KR200361919Y1 - Construction hypocaust slab for building - Google Patents

Abstract

The present invention relates to an ondol heating slab structure for a building, and more specifically, after installing a heating pipe 80 for heating on the interlayer wall 10 of a multi-family building, it is fixed with mortar and the like, and a floor finishing material on the upper surface thereof. In a well-known construction ondol heating slab structure having a construction to construct

Powder-type insect repellent material 30 is sprayed on the bottom surface of the interlayer wall 10 to a predetermined thickness, and the insulating film 40 is laid on the upper part of the interlayer wall 10. After covering the silver foil pad 50 having a cushioning on the upper portion, install the partition member 60 in the form of a wooden block at regular intervals,

Between the partition members 60, laminated plywood compressed paper cardboard 70 in a multi-layered structure, the heating pipe 80 is installed at regular intervals in the middle layer portion, and then the cardboard 70 and the partition member 60 On the upper surface of the) is laid a copper plate 90 of a predetermined thickness,

After stacking the cushion pad 100 for heating again on the top, and finally by installing a wooden floorboard 110 as a floor finishing material, it is possible to obtain the heating cost reduction effect due to the excellent sound insulation and excellent thermal insulation, thermal efficiency improvement by thermal insulation In addition, simple and excellent construction and construction cost reduction effect can be obtained.

Description

Construction Ondol Heating Slab Structure {CONSTRUCTION HYPOCAUST SLAB FOR BUILDING}

The present invention relates to an ondol heating slab structure for construction, and more specifically, it can be applied to a slab of a multi-generation multi-family building such as an apartment or a villa to greatly improve thermal efficiency and sound insulation performance, and to reduce construction costs and extend the life of a building. The present invention relates to a building underfloor heating slab structure.

In general, multi-family multi-family buildings, such as apartments and villas, consist of a multi-storey building with one floor inhabited by a single household.As a result, the ceiling of the lower floor is integrated with the floor of the upper floor. There was a problem that causes a lot of inconvenience in thermal insulation.

That is, in the case of a typical multi-family building, an interlayer wall is formed between the lower floor and the upper floor to form an ondol heating slab structure for heating on the upper surface of the interlayer wall, which is illustrated in FIG. 5. As described above, the heating pipe (B) is embedded in the upper part of the interlayer wall (A) that partitions the building's floors. By installing various floor finishing materials (D) such as wood, tiles or flooring for the purpose, soundproofing material (E) is added to the upper and lower ends of the mortar layer fixing the heating pipe (B), if necessary, for heating ondol. This completes the slab structure.

However, in the conventional ondol heating slab structure as described above, by placing mortar on the upper part of the interlayer wall of the building, the interposed wall and the ondol heating slab form a lump because the formed mortar becomes a unitary structure with the interlayer wall.

Therefore, when an impact is applied from the upper part of the ondol heating slab, the noise or vibration caused by the impact is transmitted to the interlayer wall as it is through the mortar constituting the ondol heating slab and then to the lower floor. The impact caused by walking, noise, or noise from an acoustic device such as a television or audio is transmitted to the lower floor as it rides on the interlayer wall, and the inconvenience caused by the noise is very serious. There is also a significant social problem, such as frequent quarrels between neighbors living in the area.

In addition, since it takes a long time for the heat generated in the process of heating by the heating pipe fixed by the mortar in the ondol heating slab structure to spread through the mortar, rapid heating is difficult, and the mortar itself does not receive the heat generated from the heating pipe. Since the heat is not easily stored for a long time and heat is easily lost, there is also a problem that the heating efficiency is greatly reduced.

In addition, since the mortar structure whose cement is the main raw material is very heavy, when the mortar structure is added to the building that forms the interlayer walls, the load on the structure itself is increased. In addition to shortening the lifespan of the building, the work process for placing the mortar is also difficult, requires a professional manpower, expensive construction costs, and requires a lot of time to cure. have.

The present invention has been made in order to solve the above-mentioned conventional problems, the purpose of the present invention to have excellent sound insulation and impact resistance that can effectively block the inter-layer noise while excellent heating efficiency.

In addition, another object of the present invention is to reduce the construction cost, to reduce the weight of the slab structure to significantly reduce the overall load in forming the ondol heating slab structure, thereby improving durability and extending the life of the building and excellent construction properties To make it possible.

