KR20030009822A - Heating panel system - Google Patents

Abstract

PURPOSE: A hypocaust panel system is provided to promote the thermal efficiency of a heating system, and to improve soundproof and vibroisolating effects by reinforcing adiabatic function. CONSTITUTION: A floating floor structure has a regular inner space in one surface opposite to a slab, and is installed over the slab. A soundproof and vibroisolating layer is installed between the floating floor structure and the slab. An adiabatic layer is formed over the floating floor structure. A plurality of hypocaust panel(8) are installed over the adiabatic layer, and are composed of an inner cavity(4) and a couple of upper/lower plates(12,14). Thus, the hypocaust panels are integrally coupled, and supplies the continuous flow of heating fluid.

Description

Ondol Panel System {HEATING PANEL SYSTEM}

The present invention relates to an ondol panel system, and more particularly, to an ondol panel system having improved sound insulation and insulation by installing a plate-type ondol panel on a floating floor structure.

In general, a heating system of a residential building embeds a pipe on a concrete floor and supplies a heating fluid such as hot water to the pipe to heat the floor. The cross section of the system is shown.

As shown in the drawing, the wet ondol heating system 1 according to the related art includes a heat insulation layer 5 formed on the slab 3, a bubble concrete layer 7 provided on the heat insulation layer 5, and a bubble concrete layer 7. It consists of a pipe (9) installed in a predetermined form thereon, and a mortar layer (11) formed on the foamed concrete layer (7) so that the pipe (9) is sufficiently covered, the finishing material 13 on the mortar layer (11) By installing the complete floor structure of the building.

Here, the illustrated wet ondol heating system 1 absorbs the noise or vibration that the air layer provided inside the bubble concrete layer 7 is transferred to the slab 3, and the heat of the pipe 9 is slab when hot water is supplied. The heat loss of the pipe 9 is reduced by suppressing propagation in the (3) direction, and furthermore, the heat loss of the pipe 9 is suppressed by the heat insulation layer 5 provided under the bubble concrete layer 7. .

Therefore, in the above structure, it is preferable to sufficiently secure the height of the foamed concrete layer 7, so in most cases, the height of the insulating layer 5 is 20 mm, the height of the foamed concrete layer 7 is 70 mm, and the height of the mortar layer 11 is 30 to 40 mm, the height from above the slab 3 to the final finish 13 is approximately 120 to 130 mm.

However, the above-described wet ondol heating system has the following disadvantages in structure.

First, the thermal efficiency of the heating system is low due to the poor thermal insulation effect of the bubble concrete layer (7) and the heat insulating layer (5). In the heating system structure shown as an example, in order to heat the surface temperature of the building floor to about 30 ° C., hot water of approximately 70 to 80 ° C. needs to be supplied by the hot water supply device, the heat loss is large, and it is disadvantageous for energy saving.

Second, the foam concrete layer (7) alone can not effectively block the noise and vibration, so the sound insulation is weak, in particular, the sound insulation level required for residential buildings such as apartments can not be satisfied.

Third, since the bubble concrete layer 7 and the mortar layer 11 are formed on the entire floor, the construction period is increased by the time required for cement curing, and when an abnormality such as leakage occurs in the pipe 9, the pipe 9 In order to repair the mortar layer 11 must be destroyed, so that not only the repair of the heating system becomes difficult, but also the cost of repair is high.

As such, the present applicant filed Patent Application No. 2001-33918, “Prefabricated Heating System Using Ondol Panel,” dated June 15, 2001, for the purpose of replacing pipe type heating system. By using to provide an ondol panel system having a more improved floor structure.

Therefore, the present invention is to solve the above problems, an object of the present invention to improve the thermal efficiency of the heating system by reinforcing the thermal insulation function, to provide an ondol panel system with improved soundproofing and dustproof effect.

It is another object of the present invention to provide an ondol panel system which is easy to construct and repair a heating system by constructing a so-called dry heating system without a cement layer such as a bubble concrete layer or a mortar layer in a wet ondol heating system.

1 is a plan view of an ondol panel system according to the present invention.

2 is a cross-sectional view of the ondol panel shown in FIG.

3 is a cross-sectional view of the ondol panel system according to the first embodiment of the present invention.

4 is a cross-sectional view of an ondol panel system according to a second embodiment of the present invention.

FIG. 5 is a partially enlarged view of FIG. 4 for explaining a coupling state of the support member and the plate member. FIG.

