KR20150003758U - The ondol sheet - Google Patents

Abstract

The present invention relates to an ondol flooring material, and more particularly to a flooring material for ondol heating using a pebble as a filling material, wherein the ondol flooring material comprises an insulating plate disposed at the bottom of the bottom surface, A fixing member for fixing the heating hose to the first wire mesh; and a fixing member for fixing the heating hose to the upper portion of the first wire mesh so that the heat of the heating hose can be transmitted to the upper portion of the fixing member. A second wire mesh installed on the upper portion of the filling member and an upper member laid on the upper portion of the second wire mesh are provided with a mortar for reducing the amount of moisture to prevent the penetration of cement into the filling member , So that the heat of the heating pipe is transferred to the upper part of the floor by filling the cobblestone which is the filling member having higher heat transfer coefficient than the cement It said, the present invention relates to an upper-floor heating floors to uniformly transfer heat to a wide range of a couple of closely spaced wire mesh to increase the efficiency of heat transfer to.

Description

The ondol sheet

The present invention relates to a flooring material for ondol, and more particularly, it relates to a flooring material for ondol heating, particularly when a flooring material for ondol heating is filled, a pebble is filled with a filling member between heating hoses and a wire mesh is arranged, To an ondol flooring which can increase the heat transfer efficiency.

Generally, ondol is a heating device that warms the entire floor through a fireplace when it is lit in an oven. It is heated by the heat emitted by the stones that have increased in temperature. In addition to heating by conduction, It also serves convection heating.

As mentioned above, the principle of the ondol is based on the conduction of heat. By introducing a fire in the heavily straddled stone under the floor, it is heated by the heat emitted by the stones that have a higher temperature. In addition to heating by conduction, And convection heating.

In the conventional ondol floor constructed in this way, the piping for supplying the heat of the hot water is buried in the cement so that the heat supplied to the floor is not smoothly transmitted, and the thermal efficiency is lowered.

In consideration of these problems, a flooring material for ondol which can enhance the insulation effect has been proposed. As a representative example, "Ondol floor construction panel structure" was disclosed in Korean Utility Model No. 1998-015820.

As shown in FIG. 1, the conventional floor heating material of the above-mentioned type holds the heat transmitted from the heat insulating member 10 and the heating pipe for a predetermined period of time, and is made of a material mixed with clay, gravel and cement And a fixing member 30 for joining the heat insulating member 10 and the support plate 20 so that the heating pipe is inserted into the seating groove 21 provided on the upper surface of the support plate 20 ) And finished with a mortar, and then laying on the upper surface of the mortar to complete the construction.

However, the above-mentioned ondol flooring material is buried with cement in a state where pipes for supplying hot water are installed. As a result, a temperature difference occurs between a portion where hot water is supplied and a portion where hot water is discharged, There is a problem that the heating is intensified only at a part depending on the temperature variation.

In addition, there is a problem that the heating hose passes over the upper part of the paperboard over time.

In order to solve the above problem, the present invention is to fill the bottom of the floor with a cobblestone having a heat transfer coefficient higher than that of cement, and to transfer the heat of the heating pipe to the upper portion of the floor, thereby increasing the heat transfer rate.

Further, it is an object of the present invention to provide a wire mesh having fine intervals to uniformly transfer heat to a wide range.

In the ondol flooring material of the present invention, the ondol flooring material includes a heat insulation plate disposed at the bottom of the bottom surface, a first wire mesh installed on the upper surface of the heat insulation plate, a heating hose installed on the first wire mesh, A fixing member for fixing the hose to the first wire mesh; a filling member filled so that the heat of the heating hose can be transferred to the upper portion; a second wire mesh installed on the filling member; The upper member laid on the upper part of the mesh is accomplished by a mortar which reduces the amount of water to prevent the penetration of cement into the filling member.

In the present invention, it is preferable that the filling member is a pebble.

It is preferable that the second wire meshes are arranged so that the wire spacing is narrower than the first wire meshes.

Here, it is preferable that the interval of the second wire meshes is 1/10 to 1/15 of the interval of the first wire meshes.

In the present invention, it is preferable that the heat insulating plate is formed so as to be stacked in two layers when it is made of styrofoam, and that the joints of the styrofoam do not correspond to each other.

At this time, it is preferable that the upper member is poured with a non-beam mortar.

As described above, the ondol flooring of the present invention increases the heat transfer efficiency by introducing the pebble as a filling member between the heating hoses, so that the air heat is transferred from the air layer between the pebbles to the upper part, .

In addition, since the wire meshes are arranged on the upper portion of the heating hose and the filling member, the heat transmitted from the lower portion is instantaneously transferred over the entire upper range so that the range where the heating hose does not pass is also warmed, The heating efficiency of the whole floor is increased, and the effect of fuel saving (18 ~ 25%) is obtained.

