KR100966743B1 - Plastering cracks in the ground floor of ondol equipped with anti-wound insulation - Google Patents

Abstract

The present invention relates to a heat insulating material having a crack prevention device of the ondol floor plastering layer, and more particularly, can be stretched and contracted to the contraction action and stress of the ondol floor at a constant height between the heat insulating material and the ondol floor installed on the concrete floor. The present invention relates to a heat insulating material having a crack prevention tool of a plastered layer of on-floor floor, which can prevent fine cracks and easily fix a boiler pipe. The present invention relates to an upper side of a concrete slab forming a floor in a reinforced concrete building. In the heat insulating material installed to prevent the noise and insulation between floors, a volume portion made of a constant shape is repeated continuously, and a crack preventing device formed by connecting a portion formed between the volume portion and the volume portion is embedded in the heat insulating material and is not buried. The part of the crack protection which is not made is formed by protruding to a certain height It has its features.

Description

Pasting cracks in the ground floor of Ondol equipped with anti-wound insulation}

The present invention relates to a heat insulating material having a crack prevention device of the ondol floor plastering layer, and more particularly, can be stretched and contracted to the contraction action and stress of the ondol floor at a constant height between the heat insulating material and the ondol floor installed on the concrete floor. The present invention relates to a heat insulating material provided with crack prevention ports of the underfloor plastering layer which can be easily adapted to prevent fine cracks and to easily fix the boiler pipe.

In general, in order to prevent interlayer noise on the concrete slab that forms the floor in reinforced concrete buildings, interlayer noise materials or styrofoam and foam concrete are installed in order.

In the case of laying the cement mortar on the floor as described above or in the case of the ondol floor, the heating coil was piped and cement mortar was installed higher than the heating coil to form a plaster layer. However, such a plaster layer has large and small cracks due to the thermal mechanical deformation due to the inherent properties of concrete.

In particular, the floor plastering layer at the edges and parts of the wall had a different shrinkage direction under the influence of the wall, causing cracks, and the crack continued continuously. Such cracks have a problem in that heat is intensively escaped during heating so that the floor covering laid on the floor is damaged along the crack direction.

Therefore, the cracks generated in the plastering layer were repaired before the flooring was constructed, but the cracks were continuously generated and the cost of the continuous repair was high.

In order to solve the above problems, when constructing the floor or ondol floor of the building, a mesh-type net was installed in the field to prevent cracking due to dry shrinkage of the plaster layer.

The crack prevention device as described above served to suppress cracking of the plastering layer in response to the shrinkage action and the stress of the plastering layer. However, the crack prevention device, that is, the mesh type mesh is simply installed in a stacked form on the upper part of the insulation and the heating coil is installed on the upper part. After the installation to be fixed to each other by the tie to form a plastering layer to construct the ondol floor.

However, when the coils for heating are fixed to each other in a mesh-type mesh and fixedly installed, the mesh-shaped mesh installed on the upper part of the insulation material flows when the mortar or lightweight foam concrete is poured in order to form a plaster layer, and the heating coil is twisted as a whole. There is.

In addition, since the crack prevention device made of mesh type mesh installed on the insulation material is attached to the surface of the mortar or lightweight foamed concrete in which it is placed, it does not fully accommodate thermal mechanical deformation due to the inherent characteristics of concrete, thereby preventing cracking completely. I could not.

In addition, the crack preventing device was difficult to be buried in a certain height of the mortar layer, there is a problem that can not be solved at the same time as well as large and small cracks do not apply to various corners.

Accordingly, the present invention has been made in view of the above-mentioned problems of the prior art, and the crack prevention tool is installed in part of the insulation material, and the crack prevention tool is installed to protrude at a certain height in the ondol floor plastering layer during curing of the ondol floor. The heating coil is easy to install, and the heating coil can be installed close to the floor of the ondol to maximize the effect of the ondol, and some of the crack protection protruding from the insulation is buried in the plastering layer, causing large and small cracks due to shrinkage and stress. The purpose of the present invention is to provide a thermal insulation material having a crack prevention hole of the ondol floor plastering layer which can prevent the cracking and is effectively buried in the ondol floor plastering layer.

An object of the present invention described above is a heat insulating material which is installed to prevent and insulate the interlayer noise to the upper side of the concrete slab to form a floor in a reinforced concrete building, the volume portion made of a constant shape is repeated repeatedly between the volume portion and the volume portion The crack prevention device formed by the connection part is achieved by the insulating material provided with the on-floor plastering layer crack prevention device, characterized in that the part of the crack protection device which is partially embedded in the heat insulating material and is not buried is formed to protrude to a certain height. .

On the other hand, the volume is achieved by a heat insulating material provided with a crack prevention of the underfloor plastering layer, characterized in that any one of a circular, rhombus.

On the other hand, the volume is achieved by a heat insulator provided with crack prevention of the underfloor plastering layer, characterized in that less than 1/2 is embedded in the heat insulator.