FIG. 6 is a bottom view of the support member and the plate member shown in FIG. 4. FIG.

7 is a cross-sectional view of the ondol panel system according to the third embodiment of the present invention.

8 is a sectional view of a wet ondol heating system according to the prior art.

In order to achieve the above object, the present invention,

Floating floor structure provided at a constant height on the slab while having a regular internal space on one side facing the slab, soundproof / dustproof layer provided between the slab and the floating floor structure, and an insulating layer formed on the floating floor structure And a pair of upper and lower plates provided on the heat insulating layer and having two fluid connection portions for supplying and discharging the heating cavity and the internal cavity through which the heating fluid flows, and integrally by a plurality of connecting members. An ondol panel system is provided that includes a plurality of ondol panels coupled to provide a continuous flow of heating fluid.

Preferably, the ondol panel is provided with a metal plate having a high thermal conductivity to increase the thermal conductivity of the ondol panel.

Preferably, the floating bottom structure is composed of a plurality of support members disposed at predetermined intervals on the slab and having a predetermined height, and plate members installed on the support members, optionally the support members are plate members and screws. It can be combined to make it possible to adjust the height of the plate member relative to the slab.

Optionally, the floating bottom structure may be made of a styrofoam plate having a regular internal space on one surface facing the slab.

As described above, the present invention improves sound insulation and insulation by the floating floor structure having an internal space, and increases the thermal conductivity of the ondol panel by providing a metal plate. Since utility equipment can be installed, maintenance of other utility equipment including a heating system is easy.

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

1 is a plan view of the ondol panel system according to the present invention, Figure 2 is a cross-sectional view of the ondol panel shown in FIG.

As shown, the ondol panel system 2 includes a plurality of ondol panels 8 having an internal cavity 4 through which the heating fluid flows, as well as two fluid connections 6 for supplying and discharging the heating fluid. A plurality of connecting members 10 which connect the ondol panels 8 integrally to provide a fluid path between the ondol panels 8 is a basic configuration.

The ondol panel 8 may be made of thermoplastic, and is shaped like a plate so that the heating fluid contacts the bottom surface with a larger area. More specifically, the ondol panel 8 faces to have an internal cavity 4. The pair of upper and lower plates 12 and 14 has a structure in which edges of the upper and lower plates 12 and 14 are integrally joined except for two diagonal portions where the fluid connection part 6 is provided.

In each of the upper and lower plates 12 and 14, a plurality of space members 16 extend toward the other plate to connect the upper and lower plates 12 and 14 in the cavity 4. The member 16 serves to smoothly control the flow of the heating fluid so that the heating fluid does not concentrate or stagnate in a particular portion of the ondol panel 8.

Since a more specific structure of the ondol panel 8 is disclosed in the aforementioned patent application No. 2001-33918, detailed description thereof will be omitted here.

3 is a cross-sectional view of an ondol panel system according to a first embodiment of the present invention, in which the insulating layer (EPS; Expanded PolyStylene) is formed on the lower part of the ondol panel 8 in the ondol panel system 2 shown in FIG. 18 is formed to minimize the heat loss of the ondol panel 8, the metal plate 20 and the finishing material 22 is installed on the top of the ondol panel (8).

The metal plate 20 is made of an iron plate having a high thermal conductivity, preferably a steel plate plated with aluminum, and increases the heat conduction function of the ondol panel 8 by the excellent thermal conductivity property to increase heating efficiency. In addition, the metal plate 20 supplements the strength of the ondol panel 8 to more firmly support the load applied to the floor, and uniformly covers the surface of the ondol panel 8 uneven by the space member 16. By doing so, the construction of the finish 22 is made easier.

As such, the ondol panel 8 structure provided between the heat insulation layer 18 and the metal plate 20 has the result of the applicant's experiment, even though hot water supply of approximately 40-50 ° C. is supplied from a hot water supply device (not shown). When the surface temperature was heated to about 30 ° C., the thermal efficiency was improved as compared with the pipe heating system described above.

On the other hand, the height of the addition of the ondol panel 8 and the heat insulating layer 18 is substantially 40 mm around, compared to the pipe heating system described above, which is formed to be approximately 120 ?? 130 mm high, with a clearance of 80 ?? 90 mm high. Space is provided.

