KR20130094040A - Ondol panel for proofing inter layer noise and for arranging heating pipe - Google Patents

Abstract

PURPOSE: An ondol panel for placing a heating pipe and reducing noise between floors is provided to maximize the heating efficiency and to obtain the excellent performance of reducing noise as the noise is absorbed and dispersed by holding heated air of air layers. CONSTITUTION: An ondol panel for placing a heating pipe and reducing noise between floors includes an insulating panel (200) for the heating pipe, a noise reduction panel (300) of an expanded polypropylene (EPP) material, and a cap (207). The insulating panel for the heating pipe is placed on the concrete flow surface and manufactured of a material among thermoplastic resin, thermosetting resin or the foam polystyrene (EPS) material. The insulating panel includes a plurality of grooves of low depth which are formed in transverse and longitudinal directions to be alternated from the top surface to the lower side; and a plurality of recesses of deep depth. The noise reduction panel is inserted into the recesses of the insulating panel for the heating pipe. The cap is mounted on a tip end portion of the insulating panel and manufactured of one material among urethane, rubber or a soft poly vinyl chloride (PVC).

Description

ONDOL PANEL FOR PROOFING INTER LAYER NOISE AND FOR ARRANGING HEATING PIPE}

The present invention relates to a heating pipe and an ondol panel for reducing noise between floors, and more particularly, heating pipes and noise between floors that make soundproofing possible by maximizing thermal efficiency during heating and reducing noise between floors while facilitating construction for heating. It relates to an ondol panel for reduction.

In general, the ondol structure in a building such as a house constitutes a heat insulation layer by a predetermined construction method between the slab and the floor when piping hot water circulation pipes.

In addition, polystyrene foam, also known as 'styropol', is a thermal insulation material that is widely used to prevent heat loss to the slab side of the floor during the plumbing work of residential buildings such as houses and apartments. This polystyrene foam is relatively inexpensive and has many properties such as heat insulation, insulation, sound insulation, and light weight, so it is widely used for insulation of interior walls and floors of buildings.

In the case of inner wall insulation, it is constructed to be inserted into a concrete or brick, or to be formed to form an inner wall of the room, and the floor insulation is constituted by a predetermined construction method between the slab and the floor.

In the heating piping structure that insulates and insulates, it is a mortar structure, so the sound insulation and insulation properties are poor, and the insulation effect due to the inherent styropol property is expected to some extent, although the sound insulation, especially apartments and multi-family houses, etc. The role of blocking and extinguishing noise from the upper layer is not expected at all, and there is a problem in that the floor subsidence and floor cracks are generated by heavy materials such as a piano when the finish mortar is not noticed.

On the other hand, according to the law of inter-floor noise regulation from April 2004, the floor of the multi-family house has a floor impact sound of each floor, and a light impact sound (floor impact sound due to light and hard impact) is 58 decibels or less, and a heavy impact sound (comparatively heavy and soft impact). Floor impact sound) is to be 50 decibels or less.

In this way, the floor building noise standard of apartment buildings is prescribed and construction permits are granted only to apartments that satisfy the floor noise standard. Therefore, the construction contractor is required to develop a floor noise reduction system.

Therefore, an object of the present invention is devised to solve the above problems, made of expanded polystyrene (EPS) material used for heating piping, and the bottom end is equipped with a cap of urethane, rubber or soft PVC material The ribs formed on the lower part of the insulation panel for heating piping and the noise reduction by combining the insulation panel for heating piping and the noise reduction panel made of Expandable Polypropylene (EPP) material to the lower part of the insulation panel for heating piping. A first air layer is formed between the panels, and a second air layer is formed between the cap and the concrete floor surface protruding from the noise reduction panel to hold the warm air and absorb and disperse the noise, thereby maximizing heating efficiency of heating. Heating and floor noise reduction with excellent noise reduction performance not only for light impact sound but also heavy impact sound Intended to provide a panel.

