KR200364624Y1 - Structure of heat panel - Google Patents

Abstract

The present invention relates to a heat panel structure, in particular, by making the heat panel structurally sound insulation and sound insulation performance heat panel for simply blocking the interlayer vibration and noise during the construction of the heat panel without the separate sound insulation material for the sound insulation and sound insulation between layers It's about structure.

Heat panel structure according to the present invention, the moisture-proof paper is laminated on the upper side of the bottom surface made of concrete and wood, the heat-insulating material is formed on the upper side of the damp-proof paper is formed with a pipe groove into which the hot water pipe is inserted, and the aluminum tape is seated on the heat insulating material In the heat panel structure consisting of a hot water pipe which is wound to improve the thermal conductivity, a heat sink for dissipating heat in the upper layer of the hot water pipe, and a finishing material seated on the heat sink to treat the surface, the moisture-proof paper of the heat panel is sandwiched therebetween. , The sound insulating material for blocking the inter-layer noise transmitted from the upper layer of the bottom surface is characterized in that the attachment to the insulating material.

Description

Heat panel structure

The present invention relates to a heat panel structure, in particular, by making the heat panel structurally sound insulation and sound insulation performance heat panel for simply blocking the interlayer vibration and noise during the construction of the heat panel without the separate sound insulation material for the sound insulation and sound insulation between layers It's about structure.

Common heat panels allow heat transfer to occur by circulating hot water pipes, usually with a circulating pump, of hot water heated from a boiler device. 1 shows the configuration of the heat panel 7, wherein the heat panel 7 has a planar upper and lower side surfaces of the hot water pipe 2 bonded and fixed by aluminum tape 3 to be in contact with the bottom surface of the heat sink 1. It is formed into an ellipsoidal body made of flat top surface by contacting the heat sink to maximize the hot water pipe contact surface to improve the thermal conductivity of the hot water pipe, and the entire top surface of the ellipsoid body on the bottom surface of the heat sink (1) The space between the heat sink formed by attaching the aluminum tape to the heat sink and the semi-circular left and right end surfaces of the ellipsoidal hot water pipe are attached to the heat sink by attaching the flat lower side and the semi-circular right and left side surfaces as the aluminum tapes to be in contact with each other. The air volume in the interspace becomes smaller so that a small amount of air in the interspace becomes thermal expansion even if the hot water pipe is heated. It is possible to prevent the upper part from swelling, and also to adhere the aluminum tape in the state that the upper side of the flat surface of the oval body hot water pipe is in stable contact with the bottom of the heat sink even when the hot water pipe is bonded to the bottom of the heat sink. It is a structure to make the bonding work more convenient and improve the work efficiency. Reference numeral 4 is a urethane foam layer, 5 is a moisture-proof paper, and 6 is a fixed plate.

FIG. 2 shows an ondol heat panel 10 having improved thermal conductivity. A kraft moisture-proof paper 12 is laid on a bottom surface 11 of cement, wood, etc., and urethane foam 13 is laminated on an upper layer thereof. The hot water pipe 14 made of copper pipe wrapped with aluminum tape is disposed, and the steel plate 15 is installed on the upper part, and finally the surface is finished with the finishing material 16.

As described above, the conventional heat panel 10 for hot water and heating has a design considering heat conductivity of the hot water pipe 14 and a design for reducing moisture, vibration, sound insulation, noise, etc. Insufficient to block vibration and noise. Accordingly, before the heat panel construction, the floor surface is laid with a separate interlayer sound insulation material.

In general, vibration and noise are generated at the bottom of the floor due to impact. In order to shield and suppress vibration or noise transmitted from the top to the bottom, a multi-layered structure is installed with a vibration preventing facility for preventing interlayer vibration. Vibration generated at the bottom that separates the upper and lower layers is transmitted as tremor or sound. Vibration is a phenomenon caused by the wavelength band generated when an object is impacted, and it appears as tremor or sound. In all buildings, in order to solve such vibration and noise, low-density materials or low-density materials or facility materials with a gentle vibration or sound transmission wavelength band are used. It is applied to the floor or glued to reduce vibration. Vibration and noise recommended for residential buildings, such as apartments are less than about 58db in weight impact, less than about 50db in light impact.

In order to prevent and reduce vibration and noise, facility materials using various interlayer vibration damping materials and structural materials are known. In general, low-density and soft soft vibration-proofing materials are laid on concrete slabs to transmit vibration or sound waves. It is intended to disturb and disperse.

