KR101864428B1 - Dry Ondol panel for heating room and thereof manufacturing method - Google Patents

Abstract

The present invention relates to a dry type Ondol panel for hot water heating and a method of manufacturing the same. More particularly, the present invention relates to a dry type Ondol panel for hot water heating, in which a hemispherical protrusion (31) protrudes upward at equal intervals in the horizontal and vertical directions, ; Filling the mold 30 with the composite concrete mortar; A pipe guiding portion 21 formed to be recessed downward at a predetermined depth on the plate surface so that the hot water pipe 40 is placed and a buried protruding portion 22 formed so that one end is bent downward in different directions in the pipe guiding portion 21 Inserting the heat conduction plate 20 downward from the upper surface of the composite concrete mortar layer; A step of simultaneously demolding the pipe block 10 and the heat conduction plate 20 constituted by the composite concrete mortar layer integrally joined from the mold 30 after the heat conduction plate 20 and the composite concrete mortar are integrally formed by compression molding, A rectangular pipe block 10 formed of a composite concrete mortar layer and having a bottom surface between the hemispherical grooves 11 formed to have a minimum surface area, the hemispherical grooves 11 being horizontally and vertically spaced equidistantly; A pipe guiding portion 21 for bending the plate surface of the flat plate downwardly to a predetermined depth so that the hot water pipe 40 is placed thereon and a plurality of embedding projecting portions 22 for cutting down the plate surface and bending one end downward in different directions And a heat conductive plate 20 covering the upper surface of the pipe block 10 so as to be buried.

Description

Technical Field [0001] The present invention relates to a dry Ondol panel for hot water heating,

The present invention relates to a dry type Ondol panel for hot water heating and a method of manufacturing the same. More particularly, the present invention relates to an Ondol panel for hot water heating, And a method of manufacturing the same.

Generally, the Ondol panel for hot water heating is a heating structure for heating hot water passing through the hot water pipe while allowing the hot water pipe passing hot water to be seated.

Ondol is divided into wet Ondol which finishes the Ondol surface with cement mortar and dry Ondol which is finished with dry material such as floorboard, slab, and steel sheet according to the construction method.

That is, the wet Ondol forms a foamed concrete layer on a heat insulating layer formed on the slab, a pipe of hot water pipe is formed on the foamed concrete layer, and a concrete mortar is covered so that the hot water pipe is covered with the upper part of the foamed concrete layer , And the upper part of the concrete mortar is covered with a finishing material such as a wooden floor or a long board.

On the other hand, the dry-type ondol is installed on the top of the moisture-proof material, which is made of a concrete panel, a synthetic resin, or a material such as yellow soil, And the upper part of the heating panel is covered with the finishing material.

In the case of Patent No. 0663693 (titled "Dry Hot Water Ondol Construction Method", Dec. 26, 2006), the sound insulation and leveling layer, the horizontal holding plate and the sound absorbing panel are laminated on the floor, And the heat storage and sound insulating plate having the hot water tube support grooves formed therein is horizontally held with the hot water tube support plate, And a plurality of projections are formed longitudinally and horizontally on the bottom surface of the lumbar region to form independent pores and the upper surface of the hot water pipe support plate is adhered to the upper surface thereof.

In this conventional technique, a recess is formed at a certain depth to the upper part of the hot water tube support plate, and the recess is filled with the sensible heat storage material, so that the sensible heat storage material is covered at the side and bottom. The heat generating area of the sensible heat storage material that is heated later is reduced, and the heat generating effect transferred to the finish material is lowered.

In addition, in the prior art, a plurality of protrusions forming a cavity are formed longitudinally and laterally on the bottom surface of the hot water tube support plate. However, these protrusions are formed longitudinally and laterally so that a relatively large contact area is formed, There is a problem that can not be done.

In addition, in the conventional dry-type ondol system, a low-density material and a material having a low dynamic modulus are used for eliminating the interlayer noise, thereby causing a walking feeling problem due to the reflection sound caused by shock vibration on the floor during walking, There are physical conflicts to solve at the same time.

Registration No. 0663693 (2006.26.)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hot-water heating Ondol panel for maximizing the energy saving effect by allowing the heat of a heat conductor to be directly transmitted to a floor of a heating unit.

It is another object of the present invention to provide a method for manufacturing an ondol panel for hot water heating, which is capable of eliminating interlayer noise and walking feeling problems in a multi-family house.

In order to achieve the above-mentioned object, the present invention is characterized in that a hemispherical groove is upwardly recessed at equal intervals in the lateral and longitudinal directions on the bottom surface, and a lower end surface between the hemispherical recesses is formed to have a minimum area, Of the piping block; And a plurality of embedding projections, one end of which is bent downward in different directions, are buried, so that the upper surface of the pipe block is bent And a heat conductive plate provided so as to cover it.