Heating pipes and floor noise reduction ondol panel according to the present invention is placed on the concrete floor surface, made of any one of a thermoplastic resin, thermosetting resin or expanded polystyrene material, alternately in the horizontal and vertical direction from the upper side to the lower side An insulation panel for heating piping comprising a plurality of low depth grooves and a plurality of deep depth holes formed; A noise reduction panel made of a foamed polypropylene material inserted into the recess of the heat insulation panel for the heating pipe; It is characterized in that it comprises a cap made of any one material of urethane, rubber or soft PVC is mounted on the end of the concave hole of the heat insulation panel for heating piping.

As described above, the heating pipe and the ondol panel for reducing the noise between layers according to the present invention are made of any one of a thermoplastic resin, a thermosetting resin or an expanded polystyrene (EPS) material, and at the lower end of the urethane, rubber or soft PVC material A rib formed in the lower portion of the insulation panel for heating piping and the noise reduction by combining a cap-mounted insulation panel for heating piping and a noise reduction panel of foamed polypropylene (EPP) material in the lower portion of the insulation panel for heating piping. A first air layer is formed between the panels, and a second air layer is formed between the cap and the concrete floor surface protruding from the noise reduction panel to hold the warm air and absorb and disperse the noise, thereby maximizing heating efficiency of heating. In addition, there is an advantage that the noise reduction performance is excellent in not only lightweight impact sound but also heavy impact sound.

In addition, the heating pipe and floor noise reduction ondol panel according to the present invention is installed at the end of the tapered yaw hole horizontally installed on the concrete floor surface, the occurrence of settlement and cracking phenomenon of cement finish mortar due to the heavy material This has the advantage of being minimized.

1 is a perspective view of an ondol panel for reducing heating pipes and floor noise according to the present invention.
Figure 2 is a front view of the heating pipe and ondol panel for reducing the noise between floors according to the present invention.
Figure 3 is a rear view of the heating pipe and ondol panel for reducing the noise between floors according to the present invention.
Figure 4 is a side view of the heating pipe and ondol panel for reducing the noise between floors according to the present invention.
Figure 5 is a partial cross-sectional side view of the heating pipe and the floor support holder is coupled to the ondol panel for reducing noise between floors in accordance with the present invention.

Hereinafter, a heating pipe and an ondol panel for reducing noise between floors according to the present invention will be described in more detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and they may vary depending on the intentions or customs of the client, the operator, the user, and the like. Therefore, the definition should be based on the contents throughout this specification.

Like numbers refer to like elements throughout the drawings.

1 is a perspective view of a heating pipe and an ondol panel for reducing noise between floors according to the present invention, Figure 2 is a front view of a heating pipe and an ondol panel for reducing noise between floors according to the present invention, Figure 3 is a heating pipe and 4 is a side view of a heating pipe and an ondol panel for reducing noise between floors according to the present invention, and FIG. 5 is a pipe support for a heating pipe and an ondol panel for reducing noise between floors according to the present invention. Partial side cross-sectional view of the state in which the dragon holder is engaged.

As shown in Figures 1 to 5, the heating pipe and the ondol panel 100 for reducing the noise between the floor according to the present invention is any material of thermoplastic resin, thermosetting resin or expanded polystyrene (EPS) material placed on the concrete floor surface Insulation panel 200 for heating piping made of; A noise reduction panel (300) made of expanded polypropylene (EPP) material inserted into and fitted under the heat insulation panel for the heating pipe; It is mounted to the end of the heat insulation panel 200 for heating piping, and made of a cap () made of any material of urethane, rubber or soft PVC.

The heating pipe and the ondol panel 100 for reducing the noise between floors according to the present invention are completed by matching the noise reduction panel 300 to the lower portion of the heat insulating panel 200 for heating pipes.

In addition, a plurality of circular low-depth grooves 201 and a plurality of inverse concave-shaped deep holes in the lower direction are alternately formed in the horizontal and vertical directions on the upper surface of the heat insulation panel 200 for heating piping. The holder insertion groove 203 is inserted between the groove 201 and the hole 202 to insert a holder 204 for supporting a heating pipe (not shown) or a water pipe (not shown). .