However, the low density and soft flexible facility material is compressed or settled down, and when the hot water pipe 14 is installed on the bottom surface, since the heat of the hot water pipe 14 is not directly transmitted, it is doubled as a lightweight foam cement. The construction is performed as a floor slab, and by using the hot water pipe 14 and the finishing material on the top, to form a multi-layer structure, the air is delayed and the workability is relatively poor.

3 and 4 are construction cross-sectional view for explaining the conventional construction floor construction structure to the construction of the hot water pipe 20 construction as a basic specification and applied vibration and soundproof shielding and reduction structure. The main part of the conventional building floor construction structure according to the construction cross section is mounted on the floor foundation concrete slab 21 and the upper surface of the floor foundation concrete slab 21 which form the floor foundation of the structure, A soft interlayer vibration reducing material 22 for absorbing and mitigating vibrations and noises, a lightweight foamed concrete layer 23 placed on an upper portion of the flexible interlayer vibration reducing material 22, and the lightweight foamed concrete layer 23. Hot water pipe 20 is installed on the top of the), and the hot water pipe 20 is arranged on the upper surface of the lightweight foam concrete layer 23 and hot water pipe 20 to maintain a uniform flatness of the bottom surface It consists of a finishing mortar layer 24, which is poured on the peripheral surface of the, and a finishing floor material 25 which becomes the surface of the bottom surface and covers the surface of the finishing mortar layer 13.

Here, the flexible vibration reducing material 22 provided between the floor-based concrete slab 21 and the lightweight foamed large concrete layer 23 is the bottom-based floor-based concrete slab 21 through the lightweight foamed concrete layer 23. Various vibrations and noises transmitted to the floor, that is, the fluid flow vibrations and noises of the hot water pipe 20 and the vibrations and noises due to the shocks transmitted to the surface of the finishing mortar layer 24 are the floor-based concrete slabs 21. By absorbing and mitigating the phenomenon transmitted to its own soft material properties, such a soft vibration reducing material 22 is interlayer sound insulation and vibration between the lightweight foamed concrete layer 23 and the floor-based concrete slab 21 It will act to prevent.

The vibration reducing material 22, which is a facility material that is constructed between the lightweight foamed concrete layer 23 and the floor-based concrete slab 21, was manufactured using various structural materials to prevent sinking, thermal deformation, and other distortions. .

For example, even in the uneven construction site of the floor-based concrete slab 10, a flexible material that is less affected by the floor structure with its own flexibility was selected, and functionally, sound insulation, sound absorption, workability, waterproofness, elasticity, It is manufactured to show excellent performance in uniformity and adhesion.

However, in contrast to the application of the soft vibration damping material for the vibration and noise shielding of the floor structure, the technology is focused only on the design that considers the thermal conductivity improvement. Has not been applied, and thus the united heat panels have significantly lower vibration and sound insulation performance than other similar building floor structures.

Therefore, an object of the present invention, in the construction of a plate-shaped heat panel into which hot water pipes are put, the sound insulation material for blocking the noise between floors generated from the floor surface can be applied to the heat panel to reduce the noise and vibration between the floors It is to provide a heat panel.

Another object of the present invention is to prevent interlayer noise and vibration through a plate-shaped heat panel into which hot water pipes are united to control the interlayer noise and vibration only by constructing the heat panel without a separate sound insulation material.

Heat panel for heating according to the present invention for achieving this object,

The moisture-proof paper is laminated on the upper side of the floor surface made of concrete and wood, and the heat-insulating material is formed on the upper side of the moisture-proof paper, and the hot water pipe is formed in the pipe groove into which the hot water pipe is inserted, and the aluminum tape is wound on the heat insulating material to improve the thermal conductivity. In the heat panel structure consisting of a heat sink for dissipating heat in the upper layer of the hot water pipe, and a finishing material seated on the heat sink to treat the surface,

The sound insulation material which blocks the interlayer noise transmitted from the upper layer part of the bottom surface between the moisture-proof paper of the said heat panel was comprised by attaching to the said heat insulating material, It is characterized by the above-mentioned.

1 is a configuration diagram of a conventional heat panel for explaining a heat panel structure

2 is an exploded view showing another example of a conventional heat panel configuration

3 is a reference diagram for explaining an example of a conventional building floor surface treatment.