In the above-described construction, the piping block includes a pair of hemispherical grooves that integrally include leg portions for allowing the head portion of the arcuate shape to face downward and to be embedded in the piping block at a predetermined height from the center of the upper surface, Allow rubber to be buried.

It is preferable that the pipe guiding portion of the heat conduction plate is formed to have a depth equal to or greater than the diameter of the hot water pipe and the interval of the upper opening portion of the pipe guiding portion is formed to be equal to or smaller than the diameter of the hot water pipe.

According to another aspect of the present invention, there is provided a method of fabricating a semiconductor device, the method comprising: providing a rectangular shaped mold having a hemispherical protrusion protruding upwardly at equal intervals in the lateral and vertical directions; Filling the mold with the composite concrete mortar; A heat conduction plate is provided so that a buried protrusion formed so that one end thereof is bent downward in different directions in the direction of the pipe is embedded downward from the upper surface of the pipe block, Allowing the composite concrete mortar to rest on the filled top surface; The heat transfer plate and the composite concrete mortar are integrally formed by compression molding, and then the composite concrete block and the heat conduction plate integrally joined from the mold are demolded.

The dry Ondol panel for hot water heating according to the above-described construction is very simple to manufacture, and can be directly heat-transferred to the bottom material through the heat conduction plate while minimizing heat loss, thereby maximizing heat transfer efficiency.

In addition, the dry-type Ondol panel for hot water heating of the present invention forms semi-spherical grooves on the lower surface of the composite concrete block, thereby saving the material and enhancing the structural stability and maximizing the heat insulation effect by the air layer. The vibration of the floor impact sound is buffered by a plurality of anti-vibration rubbers mounted on the concrete sleeve while a plurality of anti-vibration rubbers are partially embedded in the floor surface and are integrally coupled to each other, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional perspective view of a hot-
2 is a cross-sectional perspective view illustrating a configuration in which a vibration-proof rubber is embedded in a piping block in a hot-water heating oven floor heating panel according to the present invention.
3 is a bottom perspective view illustrating a heat conduction plate of the Ondol panel for hot water heating according to the present invention.
4 is a partial enlarged cross-sectional view of the heat conduction plate of the Ondol panel for hot water heating according to the present invention
5 is a side cross-sectional view of a mold for manufacturing an ondol panel for hot water heating according to the present invention
6 is a side sectional view showing a configuration in which a packing groove for burying an anti-vibration rubber is formed on the Ondol panel for hot water heating according to the present invention.
7 is a side cross-sectional view showing a construction in which concrete is placed in a mold for manufacturing a hot-water heating oven panel according to the present invention
8 is a side cross-sectional view showing a state in which the heat conduction plate is embedded in the upper portion of the composite concrete mortar layer of FIG.
9 is a side cross-sectional view illustrating a configuration in which ondol heating is performed using the hot-water heating oven floor panel according to the present invention

Hereinafter, a preferred embodiment of a dry heat panel for hot water heating according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a half sectional view of a dry type Ondol panel for hot water heating according to the present invention. The present invention is a structure comprising a pipe block 10 and a heat conduction plate 20.

The piping block 10 of the present invention has a structure composed of a composite concrete mortar layer having a predetermined thickness. The bottom surface of the piping block 10 is formed such that the hemispherical grooves 11 are upwardly recessed at equal intervals in the horizontal and vertical directions.

At this time, adjacent hemispherical grooves 11 are integrally connected to each other at a lower end or an upper portion thereof, but the hemispherical grooves 11 are formed to have a circular cross-section having a constant diameter.

2, between the hemispherical grooves 11 formed at the bottom of the piping block 10 as shown in FIG. 2, a head portion 120 having an arcuate lower surface and a flat surface of the head portion 120, It is also preferable that the leg portion 121 of the vibration proof rubber 12 formed as the leg portion 121 protruding upward at a predetermined height from the center of the surface is integrally fixed while being embedded in the pipe block 10.

In this case, it is most preferable that the head portion 120 of the vibration proof rubber 12 is formed such that the lower surface of the circular arc protrudes downward from the lower end of the hemispherical groove 11.

In addition, it is preferable that the leg portion 121 of the vibration-proof rubber 12 is formed so that the diameter gradually increases from the lower end portion to the upper end portion so as to prevent downward departure.

The upper surface of the pipe block 10 is covered by the heat conduction plate 20 having a good thermal conductivity.