Here, the groove 201 and the groove 202 are connected to each other, thereby preventing buckling due to the impact applied from the top, and also reducing the sound pressure of the impact sound applied from the top.

In addition, the yaw hole 202 minimizes the size of the surface in contact with the concrete bottom surface in a tapered inverted conical shape downward, and at least three protrusions 205 formed at the end of the yaw hole 202 206 is formed to form a space with the cap 207 to be covered by the support foot 206 by the protrusion 205 to reduce the impact to the concrete floor 400.

According to the installation configuration of the cap 207 as described above, the contact portion with the concrete bottom surface 400 becomes a one-point support form to reduce the contact rigidity, and also minimize the material and the contact surface of the cap 207 of the elastic material This increases flexibility and effectively controls vibration to maximize external shock absorption.

In addition, a cross rib rib 208 is mounted in the groove 201 of the heat insulation panel 200 for heating piping, and noise is absorbed or dispersed by the space fractionated by the rib rib 208, and then poured. The binding force of cement mortar is increased.

In addition, a reinforcing rib 209 is installed in the lower portion of the groove 201 of the heat insulation panel 201 for heating piping, so that the noise reduction panel 300 matching with the heat insulation panel 200 for heating piping is The reinforcing rib 209 abuts. As a result, a space is formed between the reinforcing rib 209 and the noise reduction panel 300. The space serves as the first air layer 210 holding the hot air and absorbs and disperses the noise. Do it.

In addition, between the noise reduction panel 300 and the concrete floor 400 by the support foot 206 protruding through the noise reduction panel 300 and the cap 207 covered by the support foot 206. The space is formed, which serves as the second air layer 211 holding the hot air, and at the same time, absorbs and disperses the noise.

In addition, a plurality of assembling grooves 212 and a plurality of assembling protrusions 213 are installed at the edges of the heat insulation panel 200 for heating piping, so that separate heating is performed at the assembling grooves 212 and the assembling protrusions 213. By connecting the assembling protrusion 213 and the assembling groove 212 of the heat insulation panel 200 for piping, it can extend to the front, back, left and right.

Now, let's look at the construction of the heating pipe and ondol panel for reducing the noise between floors according to the present invention.

First, by joining the noise reduction panel 300 to the lower portion of the heat insulation panel 200 for heating piping, to prepare the heating pipe and the ondol panel 100 for reducing the noise between floors.

Then, the dimensions of the floor area of the space in which the heating pipe and the ondol panel 100 for floor noise reduction are to be installed.

Thereafter, the bottom of the wall surface of the space is finished with a wall buffer (not shown).

Thereafter, the prepared heating pipes and interlayer noise reduction ondol panels 100 are interconnected and installed in the entire space.

Thereafter, a holder 204 for installing water pipes or heating pipes is provided in the heat insulation panel 200 for heating pipes.

Thereafter, the water supply pipe or the heating pipe is fixed to the holder 204.

Thereafter, after the cement mortar is poured, the floor, the floorboard or the tile is constructed, thereby completing the construction of the heating pipe and the ondol panel for reducing noise between floors according to the present invention.

Heating pipe and interlayer noise reduction ondol panel according to the present invention is made of any one of a thermoplastic resin, thermosetting resin or expanded polystyrene (EPS) material, the heating is equipped with a cap of the urethane, rubber or soft PVC material at the lower end A first air layer is formed between the rib formed on the lower part of the insulation panel for heating piping and the noise reduction panel by combining the insulation panel for piping and the noise reduction panel made of expanded polypropylene (EPP) material with the lower portion of the insulation panel for heating piping. By forming a second air layer between the cap and the concrete floor surface protruding through the noise reduction panel, by holding the heated air to absorb and disperse the noise, maximize the heating efficiency of the heating, as well as light impact sound In addition, the noise reduction performance is excellent in heavy impact sound. In addition, the heating pipe and floor noise reduction ondol panel according to the present invention is installed at the end of the tapered yaw hole horizontally installed on the concrete floor surface, the occurrence of settlement and cracking phenomenon of cement finish mortar due to the heavy material This is minimized.

