KR200389483Y1 - Panal assembly with easy heating pipe installation - Google Patents

Abstract

The present invention relates to a panel assembly that is easy to install the heating pipe, it is installed to have a density of 10kg / ㎥ ~ 20kg / ㎥ for each thickness of 5 ~ 20mm on the upper surface of the concrete slab and to compensate for the filling height between the concrete slab and the threshold A level correction panel made of a predetermined sound insulation and impact resistance synthetic resin material, a soft cushion panel installed on the level correction panel, and installed on the cushion panel, and a heating pipe is interviewed and supported in an arbitrary direction on the upper surface thereof. Heating pipe support insulation panel made of heat-resistant and heat-insulating urethane synthetic resin so as to prevent the heat emitted from the pipes from being discharged to the bottom, and fixed to be interviewed on the upper surface of the heating pipe, and metal lath made of metal so that the heat emitted from the heating pipe can be diffused Is installed on the ganban rock mortar layer and the ganban rock mortar layer is cured on top of the heating pipe support insulation panel That is configured to include a watch plate characterized.

Therefore, it is easy to assemble and install the heating pipe support insulation panel, and the construction height is easily corrected according to the change in the construction height of the building to be heated, thereby reducing the construction time and reducing the construction cost.

Description

PANL ASSEMBLY WITH EASY HEATING PIPE INSTALLATION}

The present invention relates to a panel assembly that is easy to construct a heating pipe, more specifically, the heating pipe is not supported by the heating pipe guide groove formed to have a certain direction on the upper surface of the heating pipe support insulation panel interview in any direction The present invention relates to a panel assembly that facilitates heating pipe construction, in which each heating pipe support insulation panel is easily assembled by an unskilled worker, thereby reducing construction costs.

In general, the heating piping structure of a residential building is a structure in which aerated concrete is cured at the upper part of a concrete slab, a heating pipe is installed at the upper part, and then cement mortar is cured at the upper part to cure the heating, according to the wet method. The piping structure has a long construction period and low thermal efficiency.

The heating pipe structure overcomes these disadvantages by installing a support frame on the concrete slab of the residential building and then inserting the heating pipe on the top of the heat diffusion plate placed in the guide groove formed to install the heating pipe on the upper part of the support frame. Although the assembly structure is provided in which the finishing top plate is installed on the upper surface after the heat is diffused, the heating pipe assembly structure according to the dry method does not need cement mortar, which has the advantage of fast construction and good thermal efficiency. It is weak to the impact applied, there is a problem that the breakup and noise occurs due to the lifting phenomenon between each assembly structure.

1 is a perspective view showing a portion of a conventional panel assembly for heating piping cut.

Referring to Figure 1, the conventional panel assembly for heating piping 1 according to the semi-dry method to improve the above problems is a soundproof member (2) made of glass fiber or the like installed on the upper surface of the concrete slab, and the soundproof member Insulating member (3) is installed on the upper surface of the support frame is formed on the upper surface of the insulating member and the guide groove (4) is formed so that the heating pipe is fitted, and the guide groove of the support frame On the upper surface of the mortar layer 8 and the heat diffusion plate 6 is installed to cover a certain portion of the support frame, the curing mortar layer 8 which is cured in the upper part of the support frame 5, the heating pipe 7 is fitted It consists of a finishing top plate 9 to be installed.

However, the conventional panel assembly for heating piping 1 according to the semi-dry method has the advantage that the laminated structure is not damaged by the impact applied from the top and the noise is minimized, while the support frame 5 is hard. Since the extrusion molding is made of a heat-resistant plastic material of the cutting and tailoring assembly to be cut to the appropriate size has a problem that is not easy.

Further, each support frame while matching the direction of the guide groove of each support frame 5 so that the heating pipe guide groove 4 of the support frame 5 has a certain direction in the direction to install the heating pipe (7). Since the connector 5a formed on the rim of the frame 5 must be engaged by interlocking with each other, the operator checks the direction of the guide groove of each support frame 5 during assembly of the support frame 5. There was a problem in that it takes a long time construction and construction difficulties in accordance with the installation.

In addition, the level of the support frame 5 is corrected by changing the height of the concrete slab level according to the construction environment of the building to be heated, that is, when the height between the concrete slab and the threshold is high. There was a problem that the site correction by the construction worker is difficult due to the change in the construction height of the building.

