed in the longitudinal direction at a predetermined interval. The first straight groove 11 has a U-shaped cross section to accommodate a straight section of the hot water pipe 1000. At this time, it is also possible to increase the width of the metal panel 10a and to form three or more first linear grooves 11. On the other hand, the metal panel 10a has mounting holes 13 formed at equal intervals between the two first linear grooves 11.

The thermal insulation panel 10b is bonded to the lower portion of the metal panel 10a to insulate the thermal energy of the metal panel 10a so as not to move downward. The insulation panel 10b is made of foamed polystyrene or urethane foam, which has a light and excellent insulation effect and a long lifespan. On the other hand, at the bottom end of the width direction both ends, the seating grooves 14 which are respectively supported by the support protrusions 34 of the frame member 30 are formed in the longitudinal direction.

The heating panel 10 configured as described above is equipped with a reinforcing member 12 between two first linear grooves 11 as shown in FIG. The reinforcing member 12 is made up of a strip-shaped reinforcing table 12a and fixing protrusions 12b formed at equal intervals in the lower portion of the reinforcing table 12a. The reinforcing member 12 is mounted side by side with the first straight groove 11 by the fixing projection 12b is fitted into the mounting hole 13 of the metal panel 10a. The reinforcing member 12 is to enhance the overall rigidity of the heating panel 10.

4 is a perspective view showing an end panel according to a first embodiment of the present invention. The end panel 20 is located at one side of the heating panel 10 in the longitudinal direction, and accommodates the curved portion 1100 of the hot water pipe 1000. The end panel 20 has the same length in the width direction as the heating panel 10, and the length in the longitudinal direction is relatively short. The end panel 20 is formed with a curved groove 21 having a U-shaped cross section. In particular, the curved groove 21 is a semicircular groove 21a connected to two first linear grooves 11 and a quarter groove 21b connected to one first linear groove 11 and a semicircular groove 21a at the same time. Is done. At this time, the quarter groove 21b is connected to the quarter groove 21b 'of another adjacent end panel 20' as shown in FIG.

On the other hand, the end panel 20 has a second straight groove 22 is formed in the width direction on one side of the curved groove 21 is accommodated in the hot water pipe (1000). At least one second linear groove 22 is formed to allow the hot water supply side and the return side of the hot water pipe 1000 to be installed crosswise or to extend the hot water pipe 1000 to another area. The frame member accommodating grooves 24 for installing one end of the frame member 30 are formed at both ends of the end panel 20 in the width direction. In addition, the end panels 20 are formed with T-shaped first fasteners 23 that are inserted into and fixed to the second guides 32 of the frame member 30 to be described later, at both ends in the width direction. The end panel 20 described above is preferably made of a synthetic resin such as polyethylene having excellent tensile strength and heat resistance.

5 is a perspective view showing a frame member according to a first embodiment of the present invention. The frame member 30 has a long rod shape as a whole, and serves to support both ends of the heating panel 10 and the end panel 20 in the width direction. The frame member 30 is manufactured by injection molding ABS resin (acrylonitrile butadiene styrene copolymer) having excellent impact strength, tensile strength and heat resistance over a wide temperature range. As shown in FIG. 5, the frame member 30 includes a first guide 31, a second guide 32, a support protrusion 34, and a lower groove 35.

The first guide 31 is formed in the longitudinal direction on the upper portion of the frame member 30 in order to mount the hook portion 52 of the holder 50 to be described later in a snap-fit manner.

The second guides 32 are respectively provided on both side surfaces of the frame member 30 so that the first fastener 23 of the end panel 20 and the second fastener 61 of the first support piece 60 to be described later are inserted and fixed. It is formed in the longitudinal direction. The second guide 32 has a T-shaped cross section so that the T-shaped first and second fasteners 23 and 61 are fitted.

The support protrusions 34 protrude from the lower sides of both sides in order to support one end of the heating panel 10 in contact with the seating groove 14 of the heating panel 10.