In order to achieve the above object of the present invention, the present invention, in forming the ondol heating slab structure on the interlayer wall, by stacking the compressed paper corrugated cardboard for plywood formed in a multi-layer to wrap the heating pipe impact resistance and excellent thermal insulation, heat insulation In order to achieve sound insulation and quick and easy construction, and to enable rapid diffusion of heat using a wooden partition having a heat passage, it will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the main configuration of the present invention

2 is a perspective view of the partition member of the present invention

3 is a perspective view showing a cardboard of the present invention

4 is a cross-sectional view of the corrugated cardboard of the present invention

5 is a cross-sectional view showing a conventional construction ondol heating slab structure.

<Description of Symbols for Main Parts of Drawings>

10: interlayer wall 20: side wall

30: insect repellent material 40: heat insulation film

50: silver foil pad 60: partition member

602: horizontal hole 604: final hole

606: long groove 70: cardboard

702: core 704: cardboard

706: vent 80: heating pipe

90: copper plate 100: cushion pad

In the well-known construction underfloor heating slab structure, which is installed in the upper part of the interlayer wall 10 of the multi-family building, the heating pipe 80 for heating is fixed with a mortar and the like, and a floor finishing material is installed on the upper surface thereof.

The powder-type insect repellent material 30 is sprayed to a predetermined thickness on the bottom surface of the interlayer wall 10,

The upper part of the insulation film 40 is laid on the wall portion of the contact to a predetermined height to be installed in a substantially box-shaped,

After putting a silver pad (50) with a cushion on the top

Installing the partition member 60 in the form of a square at regular intervals,

Between the partition members 60, laminated plywood compressed paper cardboard 70 in a multi-layered structure, the heating pipe 80 is installed at regular intervals after installing the intermediate layer portion

On the upper surface of the corrugated cardboard 70 and the partition member 60 is laid a copper plate 90 of a predetermined thickness,

After stacking the cushion pad 100 for heating again on the top

Finally, the floor finishing material is a construction that constructs a wooden floorboard (110).

On the other hand, the partition member 60 forms a plurality of cross holes 602 penetrating both sides at a predetermined interval, and forms a plurality of longitudinal holes 604 communicating with the cross holes 602 on the upper surface, the long groove in both sides in the longitudinal direction 606 is formed.

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

1 is a cross-sectional exemplary view showing the main configuration of the present invention, as shown in the figure is to spray the powder-type insect repellent material 30 to a predetermined thickness on the bottom surface of the interlayer wall 10 connected to the side wall 20, wherein Insect repellent material 30 is mainly sprayed with charcoal powder, germanium powder or TiO₂ powder to a thickness of about 1 mm, not only insect repellent, but also moisture-proof, deodorizing effect, such as ethylene, bran, cement mortar The characteristic smell etc. can be removed.

After that, as shown in the drawing, the insulation film 40 is laid on the insect repellent material 30, and the insulation film 40 is constructed at a height of about 100 mm in the portion where the interlayer wall 10 and the side wall 20 are continued. The shape of the heat-insulating film 40 constructed in the room is to take the shape of a box shape, only the upper part is opened and five surfaces are blocked.

This box-shaped insulation film 40 construction is a heat loss when the heating heat is transferred to the interlayer wall 10 or the side wall 20 when heating by the internal heating pipe to minimize leakage to the outside through the wall Can be minimized.

On the other hand, the inner bottom surface of the box-shaped thermal insulation film 40 is formed with a thickness of about 5mm to lay a silver pad 50 having a cushioning feeling, the silver foil pad 50 so that the heating heat is reflected upwards By reducing the heat loss and at the same time to even the uneven bottom after the insulation film 40 is constructed, the construction of the partition member 60 or the corrugated cardboard 70 to be installed on the top is made uniform.

Thus, the partition member 60 is laid on the upper surface of the silver foil pad 50 at predetermined intervals, and the corrugated cardboard 70 is laminated in a multi-layer structure between the partition members 60 so as to have the same height as the partition member 60. By embedding the heating pipe 80 at regular intervals in the middle layer portion of the cardboard 70 to be laminated, the cardboard 70 is to fix the heating pipe 80.

At this time, the partition member 60 is in the shape of a wooden block as shown in Figure 2 attached to form a plurality of cross holes in the transverse direction, the upper portion of the partition member 60 to communicate with each cross hole (602) By forming the longitudinal hole 604 in the longitudinal direction in the heat transfer from the heating pipe 80 to the other side of the partition member 60 in the process of moving along the vent 706 formed in the cardboard 70 In order to achieve this, the longitudinal holes 604 formed in the vertical direction are formed only upwards, so that the heat is directed only upwards, thereby reducing the heat loss and improving the thermal efficiency.

In addition, it is preferable that the partition member 60 forms a long groove 606 on both sides in the longitudinal direction to provide a path through which heat moves quickly, similar to the transverse hole 602 or the longitudinal hole 604.