The present invention is to overcome the above-mentioned problems, the object of the present invention is that the heating pipe is not supported by the guide groove formed to have a certain direction on the upper surface of the heating pipe support insulation panel is interviewed in an arbitrary direction, and the conventional and As a result, the construction cost of the heating pipe support insulation panel can be easily reduced even by unskilled workers without the difficulty of assembling the frame of the support frame in a predetermined direction. It is to provide a panel assembly that is easy to install the heating pipe of the structure having a good cushioning effect is further equipped with a cushion layer is formed by a flexible urethane synthetic resin material laminated and laminated to the bottom to the sound insulation and impact resistance.

Another object of the present invention is a level correction panel made of relatively inexpensive material on the upper surface of the concrete slab depending on the construction environment of the building being heated, such as when the height between the concrete slab and the threshold is high. By providing a density of 10kg / ㎥ ~ 20kg / ㎥ for each thickness of 20mm, it is to provide a panel assembly that is easy to construct the construction so that the operator can easily fill in the construction height at a low construction cost in the field immediately.

This object of the present invention is installed to have a density of 10kg / ㎥ ~ 20kg / ㎥ for each thickness of 5 ~ 20mm on the upper surface of the concrete slab and predetermined sound insulation and impact resistance polyethylene synthetic resin material to fill the construction height between the concrete slab and the threshold And a cushion panel made of a soundproofing and impact resistant soft urethane synthetic resin material, which is installed on the level compensating panel, a vibration compensating noise caused by an external impact, to be transmitted to the lower concrete slab, and the cushion panel According to the present invention, the heating pipe is installed on the upper surface, and the heating pipe is interviewed in an arbitrary direction, and the heating pipe support insulation panel made of heat-resistant and heat-insulating urethane resin is constructed so that the heat radiated from the heating pipe is not discharged downward. Heating piping construction is achieved by an easy panel assembly.

Still another object of the present invention is to provide a panel assembly that is easy to construct so that the impact generated from the upper side is cushioned simultaneously by the cushion panel interviewed on the lower side as well as the wall surface.

This object of the present invention further comprises a wall buffer panel to the upper wall surface interviewed with the cushion panel to reduce the vibration and noise transmitted to the wall and concrete slab by the impact generated from the upper portion of the cushion panel. Heating piping according to the construction is achieved by an easy panel assembly.

As an example of a panel assembly that is easy to construct a heating pipe according to the present invention for achieving the object of the present invention, will be described in detail in the following configuration and effects.

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

2 and 3, there is shown a panel assembly for easy heating piping construction according to an embodiment of the present invention.

2 is a cross-sectional view showing a construction state of a panel assembly for easy heating piping construction according to an embodiment of the present invention, Figure 3 is a part of a panel assembly for easy heating piping construction according to an embodiment of the present invention The exploded perspective view.

Referring to FIGS. 2 and 3, the panel assembly 10 that is easy to install the heating pipe according to the embodiment of the present invention, the concrete slab on the upper surface of the concrete slab 11 of the building (not shown) being heated construction At least one level correction panel 20 made of a synthetic resin material having predetermined sound insulation and impact resistance, such as polyethylene, is installed to have a density of 10 kg / m 3 to 20 kg / m 3 with a thickness of 5 to 20 mm depending on the level.

The level correction panel 20 has an auxiliary function of satisfying the floor impact noise standard of the construction building together with a level correction function of filling and correcting the heating construction height between the concrete slab 11 and the threshold on the concrete slab 11. Therefore, it is sufficient if it is formed to have a density of 10kg / ㎥ ~ 20kg / ㎥ for each thickness of 5 ~ 20mm, and does not require expensive or high-performance materials compared to the soft cushion panel described later.

One or more cushion panels 30 made of a soundproof and impact resistant soft urethane synthetic resin material are disposed on the upper surface of the level correction panel 20 so that vibrations and noises caused by external shocks are not transmitted to the lower concrete slabs. It is densely installed to absorb and reduce vibration and noise transmitted to the concrete slab (11).

At this time, as described above, the cushion panel 30 is formed of a soft urethane synthetic resin, that is, heating is made of a rigid urethane synthetic resin laminated and assembled on the upper part of the level correction panel 20 laminated and assembled even when the cushion layer is formed. Since it is laminated and assembled between the pipe support insulation panels, that is, it is assembled according to the dry method, cracking does not occur on the soft surface according to the soft cushion function of the cushion panel 30 made of a soft urethane synthetic resin material.