The lower groove 35 is formed in the longitudinal direction of the lower portion of the frame member 30 so that the interlayer noise preventing means 100 of the third embodiment to be described later is mounted.

On the other hand, reference numeral 37 is a hollow portion. One end of the connecting pin (not shown) having a predetermined shape is inserted and fixed, and the other end of the connecting pin (not shown) is inserted into the hollow portion 37 of the other frame member 30 to extend the length of the frame member 30. You can make this possible.

6 is a perspective view illustrating a heat dissipation panel according to a first exemplary embodiment of the present invention. The heat dissipation panel 40 is continuously seated on the upper surfaces of the heating panel 10 and the end panel 20 to cover the heating panel 10 and the end panel 20. In addition, the heat dissipation panel 40 serves to radiate heat energy of the heating panel 10 and to radiate it upwards. The heat dissipation panel 40 of the present invention has a form in which the upper plate 41 and the lower plate 42 are joined. In particular, both ends of the lower plate 42 protrude from the both ends of the upper plate 41 in the width direction to step. Then, in the longitudinal direction, the upper plate 41 and the lower plate 42 having the same length are staggered from each other. That is, the heat dissipation panel 40 is formed with a protrusion fitting portion 43 protruding one side edge of the upper plate 41, and a step fitting portion 44 with the remaining three edges stepped. On the other hand, according to this embodiment, the upper plate 41 and the lower plate 42 include natural magnesium oxide (MgO). Magnesium oxide (MgO) can prevent the growth of bacteria, fungi and pests. In addition, magnesium oxide provides flame retardancy that does not generate harmful gases and toxic gases in case of fire.

Meanwhile, the heat dissipation panel 40 may be made of various materials such as plastic, steel sheet, or inorganic board. Particularly, in the case where the material is thermally deformed only by one surface, the upper plate 41 and the lower plate 42 are adhered to each other so that the uncoated back surface abuts to minimize the thermal deformation of the heat dissipation panel 40. It is preferable.

As described above, the heat dissipation panel 40 has a double structure of the upper plate 41 and the lower plate 42 to strengthen the bending strength and the tensile force. As a result, it is possible to prevent breakage or cracking due to the impact applied to the upper surface.

7 is a perspective view showing a fixing base according to a first embodiment of the present invention. The fixing stand 50 has a rod shape in which the fixing plate 51 and the hook portion 52 are integrally formed. Then, the fixing stand 50 is manufactured by injection molding a synthetic resin. The fixing plate 51 has a band piece shape, and the hook portion 52 is formed on one surface of the fixing plate 51 over the entire length. At this time, the hook portion 52 is provided with an elastic locking protrusion 52a at the end and has an arrow-shaped cross section as shown in FIG.

8 is a cross-sectional view showing a mounting state of the heat dissipation panel and the fixing stand. As shown in FIG. 8, as shown in FIG. 8, the hook portion 52 of the frame member 30 is disposed in a state where the step fitting portions 44 of the two heat dissipation panels 40 and 40 ′ are placed on both sides of the frame member 30, respectively. It is mounted to the first guide 31 of 30 in a snap fit manner. At this time, the fixing plate 51 is fixed while simultaneously pressing the upper surfaces of two neighboring heat dissipation panel 40 while the heat dissipation panels 40 and 40 'form the same plane.

9 is a perspective view showing a first support piece according to a first embodiment of the present invention. Both ends of the first support piece 60 are mounted on one side of two adjacent frame members 30, respectively, and serve to maintain a constant distance between the two frame members 30. The first support piece 60 has the same shape as the cross section in the width direction of the heating panel 10. That is, the first support piece 60 includes a groove 62 connected to the first straight groove 11 of the heating panel 10. On the other hand, both ends of the first support piece 60 is formed with a T-shaped second fixing member 61 is inserted into the second guide 32 of the frame member 30, respectively.