On the other hand it is achieved by a heat insulating material provided with a crack preventing device of the underfloor plastering layer, characterized in that the crack preventing device is installed so as to cross.

On the other hand, the intersecting of the crack preventing device is achieved by a heat insulating material provided with a crack preventing device of the underfloor plastering layer, characterized in that the connection portion is made.

In the present invention, a part of the crack prevention part is embedded in the insulation material and is installed so that the crack prevention part protrudes to a certain height in the ondol floor plastering layer during curing of the ondol floor, so that the installation of the heating coil is easy and the heating coil is removed from the ondol floor. It can be installed in close proximity to maximize the effect of ondol, and some of the crack prevention protrusions protruding from the insulation are buried in the plastering layer to prevent large and small cracks caused by shrinkage and stress. It is effective in preventing cracks.

1 is an exploded perspective view showing a structure of a heat insulating material to which the technique of the present invention is applied.
Figure 2 is a perspective view showing the structure of the heat insulating material to which the technique of the present invention is applied.
3 is a cross-sectional view taken along the line AA of FIG.
4 is a cross-sectional view taken along line BB of FIG. 2.
5a to 5d are perspective views showing another embodiment of the present invention.
6 is a cross-sectional view showing an installation state of the present invention.

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

1 is an exploded perspective view showing the structure of the heat insulator to which the technique of the present invention is applied and FIG. 2 is a combined perspective view showing the structure of the heat insulator to which the technique of the present invention is applied. In the heat insulating material installed to prevent the inter-layer noise and to insulate the upper side of the slab, the volume portion 11 having a constant shape is repeated repeatedly, and the connecting portion 12 is formed between the volume portion 11 and the volume portion 11. The crack prevention device 10 is made of a portion is embedded in the heat insulating material 20 and the portion of the crack prevention device 10 is not buried is a structure formed to protrude to a certain height.

As shown in FIG. 5, the volume part 11 may use a crack preventing device 10 formed of any one of a rectangle, a circle, and a triangle. Meanwhile, as shown in FIG. 6, the crack preventing devices 10 and 10a may be installed to intersect with each other. Preferably, the crack preventing devices 10 may be intersected with each other. Meanwhile, as shown in FIGS. 3 to 4, it is preferable that the volume part of the crack preventing device 10 is embedded in the heat insulating material 20 at 1/2 or less.

Referring to the state of use of the present invention made as described above attached to the concrete slab (T) forming a floor in the reinforced concrete building as shown in Figure 7 is installed to prevent the insulation and insulation between the floors (20) Install).

At this time, the heat insulator 20 is usually used foam foam made of foam and the heat insulator 20 is filled in the upper side of the concrete slab (T) forming the floor in the reinforced concrete building. The volume 11 of the crack preventing device 10 is buried in the upper portion of the heat insulating material 20 installed above the concrete slab T forming the floor in the reinforced concrete building so that the heating pipe is not buried in the heat insulating material 20. It is installed by a predetermined gap spaced apart by the crack prevention device (10).

Therefore, when the heating pipe is installed in the floating state from the heat insulating material 20 by the crack prevention device (10) by installing the cement mortar to form a plaster layer, the crack prevention device (10) and heating for the interior of the plaster layer The pipe S is buried together.

When the heating pipe (S) is buried in the plastering layer is installed to prevent the separation of the heating pipe (S) and to minimize the heat loss when providing a high temperature heat, and also the crack prevention port 10 is installed Buried in the plastering layer can prevent large and small cracks caused by shrinkage and stress.

In this case, as shown in FIG. 6, if the crack preventing devices 10 and 10a are installed to intersect in the horizontal direction and the vertical direction, the crack preventing devices may be further prevented due to shrinkage and stress. 10) may be any one of a metal material and a synthetic resin material.

The present invention has been described above with reference to a preferred embodiment, which is merely an example and is not intended to limit the present invention, and those skilled in the art to which the present invention pertains should not depart from the essential characteristics of the present invention. It will be appreciated that various modifications and applications are not possible.

10,10a: Crack protection
11: volume part
12: connection part
20: insulation

Claims (5)

In the heat insulating material which is installed in the reinforced concrete building to prevent and insulate the interlayer noise above the concrete slab forming the floor,
A volume part made of a constant shape is continuously repeated, and a crack prevention device formed by connecting a portion is formed between the volume part and the volume part, and a part of the crack protection tool that is not buried is formed to protrude to a constant height. Insulation material with a crack prevention of the on-floor plastering layer.
The heat insulating material with a crack prevention opening of the underfloor plastering layer of any one of Claim 1 which is any of rectangular, circular, and a rhombus triangle.
The heat insulating material with a crack prevention opening of the underfloor plastering layer of Claim 1 characterized by the above-mentioned.
The heat insulating material according to claim 1, wherein the crack preventing tool is installed to intersect with the crack preventing tool.
The heat insulating material with a crack prevention tool of the underfloor plastering layer of Claim 4 characterized by the crossing of the said crack prevention tool in a connection part.

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