Preferably, the cushion panel 30 is cut at the center of the concrete slab 11 by laying down from the wall portion for tight construction with the wall surface of the side wall 12 to a thickness of 20 mm, and thus each cushion panel border surface. It is densely installed so that there is no gap between them.

In this case, a wall insulating member (not shown) made of an insulating material such as a foamed rubber material is further installed at the portion where the cushion panel 30 is interviewed on the wall so as not to cause cracks.

And, as described above, when the shock generated from the upper portion is transmitted to the wall surface on the upper side of the side wall, the cushion panel 30 is interviewed wall shock absorbing panel 40 of 5 ~ 15mm thickness so that the shock and noise is absorbed This is installed more.

That is, the lower side of the edge of the wall buffer panel 40 interviewed on the wall surface is interviewed on the cushion panel 30, the impact generated from the upper side of the soft cushion cushioned in addition to the wall buffer panel 40 as well as the lower surface The panel 30 is also buffered at the same time, the structure can effectively distribute the impact.

And, on the cushion panel 30, the heating pipe 60 is interviewed on the upper surface in any direction not limited to have a certain directionality is fixed to the pin and is discharged by the hot water flowing through the interior of the heating pipe 60 One or more heating pipe support insulation panels 50 made of a synthetic resin material having excellent heat resistance and thermal insulation such as urethane, etc. are installed to block heat from being discharged downward.

In this case, the heating pipe support insulation panel 50 is formed of a predetermined urethane material because it does not require a soft cushion layer.

Preferably, the heating pipe 60 has a minimum bending portion without heating more than 60m in terms of heating efficiency, and the 'U' shaped fixing pin 61 wraps around the outer circumferential surface of the heating pipe to support the heating pipe support insulation panel ( 50 may be fixed to the upper surface of the bar, or inserted into a predetermined bar-shaped clip bar (not shown) that is separately fixed to the upper surface of the heating pipe support insulation panel 50.

Therefore, since the heating pipe 60 is not installed on the upper surface of the heating pipe support insulation panel 50 as described above to have a certain direction, at the time of assembling each edge surface of each heating pipe support insulation panel 50 together. There is no need to check the direction to install the heating pipe, so the construction is easy, so the construction time does not take long.

On the other hand, the heating pipe support insulation panel 50 has a thickness of 20mm, each border surface is closely interviewed so that there is no gap between each other and the interview portion is taped so that the mortar, which will be described later, does not leak through the interviewed portion. .

In addition, the upper surface of the heating pipe 60 is laid so that the mesh-shaped metal lath (70) made of a wire of a metal material having high thermal conductivity is interviewed and fixed so as not to be lifted by the 'U'-shaped fixing pin (71). do.

The metal las 70 is interviewed with the upper surface of the heating pipe 60 so that the heat dissipated from the heating pipe is spread and the heat is concentrated only on a portion as it is installed to be evenly interviewed on the entire upper surface of the heating pipe 60. This function prevents cracking due to overheating.

In addition, mortar, which will be described later, is placed on the heating pipe support insulating panel 50 to function as a reinforcing material to harden and harden together with the metal lath 70 during curing.

In addition, the mixing ratio of cement and sand is 1: 3 on the upper portion of the heating pipe support insulation panel 50 in which the heating pipe 60 and the metal lath 70 are exposed on the upper surface, and the agglomerate powder and the non-shrinkable admixture. The mortar layer is further blended with the mortar layer 80 is cured so that the heating pipe 60 and the metal lath 70 are integrally combined with the heating pipe support insulation panel 50. Therefore, far infrared rays are radiated while the heat radiated from the heating pipe 60 passes through the bedrock mortar layer 80.

At this time, the ganban rock mortar layer (80) is mortally placed in accordance with the wet method so that there are no pores on the side wall 12 wall portion is cured so that the mortar top surface is evenly horizontal and there is no crack.

On the other hand, the wall buffer panel 40 is also integrally combined with the heating pipe 60 and the metal las 70 together with the heating pipe support insulation panel 50.

And, the upper surface of the ganban rock mortar layer 80 is provided with a finishing top plate 90 is a panel assembly 10 is easy to construct the heating pipe construction according to the present invention.

The panel assembly that is easy to construct the heating pipe according to the preferred embodiment of the present invention by the configuration as described above is operated as follows.