10 is a perspective view illustrating a state in which the first support piece is attached to the frame member. The first support piece 60 is fixed by inserting the second fasteners 61 at both ends into the second guides 32 and 32 'of the two frame members 30 and 30' placed side by side. On the other hand, the first support piece 60 is preferably installed between the heating panel 10, and between the heating panel 10 and the end panel 20 as shown in FIG.

Hereinafter, with reference to the accompanying drawings will be described the installation method and operation of the panel assembly 1 for ondol heating according to the first embodiment of the present invention having the above-described configuration.

First, a plurality of frame members 30 are prepared, and two frame members 30 adjacent to each other by using the plurality of first support pieces 60 are heated panels 10 and end panels (as shown in FIG. 1). Fix it to maintain a certain interval as long as the width direction of 20). Then, the T-shaped first fastener 23 of the end panel 20 is inserted into the first guide 32 of the frame member 30 so that the plurality of end panels 20 are each end of the pair of frame members 30. Fix it to the part.

Next, the pair of frame members 30 are heated to the heating panel 10 so that the seating grooves 14 formed at both ends in the width direction of the heating panel 10 can be supported by the support protrusions 34 of the frame member 30. )). Then, the length of the frame member 30 is properly extended using a connecting pin (not shown). Then, the end panel 20 is fixed to the other end of the pair of frame members 30. This completes the panel assembly as shown in FIG.

Next, the hot water pipe 1000 is installed in the panel assembly shown in FIG. 2. At this time, a straight section of the hot water pipe 1000 is installed in the first straight groove 11 of the heating panel 10. The curved portion 1100 of the hot water pipe 1000 is installed in the curved grooves 21a and 21b of the end panel 20. In addition, the hot water supply side and the water return side of the hot water pipe 1000 are alternately installed in the second straight groove 22 of the end panel 20. As such, the present invention can continuously install one hot water pipe 1000 without cutting and connecting the hot water pipe 1000. This maintains the airtightness of the hot water pipe 1000, it is possible to prevent damage to the panel assembly (1) by the leakage of hot water.

Next, the heat dissipation panel 40 is continuously seated on the heating panel 10 and the upper end of the end panel 20, and the holder 50 is snap-fitted to the first guide 31 of the frame member 30. By inserting and installing two heat dissipation panels 40 adjacent to each other in the width direction are fixed. 8, the mounting state of the heating panel 10, the end panel 20, the frame member 30, the heat dissipation panel 40, the fixing table 50, and the first support piece 60 is illustrated. That is, the pair of frame members 30 are disposed at regular intervals by the first support piece 60 and are stacked in a tightly fixed state. The heating panel 10, the end panel 20, and the heat dissipation panel 40 are firmly fixed by the fixing stand 50. Accordingly, the ondol heating panel assembly 1 of the present invention is prevented from deformation due to thermal expansion by the hot water pipe 100, thereby greatly improving durability. And long life can be maintained.

(2nd Example)

11 is a perspective view showing an end panel according to a second embodiment of the present invention. Here, detailed description is abbreviate | omitted about the structure similar to the structure mentioned above.

Unlike the first embodiment, the end panel 20 ″ of the present exemplary embodiment may be formed of a plate body 25 ″ and a cylindrical protrusion 26 ″ formed in a lattice shape on an upper surface of the plate body 25 ″. That is, the hot water pipe 1000 can be freely installed in a straight or curved form between the cylindrical projections 26 "formed in a lattice form as shown in Fig. 11. At this time, the end panel 20" has excellent tensile strength and heat resistance. It is preferable to be made of synthetic resin such as polyethylene. The end panel 20 "of the present embodiment may be used in places where it is difficult to secure sufficient space due to the structure of a building, such as a bathroom entrance, a porch, or a place where a bottleneck of the hot water pipe 1000 is severe, such as in front of a hot water pipe distributor of a boiler. That is, the construction of the ondol can be easily performed regardless of the shape and size of the room to be constructed by using the end panel 20 ″ of the present embodiment.