Further, by placing the wire mesh on the upper part of the pebble, the cement mortar laid on the upper part does not penetrate to the place where the pebble is filled, thereby preventing heat from being transmitted

1 is a sectional view of a general ondol floor material,
2 is an exploded view of the ondol floor material of the present invention,
Fig. 3 is a sectional view of the ondol floor material of the present invention,

As shown in FIGS. 2 to 3, the ondol flooring of the present invention comprises a heat insulation plate disposed at the bottom of the bottom surface, a first wire mesh installed on the upper surface of the heat insulation plate, A fixing member for fixing the heating hose to the first wire mesh; a filling member for filling the heat of the heating hose so that the heat of the heating hose can be transferred to the upper portion; The wire mesh and the upper member laid on the second wire mesh serve as a basic feature of the present invention to reduce the amount of moisture to prevent the penetration of cement into the filling member.

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

FIG. 2 is an exploded view showing the ondol flooring according to the present invention, and FIG. 3 is a sectional view showing the ondol flooring according to the present invention.

FIG. 3 is a cross-sectional view of an ondol floor material according to the present invention. As shown in FIG. 3, the ondol floor material of the present invention includes a heat insulating plate 100, a first wire mesh 120, a heating hose 130 and a filling member 140, The two-wire mesh 150 and the upper member 160 are coupled in layers.

In the present invention, the heat insulating plate 100 can be made of styrofoam or a foaming agent.

FIG. 2 is a view showing a case where the styrofoam is applied to the styrofoam so that the styrofoam does not correspond to the styrofoam so that the heat of the upper part does not escape to the lower part.

At this time, it is preferable that the lower end is made up of 15cm or more and the upper end is made less than 10cm.

According to the above-described structure, it is possible to prevent the heat generated from the heating hose 130, which is applied to the upper portion of the heat insulating material 100, from being discharged to the lower portion.

Next, a first wire mesh 120 is placed on the heat insulating material 100 to strengthen the tensile force.

Next, the heating hose 120 is installed to be fixed to the upper portion of the first wire mesh 110.

The heating hose 120 is configured to be wound a plurality of times and is fixedly coupled to the upper portion of the first wire mesh 110 by the fixing member 135 so that the hot water moves inside.

Next, as shown in FIG. 3, the filling member 130 is filled with the same height as that of the heating hose 120 between the folded structures of the heating hose 120 installed.

In this embodiment, the filling member 130 is used to fill the pebble.

As the pebble is filled in the outside of the heating hose 120, the heat transferred from the heating hose 120 is held for a predetermined time to maintain the warmth of the heat, and the heat is transferred over the entire area.

Next, the second wire mesh 140 is placed on the upper part where the filling member 130 and the heating hose 120 are installed.

Since the second wire mesh 140 has a narrower wire spacing than the first wire mesh 120, the second wire mesh 140 can quickly transfer the heat transferred from the lower portion of the second wire mesh 140 to the upper portion So that the floor becomes warm as a whole.

As a result, the range in which the heating hose does not pass therethrough is also warmed, thereby reducing fuel consumption (18 to 25%) compared to the conventional Ondol flooring.

The distance between the first wire meshes 120 and the second wire meshes 140 is preferably 1/10 to 1/15.

In the present invention, the first wire mesh 120 has a thickness of 3 to 4 mm and the wire spacing is 15 x 15 cm. The thickness of the second wire mesh 120 is 0.3 to 0.4 mm and the wire interval is 1 x 1 cm But it does not apply.

Finally, an upper member 160 formed of cement mortar is formed on the second wire mesh 120.

When mixing the sand, cement and water, the amount of water is lower than that of general mortar when the upper member 160 is applied. When the mortar is grasped with a fist, the mortar is poured into a bevam mortar .

Accordingly, it is possible to make the cement have a spongy structure so that the penetration of the cement into the pebble after the mortar construction can be prevented, and the heat of the pebble can be prevented from being transmitted to the upper part by the casting of the mortar.

In order to alleviate the roughness of the surface of the cement applied during the construction, water is sprayed and the surface is lighted and finished to have a smooth surface.

The floor material of the present invention constructed as described above is filled with pebbles having a heat transfer coefficient higher than that of cement on the floor material so that the heat of the heating pipe is easily transferred to the upper part. And the heat transfer efficiency is increased by uniformly transferring the heat to the floor, it is possible to have a fuel saving effect of 18 to 25%.

The above embodiment is an example for explaining the technical idea of the present invention concretely, and the scope of the present invention is not limited to the above drawings and examples.

100: Insulation material 120: 1st wire mesh
130: Heating hose 135: Fixing member
140: filling member 150: second wire mesh
160: upper member

Claims (5)

In the ondol flooring,
Wherein the ondol flooring material is disposed at a bottom of the floor surface;
A first wire mesh installed on an upper portion of the heat insulating plate;
A heating hose installed on the first wire mesh;
A fixing member for fixing the heating hose to the first wire mesh;
A filling member filled so that the heat of the heating hose can be transferred well;
A second wire mesh installed on the filling member;
Wherein the upper member laid on the second wire mesh has a reduced amount of moisture to prevent the cement from penetrating into the filling member. The method according to claim 1,
Wherein the filling member is a pebble. The method according to claim 1,
Wherein the second wire mesh has a narrower wire spacing than the first wire mesh. The method of claim 3,
Wherein a spacing of the second wire meshes is in a range of 1/10 to 1/15 of a wire spacing of the first wire meshes. The method according to claim 1,
Wherein the heat insulating plate is formed by stacking two layers of the styrofoam so that the joints of the styrofoam are not mutually matched.

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