KR101430413B1 - Integrated heating panel and method for installing the same - Google Patents

Abstract

As a first aspect of the present invention, there is provided an ondol panel to be installed on a floor of a building by mortar, comprising: a unit body (20) having a main through groove (21) inwardly of a lattice arrayed annular frame (25); A connection port (40) for joining the unit bodies (20) in a plurality of rows and rows to complete a vapor deposition body; And a pipe (50) installed between the annular rims (25) on the ceramic body.
Accordingly, the heating pipe is integrally supported on the basis of the prefabricated structure, and the bonding strength with the mortar is strengthened, so that the ease of construction and durability can be improved.

Description

[0001] The present invention relates to an integrated ondol panel and a method of installing the same,

[0001] The present invention relates to an integrated ondol panel and a method of constructing the same, and more particularly, to an integrated ondol panel and a method of constructing the same, capable of achieving ease of installation and improvement of durability by strengthening the bonding force with the mortar, To an ondol panel and a construction method thereof.

Ondol panels, which are usually installed in residential buildings, have been developed in the direction of maximizing thermal efficiency during heating, reducing noise in the floor, and ensuring ease of installation. In this connection, the "Ondol panel" of Korean Patent Laid-Open Publication No. 2009-0071096, the "Ondol Panel Manufacturing Apparatus and Method" of Korean Patent Registration No. 0957811, Korean Patent Laid-Open Publication No. 2011-0110688 " Panels and their assemblies "are known.

Korean Patent Laid-Open Publication No. 2009-0071096 discloses a multi-unit ondol panel in which a plurality of units are arranged on a top surface and are separated from each other at regular intervals, and an insertion space is formed in a unit positioned at each edge; And a fixture which is seated in the insertion space and uniformly maintains the surface of the unit on-draw panel. As a result, it can be installed flatly and uniformly without ruggedly protruding parts, can be installed easily and quickly, has a high thermal conductivity, and has a uniform floor surface temperature distribution over the entire bottom surface, It is expected that the effect will be saved.

Korean Patent Registration No. 0957811 discloses a method of manufacturing a floor panel, comprising the steps of: applying an adhesive to a top surface of an ondol panel; Covering aluminum on the upper surface of the coated Ondol panel; And a bonding step of bonding aluminum to the Ondol panel by applying a line pressure to the Ondol panel, wherein the aluminum is soft and the Ondol panel comprises a plurality of units separated from each other at a predetermined interval on the upper surface, And a groove is formed between the unit and the unit to insert a hot water pipe having a predetermined diameter. Accordingly, the present invention is expected to provide an effect that the Ondol panel used for manufacturing the Ondol panel can be manufactured quickly and easily with high durability.

According to the above-mentioned prior art, a skilled artisan is required in the process of piping work after installing the Ondol panel, and since the flow is poor when the mortar is put in, the durability can not be maintained due to the poor contact state.

Korean Patent Laid-Open Publication No. 2011-0110688 discloses a foamed polystyrene insulating plate having a predetermined thickness on a concrete floor surface of an apartment floor or the like and having an inner flow path for circulating hot water to be heated, As shown in Fig. Accordingly, it is expected that the heating function including the ondol heating and the interlayer sound blocking function can be performed at the same time by including the base plate integrally formed with the internal flow path for allowing the hot water to circulate in the interior thereof.

This is a structure in which the internal flow path is integrally formed, so that the ease of construction can be expected, but the flexibility corresponding to various sizes is insufficient and it is difficult to maintain a good bonding force with the mortar in the construction.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide an integrated ondol brick panel capable of improving the durability as well as the ease of installation by strengthening the bonding strength with the mortar, And a method of constructing the same.

According to an aspect of the present invention, there is provided an on-floor panel to be installed as a mortar on a floor of a building, comprising: a unit body having a main through-groove inwardly of a lattice-shaped annular frame; A connector for combining the unit bodies with a plurality of rows and rows to complete a visco-elastic body; And a pipe installed on the viscose preparation body so as to pass between the annular rim.

In addition, according to the present invention, the unit body further includes an auxiliary through-hole on the outer side of the annular frame.

According to the present invention, the unit body is provided with a fixing groove for fixation with a piece at the center.

In addition, according to the present invention, the unit body is characterized by having a resilient jaw having a structure in which a part is cut out on the opposing face between the adjacent annular rims.

In addition, according to the present invention, the connector has a hook having a hooking structure on the bottom surface thereof.