Thus, the ondol panel system 2 according to the present invention provides a so-called floating floor structure having a regular internal space in the above-described free space, wherein the floating floor structure 24 provided in the present embodiment is a slab 26. ) And a plurality of support members 28 disposed at predetermined intervals on the support member 28 and a plate member 30 installed in parallel with the ondol panel 8 on the support member 28.

In the present embodiment, the support member 28 and the plate member 30 are made of wood, and the soundproof / dustproof layer 32 provided as a rubber packing is formed between the support member 28 and the slab 26, for example. To firmly secure the support member 28 to the slab 26 and to improve the sound insulation and dustproofing function of the floor.

As shown here, the ondol panel system 2 shows that the inner space A is generated above the floating floor structure 24 as the floating floor structure 24 provides an inner space A between the plurality of support members 28. Absorbs noise and vibration, etc., and reduces the amount delivered to the slab 26, and the soundproof / dustproof layer 32 provided between the support member 28 and the slab 26 is connected to the slab through the support member 28. 26) effectively block the noise and vibration transmitted to.

Therefore, the present embodiment not only improves the soundproofing and dustproofing function of the building floor by the floating floor structure 24, but also installs utility facilities such as electric wires or other wastewater pipes installed between the walls during the construction of the building on the floating floor structure 24. It can be installed in the provided interior space (A), thereby having the advantage of easy maintenance of other glass tillage equipment, including heating systems without destroying the concrete layer.

4 is a cross-sectional view of the ondol panel system according to the second embodiment of the present invention, and FIG. 5 is a partially enlarged view of FIG. 4 for explaining a coupling state between the support member and the plate member.

In the present embodiment, the floating floor structure 34 includes a plate member 36 made of a polymer resin panel such as a sheet molding compound (SMC) in addition to wood, and the plurality of support members 38 are plate members 36. And screwed) to allow height adjustment of the plate member 36 relative to the slab 26.

That is, the support member 38 is threaded around its outer circumference, and the plate member 36 engaged with the support member 38 is provided with a groove 36a into which the support member 38 can be fitted. A thread is formed in the inner circumference of the 36a to engage with the thread of the support member 38.

FIG. 6 is a bottom view of the support member 38 and the plate member 36 shown in FIG. 4, and at the lower end of the support member 38, a screw head groove 38a enabling rotation of the support member 38 is provided. It can be formed to facilitate the adjustment of the spacing of the plate member 36 relative to the slab 26 to the desired height by rotating the support member 38 during the floor construction.

7 is a cross-sectional view of the ondol panel system according to the third embodiment of the present invention, in which the floating bottom structure has a styrofoam plate 40 having a regular internal space A on one surface facing the slab 26. The styrofoam plate 40 has the advantage of more effectively reducing the heat loss of the ondol panel 8 compared with the structure of the previous embodiment by reinforcing the thermal insulation function of the thermal insulation layer 18.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the range of.

As such, the present invention provides an ondol panel system including a plate-type ondol panel and a floating bottom structure to improve thermal efficiency, effectively improve the soundproofing and dustproofing function of the floor, and wire or waste water into the inner space provided in the floating floor structure. Since utility facilities, such as pipe | tube, can be installed, the construction and repair of other utility facilities including a heating system can be made easier.

Claims (8)

A floating floor structure provided at a constant height on the slab while having a regular internal space on one surface facing the slab; A soundproof / dustproof layer provided between the slab and the floating floor structure; An insulation layer formed on the floating floor structure; And It is installed on the heat insulating layer, and consists of a pair of upper and lower plates having an inner cavity through which heating fluid flows and two fluid connection parts for supplying and discharging heating fluid, and integrally coupled by a plurality of connecting members. An ondol panel system comprising a plurality of ondol panels that provide a continuous flow of heating fluid. The method of claim 1, And a metal plate provided on the ondol panel and having a high thermal conductivity. The method of claim 2, The metal plate is an ondol panel system consisting of a steel plate plated with aluminum. The method of claim 1, The floating floor structure is ondol panel system comprising a plurality of support members having a predetermined height and disposed on the slab at a predetermined interval, and a plate member installed on the support member. The method of claim 4, wherein An ondol panel system in which the plate member and the support member are made of wood. The method of claim 4, wherein An ondol panel system, wherein the plate member is made of a high injection resin panel comprising a sheet molding compound (SMC). The method of claim 4, wherein And the support member is screwed to the plate member to enable height adjustment of the plate member relative to the slab. The method of claim 1, The floating floor structure is an ondol panel system consisting of a styrofoam plate having a regular internal space on one surface facing the slab.