On the other hand, the end panel 20 "is formed with T-shaped first fasteners 23 which are inserted into and fixed to the second guide 32 of the frame member 30 at both end portions in the width direction. "), As described in the first embodiment, the heat dissipation panel 40 is placed on the upper surface.

(Third Embodiment)

12 is an exploded perspective view showing the configuration of the interlayer noise preventing means according to the third embodiment of the present invention, and FIG. 13 is a sectional view showing an example of a state in which the interlayer noise preventing means is mounted. Here, detailed description is abbreviate | omitted about the structure similar to the structure mentioned above.

The above-described ondol heating panel assembly 1 of the present invention may further include interlayer noise preventing means 100 under the heating panel 10, the end panels 20, 20 ″ and the frame member 30. The interlayer noise preventing means 100 compensates for the height difference that may be generated during the construction of the ondol, distributes the load of the panel assembly 1, and absorbs the interlayer noise. 12 and 13, the height adjusting member 110, the second support piece 120, the sound insulation panel 130, and the auxiliary insulation panel 140 are configured.

The height adjusting member 110 has a long rod shape like the frame member 30. The height adjusting member 110 has a pair of fitting protrusions 112 formed on the upper surface thereof in the longitudinal direction so that the height adjusting member 110 can be fixed to the lower groove 35 formed in the longitudinal direction at the lower portion of the frame member 30. In addition, a pair of fitting grooves 114 corresponding to the fitting protrusions 112 are formed in the longitudinal direction on the lower surface thereof. That is, the height adjusting member 110 is inserted into the fitting groove 112 of the other height adjusting member 110 in the fitting groove 114 of the height adjusting member 110, the height of the interlayer noise preventing means 100. Allows adjustment.

The second support piece 120 serves to maintain a constant distance between the two adjacent height adjustment member 110. As shown in FIGS. 12 and 13, the second support piece 120 has mounting protrusions 112 formed at both ends thereof, and the mounting protrusion 112 has fitting grooves 114 of the two height adjusting members 110. It has a structure that is mounted on each.

Meanwhile, the sound insulation panel 130 and the auxiliary insulation panel 140 are mounted between two adjacent height adjusting members 110 as shown in FIGS. 12 and 13.

The sound insulation panel 130 is formed of a steel plate, a plastic plate, or an inorganic board to block interlayer noise, and serves to support the heating panel 10 and the end panel 20 in contact with each other.

The auxiliary insulation panel 140 is made of foamed polystyrene, foamed urethane, etc., and serves to absorb interlayer noise. The auxiliary insulation panel 140 is installed below the sound insulation panel 130.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be readily apparent to those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention. It is obvious that all modifications fall within the scope of the appended claims.

Claims (16)

1. A heating panel 10 having at least two first linear grooves 11 formed on an upper surface thereof in a longitudinal direction to accommodate the hot water pipe 1000;

   End panels (20, 20 ") located on one side in the longitudinal direction of the heating panel 10, and accommodates the curved portion 1100 of the hot water pipe (1000);

   A frame member 30 having a long rod shape and supporting both ends of the heating panel 10 and the end panels 20 and 20 ″ in the width direction thereof;

   A heat dissipation panel 40 seated on upper surfaces of the heating panel 10 and the end panels 20 and 20 ″;

   A mount 50 mounted on an upper surface of the frame member 30 and simultaneously pressing upper surfaces of two adjacent heat dissipation panels 40; And

   Both ends are mounted on one side of the two adjacent adjacent frame member 30, respectively, the first support piece 60 for maintaining a constant distance between the two frame members 30; Ondol comprising a Panel assembly for heating.
2. The method of claim 1,

   The heating panel 10

   A metal panel 10a having the first linear groove 11 formed therein;

   Ondol heating panel assembly, characterized in that made of a heat insulating panel (10b) bonded to the lower surface of the metal panel (10a).
3. The method of claim 2,

   The metal panel 10a is made of aluminum, and

   The insulation panel (10b) is a heating panel assembly for ondol, characterized in that made of expanded polystyrene or urethane.
4. The method of claim 2,