Heat dissipated by hot water circulated in the heating pipe 60 is uniformly diffused throughout the ganguerite mortar layer 80 by the metal las 70 interviewed on the upper surface of the heating pipe 60, and heating pipe support insulation Thermal efficiency is good because the panel 50 prevents leakage of heat to the bottom so that most of the heat is released only to the top.

In addition, when an impact occurs in the upper part of the finishing upper plate 90, the impact and noise pass through the mortar layer 80 and the wall buffer panel 40 and the heating pipe support insulation panel 50 which are integrally coupled by mortar curing. The shock is transmitted to the side wall 12, the shock and noise is absorbed and absorbed by the wall buffer panel 40 to the side wall 12, the lower concrete slab 11 to the bottom surface of the heat insulation panel 50 for heating piping support Since the shock and noise are absorbed and cushioned by the cushion panel 30 and the level correction panel 20 at the bottom of which the interview is installed, the generation of vibration and floor impact sound through the concrete slab 11 is minimized.

As described above, the panel assembly that is easy to construct the heating pipe according to the present invention is easy to assemble the construction of the heating pipe support insulation panel, the height of the height between the concrete slab and the threshold, depending on the construction height of the building to be heated Since the worker immediately assembles the level correction panel made of relatively inexpensive materials in the field, the construction height can be easily calibrated, so that the construction time is low and the construction cost is low.

In addition, by forming a cushioning panel having a shock-resistant function with a soft urethane synthetic resin material, the cushion layer is further provided, thereby improving sound insulation and cushioning function.

In addition, since the lower side of the edge of the wall buffer panel installed on the wall is interviewed on the cushion panel, the impact generated from the upper part is simultaneously distributed not only to the wall buffer panel but also to the cushion panel interviewed on the lower side, so that vibration and noise are prevented. There is an effect that is effectively reduced.

What has been described above is just one embodiment for implementing a panel assembly that is easy to construct a heating pipe according to the present invention, the present invention is not limited to the above embodiment, which is claimed in the utility model registration claims below As will be apparent to those skilled in the art to which the present invention pertains without departing from the gist of the present invention, there is a technical spirit of the present invention to the extent that various modifications can be made.

1 is a perspective view showing a part of a conventional panel assembly for heating piping cut

2 is a cross-sectional view showing a construction of a panel assembly that is easy to heat heating construction according to an embodiment of the present invention

3 is an exploded perspective view of a part of a panel assembly for easy heating piping construction according to an embodiment of the present invention;

Explanation of symbols on the main parts of the drawings

10. Panel assembly for easy heating piping construction 11. Concrete slabs

12. Side wall 20. Level correction panel

30. Cushion panel 40. Wall buffer panel

50. Heating piping support insulation panel 60. Heating piping

70. Metallas 80. Mortar layer

90. Finishing tops

Claims (2)

In the panel assembly for heating piping for heating the room by the heat of hot water flowing inside the heating pipe installed on the concrete slab, It is installed to have a density of 10kg / ㎥ ~ 20kg / ㎥ for each thickness of 5 ~ 20mm on the upper surface of the concrete slab and a level compensation panel made of polyethylene synthetic resin material with predetermined sound insulation and impact resistance to compensate for the filling height between the concrete slab and the threshold. , It is installed on the level correction panel and cushioning panel made of a sound-resistant and impact-resistant soft urethane synthetic resin material so that vibration and noise due to external impact is not transmitted to the lower concrete slab; It is installed on the cushion panel and the heating pipe is interviewed and supported in any direction on the upper surface and the heating pipe support insulation panel made of heat-resistant and heat-insulating urethane synthetic resin so that the heat emitted from the heating pipe is not discharged to the bottom, A metal lath fixed to an upper surface of the heating pipe to be interviewed and made of metal such that heat radiated from the heating pipe is diffused; It is cured at the upper part of the heating pipe support insulation panel, and the mixing ratio of cement and sand is 1: 3 so that the heating pipe and the metal lath are integrally combined with the heating pipe support insulation panel. Elvan rock mortar layer, A panel assembly for easy heating piping construction, characterized in that it comprises a finishing top plate installed on the bedrock mortar layer. According to claim 1, The upper wall surface interviewed with the cushion panel is further provided with a wall buffer panel to reduce the vibration and noise transmitted to the wall and concrete slab by the impact generated from the upper portion of the cushion panel. Panel assembly easy to install heating piping.