Although in the embodiment of the present invention, the grooved rib ribs are mounted in the groove, but the present invention is not limited thereto, and the linear shape and the X shape may be installed.

In addition, of course, the groove may be circular, square or polygonal.

Also, of course, the yaw hole may be an inverted cone, an inverted cone, or an inverted pyramid.

In addition, it is a matter of course that a well-known resin or metal material having heat insulation on the surface of the noise reduction panel can be applied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various changes, modifications or adjustments to the example will be possible. Therefore, the scope of protection of the present invention should be construed as including all changes, modifications, and adjustments that fall within the spirit of the technical idea of the present invention.

100: ondol panel 200: heat insulation panel for heating piping
201: groove 202: hole
203: holder insert groove 204: holder
205: protrusion 206: support foot
207: Cap 208: Ribsal
209: reinforcement rib 210: first air layer
211: second air layer 212: assembly groove
213: assembly protrusion 300: noise reduction panel
400: concrete floor

Claims (9)

A plurality of low-depth grooves placed on the concrete floor surface 400, made of any one of a thermoplastic, thermosetting resin or expanded polystyrene (EPS) material, and formed horizontally and vertically alternately from the upper surface to the lower side ( A heat insulation panel 200 for heating piping including 201) and a plurality of deep holes 202;
A noise reduction panel (300) made of expanded polypropylene (EPP) material fitted into the recess hole 202 of the heat insulation panel 200 for heating piping;
Heating pipes and interlayer noise, characterized in that it comprises a cap 207 is mounted on the end of the hole 202 of the heating pipe insulation panel 200, made of any one material of urethane, rubber or soft PVC Reduction ondol panel.
The method of claim 1,
A heating insertion pipe is formed between the plurality of low depth grooves 201 and the plurality of deep depth grooves 202 in which a holder insertion groove 203 is inserted into which a holder 204 for supporting a heating pipe is inserted. And ondol panel for reducing noise between floors.
The method of claim 2,
The groove 201 includes rib ribs 208, the noise is absorbed and dispersed by the space divided by the ribs 208, heating pipes, characterized in that the bonding force of the cement mortar is poured is increased. And ondol panel for reducing noise between floors.
The method of claim 2,
A reinforcing rib 209 is installed below the groove 201, and the reinforcing rib 209 and the noise reduction panel 300 come into contact with each other, such that the reinforcing rib 209 and the noise reduction panel 300 are provided. The first air layer 210 is formed in the liver to hold hot air and at the same time to absorb and disperse the noise, heating piping and interlayer noise reduction ondol panel.
The method of claim 2,
The yaw hole 202 has a tapered shape in a downward direction, and heating feet and interlayer noise reduction are formed at a distal end of the yaw hole 202 at which a supporting foot 206 having at least one protrusion 205 is formed. Ondol panel.
The method of claim 5,
And a space formed with the cap 207 by the at least one protrusion 205 formed at the end of the support foot 206, thereby reducing the vibration transmitted to the cap 207; Ondol panel for reducing noise between floors.
The method according to claim 6,
By the support feet 206 and the cap 207, a second air layer 211 is formed between the concrete floor 400 and the noise reduction panel 300 to hold hot air and at the same time Heating pipes and floor floor noise reduction ondol panel characterized in that the absorption and dispersion.
The method of claim 1,
The heating pipe insulation panel 200 has a plurality of assembling grooves 212 and a plurality of assembling protrusions 213 are formed at the edges, and the assembling grooves 212 are assembled of the adjacent heating pipe insulation panels 200. Ondol panel for heating piping and interlayer noise reduction, characterized in that the projection 213 is coupled.
The method of claim 2,
The groove 201 and the hole 202 are connected to each other to prevent buckling caused by the impact applied from the upper side, and at the same time to reduce the sound pressure of the impact sound applied from the upper side. And ondol panel for reducing noise between floors.

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