   A reinforcing rod 12a installed in the longitudinal direction between the first straight grooves 11;

   The reinforcing member 12 is formed in the lower portion of the reinforcing rod 12a at equal intervals and is further provided with a reinforcing member 12 made of a fixing protrusion 12b inserted into and fixed to the mounting hole 13 formed in the metal panel 10a. Panel assembly for underfloor heating.
5. The method of claim 2,

   Ondol heating panel assembly, characterized in that the seating grooves 14 which are supported by the frame member 30 are formed at both ends in the width direction of the insulating panel (10b).
6. The method of claim 1,

   The end panel 20 is

   A semicircular groove 21a connected to the first two linear grooves 11,

   On-floor heating panel assembly, characterized in that the curved groove (21) is formed of one of the first linear groove (11) and the quarter groove (21b) connected to the semi-circular groove (21a).
7. The method of claim 6,

   The end panel 20 is an on-dol heating panel assembly, characterized in that at least one second straight groove (22) formed in the width direction on one side of the curved groove (21).
8. The method of claim 1,

   The T-shaped first fixing member (23) is formed on both sides in the width direction of the end panels (20, 20 ") so as to be fixed to the side of the frame member (30).
9. The method of claim 1,

   The end panel (20 ") is a panel assembly for ondol heating, characterized in that it comprises a plate body (25") and a cylindrical projection (26 ") formed in a lattice shape on the upper surface of the plate body (25").
10. The method of claim 1,

    The frame member 30 is

    The first guide 31 formed in the longitudinal direction on the top for mounting the holder 50,

    Second guides 32 formed in both longitudinal sides of the end panels 20 and 20 " and one end of the first support piece 60, respectively;

    Ondol heating panel assembly, characterized in that it comprises a support protrusions 34 formed on both sides of the lower side in order to support the width direction both ends of the heating panel (10).
11. The method of claim 1,

    The heat dissipation panel 40 is composed of an upper plate 41 and a lower plate 42,

    Both end portions of the lower plate (42) protrude in the width direction and are stepped, and the upper plate (41) and the lower plate (42) having the same length in the longitudinal direction are joined to each other step by step.
12. The method of claim 11,

    The upper plate (41) and the lower plate (42) is ondol heating panel assembly, characterized in that containing magnesium oxide.
13. The method of claim 1,

    The fixture 50 is

    A fixing plate 51 in contact with an upper surface of the heat dissipation panel 40,

    One side of the fixing plate 51 is formed over the entire length and provided with a hook portion 52 having an arrow-shaped cross section having an elastic locking protrusion 52a at the end thereof.

    Ondol heating panel assembly, characterized in that mounted on the upper surface of the frame member in a snap-fit method.
14. The method of claim 1,

    The first support piece 60 is made of the same shape as the cross section in the width direction of the heating panel 10,

    On both sides of the panel assembly for ondol heating, characterized in that the T-shaped second fixture (61) is further formed to be inserted into the side of the frame member (30), respectively.
15. The method of claim 1,

    On heating panel assembly, characterized in that the heating panel 10, the end panel (20, 20 ") and the lower interlayer noise preventing means (100) is further provided below the frame member (30).
16. The method of claim 15,

    The interlayer noise preventing means 100

    A pair of fitting protrusions 112 are formed in the longitudinal direction on the upper surface of the frame member 30 so as to be fixed to the bottom surface of the frame member 30, and a pair of fitting grooves 114 corresponding to the fitting protrusions 112 are formed on the lower surface of the frame member 30. And the height adjustment member 110 of the long rod-shaped formed in the direction,

    Both ends are respectively mounted to the fitting grooves 114 of the two adjacent height adjusting member 110, the second support piece 120 to maintain a constant distance between the two height adjusting member 110,

    Ondol heating panel assembly, characterized in that it comprises a sound insulating panel 130 and the auxiliary insulating panel 140 mounted between the two adjacent height adjustment member (110).

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