The heat conduction plate 20 of the present invention is formed as a flat plate having a predetermined thickness and the heat conduction plate 20 is formed to have the same size as the upper end face size of the piping block 10.

3 is a bottom perspective view illustrating a heat conduction plate of the Ondol panel for hot water heating according to the present invention.

As shown in the drawing, the heat conduction plate 20 is formed of a flat plate, and the pipe conduit 21 is formed on the heat conduction plate 20 so as to bend the plate surface downwardly curved downward at a predetermined depth in one direction. So that one or a pair is formed parallel at regular intervals.

It is most preferable that the depth of the pipe guiding portion 21 formed in the heat conduction plate 20 is equal to or larger than the diameter of the hot water pipe.

In the heat conduction plate 20, a plurality of buried protrusions 22 are formed on the surface of the plate other than the pipe holding portion 21.

The buried protruding portion 22 of the present invention has a configuration in which a plurality of positions are cut in a rectangular shape on a plate surface while only one end is cut so that a portion that is not cut is bent downward at a portion cut off by an axis.

At this time, the embedding projections 22 may be formed to be bent downward in one direction, but more preferably be bent in various directions different from each other.

That is, the buried protrusions 22 of the heat conduction plate 20 are formed in a rectangular shape in different directions from each other on the plate surface, and are bent in different directions so that the upper surface of the pipe block 10 made of composite concrete mortar Direction.

Especially. The buried protruding portion 22 serves not only to flow in the horizontal direction in the piping block 10 but also to prevent upward displacement of the concrete block mortar of the piping block 10 from the piping block 10 when the mortar is cured.

In order to more strongly prevent upward displacement of the buried protruding portion 22, it is preferable that the lower end of the buried protruding portion 22 is horizontally bent to have a predetermined thickness again as shown in FIG.

The Ondol panel for hot water heating according to the present invention as described above is manufactured through the following process.

In order to manufacture the dry-type ondol panel for hot water heating according to the present invention, a mold 30 as shown in Fig. 5 is firstly provided as the size of the ondol panel to be manufactured.

The mold 30 for the present invention is an upwardly open box-shaped structure having a square shape or a rectangular shape with a predetermined height.

In such a mold 30, the hemispherical protrusion 31 is projected upward from the bottom surface at equal intervals in the horizontal and vertical directions.

The lower ends of the protrusions 31 may be formed so as to be spaced apart from each other by a predetermined width as shown in the drawing, but it is most preferable to directly connect the ends.

However, it is also possible to form a hemispherical packing groove 32 having a constant diameter at the center between the four protrusions 31 adjacent to each other in the mold 30 as shown in FIG.

When the mold 30 as described above is provided, hemispherical packing grooves 32 are formed between the four protrusions 31 of the mold 30 so that the composite concrete mortar is filled from the top of the mold 30 as shown in FIG. The anti-vibration rubber 12 having the hemispherical head portion 120 is inserted into the hemispherical packing groove 32 to be inserted thereinto before the composite concrete mortar is filled.

The leg portion 121 is formed integrally with the upper portion of the head portion 121 of each vibration damping rubber 12 so as to have a constant diameter and height and is integrally formed with the bridge portion 121. The composite concrete mortar is filled with the vibration- .

At this time, the composite concrete mortar to be filled in the formwork 30 can be made light weight and high strength by mixing with Portland cement, cement admixture, sand, stone, lightweight aggregate, water and the like.

When the composite concrete mortar is filled up to the height of the upper end of the mold 30, the heat conduction plate 20 is placed on the upper surface of the composite concrete mortar layer 33 as shown in FIG.

At this time, the heat conduction plate 20 is provided with a pipe holding portion 21 for cutting the plate surface downwardly to a predetermined diameter, a buried protruding portion 22 for cutting the plate surface in different directions, Is formed.

The pipe conduit portion 21 and the buried protruding portion 22 are inserted into the composite concrete mortar layer 33 while the heat conduction plate 20 is placed on the upper surface of the composite concrete mortar layer 33.

In this state, when the composite concrete mortar is cured for a predetermined period of time, the pipe inner surface portion 21 embedded in the composite concrete mortar layer 33 and the buried projecting portion 22 are firmly fixed.

When the piping block 10 and the buried projecting portion 22 of the heat conduction plate 20 are embedded in the piping block 10 so as to be integrally fixed to the piping block 10 and the heat conduction plate 20 ).

The dry Ondol panel of the present invention, which is manufactured by demolding, is assembled and interconnected while the side end faces are closely attached to the upper part of the concrete slab when the ondol is applied.