On the other hand, the corrugated cardboard 70 fixing the heating pipe 80 is attached to the corrugated corrugated corrugated cardboard 704 made of a corrugated corrugated surface as shown in Figures 3 to 4 attached to the drawing 702 It is made of a bonded structure on both sides, so it is strong against impact and excellent in durability, so when it is laminated in multiple layers, it can exhibit stronger impact resistance and durability. It will be preferable to stack the stacking of the corrugated cardboard 70 so as to cross each other.

In addition, a number of vents 706 formed by the corrugated corrugated corrugated sheet 702 of the corrugated cardboard 70 performs sound insulation and thermal insulation, and heat insulation.

That is, since the vent 706 of the corrugated cardboard 70 having a multilayer structure plays a role of sequentially absorbing the impact and noise generated in the upper portion, the ventilation portion 706 may finally reduce the impact and noise. It will be possible.

In addition, since a number of vents 706 of the corrugated cardboard 70 acts as a passage through which heat passes, heat generated in the heating pipe 80 can be quickly moved, so that the temperature rise at the initial heating is higher. Not only can it be done quickly, but the heat spreads throughout the entire area, resulting in even heating throughout the room.

In addition, the vent 706 may also serve to store heat for a long time, and once the heating is performed to a predetermined temperature, the vent 706 may have heat for a sufficient time with the air layer warmed up. Even if the boiler is stopped, heating due to residual heat can be maintained for a long time, thereby significantly reducing heating costs.

Thus, when the construction of the heating pipe 80 using the partition member 60 and the corrugated cardboard 70 is completed, the copper plate 90 having a thickness of approximately 0.1 to 0.2 mm is laid on the upper surface of the partition member 60 and the corrugated cardboard 70. Copper plate 90 is not only has the effect of blocking the influence of the water vein as already known, but also generated in the heating pipe 80 by using a heat conduction phenomenon that heat is transferred from the high temperature portion to the low temperature portion in contact with it. By performing the role of pulling up the heat evenly spread over the entire cardboard (70), it serves to improve the thermal efficiency.

Thus, when the construction of the structure of several layers is completed as described above, after laying the cushion pad 100, which is a heat protector for heating having a thickness of about 1 mm on the upper part, the wooden floorboard 110, which is the floor finishing material, is finally constructed on the upper part. By doing so, the ondol heating slab structure is completed, and at the time of construction of the wooden floorboard 110, in order to prevent deformation due to seasonal changes, as already known, approximately 6 to 8 mm in the side wall 20 as shown in FIG. After the construction at intervals of the wood flooring plate 110 and the side wall 20 to cover the gap between the fixed baseboard 120 to the wall, as shown in the drawing, the construction of the wood flooring plate 110 is completed.

As described above, the present invention, by applying the corrugated cardboard formed with a porous part to the construction of the ondol heating slab structure for construction, not only can reduce the noise between the floors by exhibiting excellent sound insulation, but also a combination of the partition member and the corrugated cardboard having a heat passage. By the rapid heat transfer and excellent thermal insulation, by exhibiting excellent thermal efficiency, there is an effect that can greatly reduce the heating cost.

In addition, it does not require a drying process such as mortar, and can greatly reduce the weight compared to the mortar structure to extend the life of the building, and it is possible to construct quickly and easily, thereby increasing the construction period. Not only can it be significantly shortened, it also reduces the overall construction cost.

Claims (2)

In the well-known construction underfloor heating slab structure, which is installed in the upper part of the interlayer wall 10 of the multi-family building, the heating pipe 80 for heating is fixed with a mortar and the like, and a floor finishing material is installed on the upper surface thereof. The powder-type insect repellent material 30 is sprayed to a predetermined thickness on the bottom surface of the interlayer wall 10, The upper part of the insulation film 40 is laid on the wall portion of the contact to a predetermined height to be installed in a substantially box-shaped, After putting a silver pad (50) with a cushion on the top Installing the partition member 60 in the form of a square at regular intervals, Between the partition members 60, laminated plywood compressed paper cardboard 70 in a multi-layered structure, after installing the heating pipe 80 at a predetermined interval in the intermediate layer, On the upper surface of the corrugated cardboard 70 and the partition member 60 is laid a copper plate 90 of a predetermined thickness, After stacking the cushion pad 100 for heating again on the top Finally, the construction ondol heating slab structure consisting of the floor finishing material 110, a floor finishing material The method according to claim 1, the partition member 60 forms a plurality of cross holes 602 passing through both sides at a predetermined interval, and forms a plurality of vertical holes 604 communicated with the cross holes 602 on the upper surface, the length direction on both sides Ondol heating slab structure for building characterized in that the long groove 606 is formed by