KR100356035B1 - Structure for contruction of floor heater - Google Patents

Abstract

The present invention relates to an ondol structure, and more particularly, to an ondol structure that can improve the conventional ondol structure to lighten its structure and prevent cracking of the floor, and the concrete 10 as a base; Schiropol 20 is placed on the upper surface of the concrete (10); A polyethylene film 30 covering the styropol 20; A support mesh 41 press-fitted into the sciropole 20 and a mesh-shaped iron mesh 40 spaced a predetermined distance from an upper surface of the sciropole 20; An excel pipe 50 that is piped on the iron mesh 40; It is composed of a mortar (60) covering and covering the Excel pipe 50, by eliminating the use of gravel or foam concrete of the conventional ondol structure and by using styropol and iron mesh, the structure can be reduced in weight, long-term It is an invention that can prevent the cracking of the floor due to the weakening of the structure after the elapse of time, and can be easily installed in the field.

Description

Ondol structure {Structure for contruction of floor heater}

The present invention relates to an ondol structure, and more particularly, to an ondol structure which can improve the conventional ondol structure to reduce its weight and prevent cracking of the ondol floor.

Traditionally, heating in Korea uses the ondol method to heat the room using convection caused by heating the floor, and FIGS. 1 to 2 show a conventional ondol structure. In the conventional ondol structure, as shown in FIG. 1, first, the Schiropol 2 is laid on the upper side of the foundation concrete 1, and the gravel 4 is laid after covering the polyethylene film 3. The upper side of the gravel (4) is to pipe the Excel pipe (5) through which hot water passes, and then consists of a structure to finish with the mortar (6). Alternatively, as shown in FIG. 2, foam concrete 2 ′ having a predetermined thickness is laid on the upper side of the foundation concrete 1, and the structure in which the excel pipe 5 is finished on the foam concrete 2 ′ with the mortar 6 after piping. It consists of.

However, in such a conventional ondol structure, since the structure as shown in FIG. 1 stacks gravel on the upper side of the foundation concrete, there is a problem of increasing a building load in a high-rise house such as an apartment, and the structure as shown in FIG. If aerated concrete passes for a long time, there is a problem that a chemical change occurs and it does not support a load applied to the floor and cracks and cracks occur.

The present invention is to solve the above-mentioned drawbacks, and to provide a lightweight construction and easy construction ondol structure that can prevent the uniformity of the floor.

The ondol structure of the present invention includes a concrete mesh as a foundation, a styropole stacked on an upper surface of the concrete, a mesh of iron mesh having a support portion press-fitted into the styropole, and an excel pipe that is a pipe on the upper side of the iron mesh. It is achieved by the ondol structure, characterized in that composed of the mortar to cover the Excel pipe.

1 to 2 is a cross-sectional view showing a conventional ondol structure.

3 is a cross-sectional view showing an ondol structure according to the present invention.

Figure 4 is a perspective view showing the ondol structure according to the present invention.

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

10: concrete 20: Schiropol

30: polyethylene film 40: iron mesh

50: Excel Pipe 60: Maltar

3 to 4 is a view showing an embodiment of the present invention, Figure 3 is a cross-sectional view showing an ondol structure according to the present invention, Figure 4 is a cutaway perspective view showing an ondol structure according to the present invention.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 3, the ondol structure of the present invention, the concrete 10 as a base; Schiropol 20 is placed on the upper surface of the concrete (10); A mesh of iron mesh 40 having a support portion 41 press-fitted into the sciropol 20; An excel pipe 50 that is piped on the iron mesh 40; It is characterized by consisting of the mortar (60) to cover and close the Excel pipe (50).

In addition, by applying the polyethylene film 30 on the upper surface of the sciropol 20 it is possible to prevent the mortar (60) penetrates into the sciropol during construction.

In particular, the iron mesh 40 is enough to form a predetermined space (approximately 10-20 mm between the iron mesh and the polyethylene film) and the polyethylene film 30 applied to the upper surface of the Schiropol 20 It consists of a support portion 41 having a length of. In addition, the spacing of the iron mesh 40 is configured to be approximately 50mm so that it can sufficiently support the load applied to the floor, the support portion 41 of the iron mesh is pressed into the sciropol 40 to the base concrete As the contact is supported, when the finish with the flowable mortar, the mortar fills up to the lower side of the iron mesh supporting the excel pipe, thereby having a more rigid structure against the load applied from the upper side.

Such a method for constructing an ondol structure of the present invention includes a first step of depositing a sciropol on the foundation concrete; A second step of covering the polyethylene film on the sciropol; A third step of installing an iron mesh having a support portion pressed into the sciropole; A fourth step of piping an excel pipe through which hot water passes over the iron mesh; It consists of the fifth stage of finishing in Maltar.

As described above, the ondol structure of the present invention has a concrete as a foundation, a styropole stacked on an upper surface of the concrete, a mesh of iron mesh having a support portion press-fitted into the styropole, and an excel pipe to be piped on the upper side of the iron mesh. And, it is composed of the mortar covering the Excel pipe, by using the Schiropol and iron mesh without the use of gravel or foam concrete of the conventional ondol structure, the structure can be reduced in weight, the structure of the floor as the structure is weakened It is an invention that can prevent cracking and can be easily installed on site.

Claims (3)

Foundation concrete; Schiropol is placed on the upper surface of the concrete; A polyethylene film covering the sciropol; A mesh of iron mesh provided with a support part press-fitted into the sciropole and spaced apart from the upper surface of the sciropol by a predetermined distance; An excel pipe that is piped to an upper side of the iron mesh; Ondol structure, characterized in that consisting of the mortar is covered by covering the Excel pipe. delete delete