9, the dry-type ondol panel of the present invention is arranged on the upper side of the concrete slab 50 in such a manner that the dry-type ondol panel of the present invention is adhered to the upper surface of the concrete slab 50, So that the hot water pipe 40 is piped.

At this time, the hot water pipe 40 forcibly pressurizes the hot water pipe 40 from the upper part of the heat pipe 20 and inserts the hot water pipe 40 into the pipe inner wall 21. The heat pipe 20, 60 to finish the ondol construction.

It is preferable that the flooring material 60 is made of a panel-like structure such as an ondol panel by using a material such as wood or marble.

The heat generated from the hot water pipe 40 flows through the pipe inner wall portion 21 and the upper heat conductive plate 20 and the floor material 60 together with the heat To the piping block (10).

Therefore, heat is generated in the entire heat conduction plate 20 through the pipe inner wall portion 21, heating is performed through the flooring 60 by the generated heat, and at the same time, For a long time.

Also, since the piping block 10 forms a certain space by the concrete slab 50 and the hemispherical grooves 11 having a constant diameter, the heat loss due to the surface contact with the concrete slab 50 can be reduced.

Particularly, the hemispherical groove 11 prevents the rapid heat loss from the piping block 10 by collecting the heat radiated from the piping block 10, and the heat accumulated in the piping block 10 is transmitted to the heat- (20) to the floor material (60) at the upper part thereof so as to increase thermal efficiency.

In addition, the present invention makes it possible to heat faster at a low temperature by improving the thermal conductivity through the heat conduction plate 20 and the simplified structure.

The area of contact between the hemispherical grooves 11 and the concrete slab 50 is minimized while the anti-vibration rubber 12 is embedded between the four hemispherical grooves 11, If the hemispherical head is seated on the concrete slab 50, the contact area with the concrete slab 50 can be minimized, so that the heat loss can be further reduced and the shock transmitted from the upper part to the concrete slab 50 can be buffered So that the noise can be minimized.

On the other hand, since the thickness of the present invention can be reduced by a more simplified structure than the conventional one, the present invention has an economical advantage in terms of material cost and weight in terms of transportation and workability.

10: piping block 11: hemispherical groove
12: Anti-vibration rubber 20: Heat conduction plate
21: pipe pipe portion 22: buried projecting portion
30: mold 31: hemispherical projection
32: packing groove 40: hot water pipe
50: Concrete slab 60: Flooring

Claims (7)

A square pipe block having a bottom surface formed between the hemispherical grooves and having a minimum area;
And a plurality of embedding projections for cutting the plate surface so that one end thereof is bent downward in different directions so as to be buried in the pipe block, A heat conduction plate provided to cover an upper surface of the piping block; And
And a leg portion that is formed integrally with the head portion so as to protrude upward at a predetermined height from an upper surface of the head portion, wherein the leg portion is formed between four adjacent hemispherical grooves in the piping block, And the head portion is protruded downward from the lower end of the hemispherical groove to be seated on the concrete slab,
The lower end bent downwardly is bent horizontally again to prevent the upward projecting of the buried protrusion,
Wherein the leg portion is formed to have a shape gradually increasing in diameter from a lower end portion to an upper end portion so as to prevent downward departure.
delete The method according to claim 1,
Wherein the pipe guiding portion of the heat conduction plate is formed at a depth equal to or greater than a diameter of the hot water pipe.
The method according to claim 1,
And the interval of the upwardly opening upper end of the pipe cistern is formed to be equal to or smaller than the diameter of the hot water pipe.
Shaped protrusions protruding upwards at equal intervals in the horizontal and vertical directions on the bottom surface, and between the four hemispherical protrusions adjacent to each other, a hemispherical packing having a constant diameter at the center is formed, Providing a grooved mold frame;
A step of fitting a head portion into the packing groove by providing a hemispherical head portion on one side and a leg portion integrally formed on the other side and gradually increasing in diameter from a lower end portion to an upper end portion;
Forming a pipe block by filling a concrete mold mortar into a mold frame;
And a lower end portion bent downwardly so as to prevent the upper end of the hot water pipe from being bent upwardly and downwardly in a direction different from that of the pipe pipe, And a heat conduction plate made of a bent convexly bent portion so that the thermally conductive plate is placed on the upper surface filled with the composite concrete mortar so that the buried protrusion is embedded downward from the upper surface of the pipe block to be molded;
A step of demolding the composite concrete block and the heat conduction plate integrally joined from the mold after compression-molding the heat conduction plate and the composite concrete mortar integrally;
Wherein the hot-rolled panel is heated to a predetermined temperature.
delete The method of claim 5,
Wherein the anti-vibration rubber comprises a semi-spherical head protruding downwardly from a lower end of the hemispherical groove.

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