4 is a reference diagram for explaining an example of a conventional building floor construction

Figure 5 is an exploded perspective view for explaining the overall structure of the heat panel according to an embodiment of the present invention

6 is a reference diagram for explaining a sound insulation material processing position of a heat panel according to an embodiment of the present invention;

7 is a reference diagram for explaining an arrangement state of a heat panel according to an embodiment of the present invention;

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

30: heat panel 31: bottom surface

32: moisture-proof paper 33: hot water pipe

34: pipe groove 35: insulation

36: heat sink 37: finish

38: sound insulation

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

5 is an exploded perspective view illustrating the entire structure of a heat panel according to an embodiment of the present invention. 6 is a reference view for explaining a sound insulation material processing position of the heat panel according to an embodiment of the present invention. 7 is a reference diagram for describing an arrangement state of a heat panel according to an embodiment of the present invention.

Examples of the heat panel according to the present invention are shown in FIGS. 5 and 6.

In the heat panel 30 of the present invention, a moisture proof paper 32 is stacked on an upper side of a bottom surface 31 made of concrete and wood, and a hot water pipe 33 is inserted into an upper side of the moisture proof paper 32. A heat insulator 35 having 34 formed therein, a hot water pipe 33 seated on the heat insulator 35 and wound with an aluminum tape to improve thermal conductivity, and a heat dissipation plate for radiating heat from the upper layer of the hot water pipe 33. 36) and a finishing material 37 seated on the heat sink 36 to treat the surface.

In addition, the sound insulating material (38) which blocks the interlayer noise transmitted from the upper layer portion of the bottom surface 31 between the moisture-proof paper 32 of the heat panel 30 is attached to the heat insulating material 35, characterized in that configured. do.

In addition, the sound insulating material 38 may be directly applied to the bottom surface 31 of the heat panel 30 or deposited in a layered manner, as shown in FIG. 6, and may be made of a separate mat to the bottom surface of the heat panel 30. It can be attached in a layered fashion to be unified. In this case, by installing the heat panel 30 on the floor 31 without installing the sound insulating material 38 on the floor 31 separately, a sound insulation result for vibration and noise can be obtained. Here, reference numeral 39 denotes a bioceramic layer.

The sound insulation material 38 applied to the heat panel of the present invention is, for example, made of a plate-shaped mat impregnated with tar and mixed with rubber carbide of various sizes extracted from a tire and directly attached to the bottom surface 31. Or to the heat panel 30. The sound insulation material 38 may be molded into a roll type by attaching an asphalt impregnated paper to the tire chip and the back surface.

In particular, even in the uneven construction site of the bottom surface 31 can be less affected by the floor structure with its own flexibility, and functionally, excellent performance in sound insulation, sound absorption, construction, waterproof, elasticity, uniformity, adhesion, etc. It can be made to produce.

Serious problems in residential buildings, such as apartments, include problems such as insulation, light, water, and interior decoration, but the noise problem of the floor impact sound system between the upper and lower floors is more serious. When the heating heat panel 30 was manufactured in a unitary unit and constructed, the construction was easy and the thermal efficiency was improved. However, the heating panel 30 could not be improved.

It can be applied to the construction of heat panels as a simple example of the application of sound insulation materials, but it is cumbersome in construction through the dual construction order. When the lower layer of the heat panel 30 is treated with the sound insulating material 38 as shown in FIG. 6, heat is removed without any additional inconvenience of construction, such as covering some other sound insulating materials replacing the sound insulating material 38 to the floor surface 31. Only by installing the panel 30 on the floor can be obtained a result of blocking the noise and vibration.

FIG. 7 schematically illustrates an example in which the heat panel 30 is continuously arranged on the bottom surface 31 according to an embodiment of the present invention, and the connection and construction of the hot water pipe 33 through the heat panel 30 are performed.

As described above, the heat panel according to the present invention can effectively block the inter-layer noise generated from the floor surface without the construction of a separate structural material through a relatively simple structure, and the building at a low cost through the construction of the heat panel with good workability. There is an effect that can control the noise and vibration between layers.

Claims (2)

A moisture-proof paper is laminated on the upper side of the bottom surface of the concrete and wood, and the heat-insulating material is formed on the upper side of the moisture-proof paper, and the hot water pipe is formed in the pipe groove into which the hot water pipe is inserted. In the heating heat panel structure consisting of a heat sink for dissipating heat in the upper layer of the hot water pipe, and a finishing material seated on the heat sink to treat the surface, Heart panel structure characterized in that the sound insulating material to block the interlayer noise transmitted from the upper layer portion of the bottom surface between the moisture-proof paper of the heat panel attached to the heat insulating material. The method of claim 1, The sound insulation material is composed of a plate-shaped mat impregnated with tar by mixing the rubber and the adhesive extracted from the tire, the mat is configured to be wound in a roll form.