According to another aspect of the present invention, there is provided a method of installing an ondol panel on a floor of a building, the method comprising: a first step of completing an assembled body by completing the assembled body with the unit body and the connecting hole of claim 1; A second step of placing the assembly on a floor of a building and performing piping connection; And a third step of injecting mortar to the bottom of the building.

According to the present invention, in the second step, the piping connection is completed, and then the piping is fixed to the center of the unit.

As described above, according to the present invention, the heating pipe is integrally mounted on the basis of the prefabricated structure, and the joining force with the mortar is strengthened, so that the ease of construction and the durability can be improved.

1 is a perspective view showing a unit body of an ondol panel according to the present invention;
2 is a plan view showing a unit body of the ondol panel according to the present invention.
3 is a plan view showing an assembly of an ondol panel according to the present invention.
4 is a configuration diagram showing a construction state of the ondol panel according to the present invention

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

One aspect of the present invention relates to an ondol panel that is installed on a floor of a building by mortar. Generally, the floor means a concrete slab, but it may also include a heat insulating material on the top. It is based on the method that the Ondol panel molded with synthetic resin and the heating pipe are placed on top of the floor and then treated with mortar.

According to the present invention, the unit body (20) has a main through groove (21) inside the annular frame (25) arranged in a lattice. The unit body 20 has a quadrangle structure with quadratic sides and has hooking jaws 31 at two sides and has hooking grooves 32 at two sides. The engaging jaw 31 and the engaging groove 32 are engaged with each other and are used to extend the unit body 20 in all directions. It is preferable that the plurality of annular frames 25 provided in the unit body 20 are uniformly arranged in a lattice pattern. A main through groove (21) through which mortar can flow is formed in the annular frame (25). The shape of the main through-groove 21 may be square or round, and it is preferably formed to have a maximum allowable size in terms of strength.

In addition, according to the present invention, the connector (40) combines the unit bodies (20) in a plurality of rows and columns to complete the assembled body. The unit body 20 of the adhesive body is extended in four directions using the stopping jaws 31 and the locking grooves 32, but it is advantageous to prevent the breakage of the transportation and installation process by connecting the connecting ports 40 to the corner portions.

At this time, it is preferable that the connector (40) is provided with a hook (45) having a hook structure on the bottom surface. Corner grooves 37 are formed at the four corners of the unit 20 for coupling of the connection ports 40. It is preferable that each of the corner grooves 37 has a structure in which two grooves are arranged at a spaced apart position. The hook 45 of the connector 40 is formed in the shape of an arrow and is tightly engaged with the corner groove 37. Since the present invention is carried in a state in which a plurality of unit bodies 20 are integrally joined, more tight coupling is required. The connection port 40 can be formed of the same material as the unit body 20, and it is not necessarily installed at all the corners.

In addition, according to the present invention, the piping 50 is provided so as to pass between the annular rims 25 on the vapor-deposition body. The pipe 50 is connected to the boiler pipe (not shown) by welding or fitting at the end as a heating pipe using a copper pipe or the like. When the piping 50 is installed so as to maintain the tight support between the annular rims 25 arranged on the vapor-deposition body in a lattice form, an assembly (finished product) is produced.

It is preferable that the unit body 20 of the present invention further includes an auxiliary through groove 22 on the outer side of the annular rim 25. The supplementary through grooves 22 are formed between adjacent annular frames 25 so as to have a strength allowable size and contribute to enhancement of the durability of the on-floor panel by supporting the inflow and flow of the mortar together with the main through grooves 21.

The unit body 20 of the present invention is preferably provided with a fixing groove 33 for fixing the unit body 20 at the center thereof. When the piece is fixed to the fixing groove 33, the unit body 20 is supported so as not to be lifted from the floor at the time of construction of the assembly. The fixing grooves 33 may be provided in a range of 1 to 3 in the center depending on the size of the unit body 20. [

The unit 20 of the present invention is preferably provided with an elastic jaw 35 having a structure in which a part is cut off on an opposing face between adjacent annular frames 25. The elastic jaw 35 has a structure in which a part thereof is cut at four portions of the annular rim 25 and the thickness thereof is partially increased partially. So that when the pipe 50 is fixed between the annular rims 25, the elastic jaws 35 are supported while being elastically deformed. In the case where the annular rim 25 is not provided with the elastic jaws 35, the annular rim 25 may be entirely damaged in the process of engaging the pipe 50 and the stress of the pipe 50 due to the external thermal / .

The unit body 20 of the present invention has the main through groove 21, the auxiliary through groove 22, the annular frame 25, the engaging jaw 31, the engaging groove 32, the fixing groove 33, (35), and the corner groove (37) can be injection-molded into one process. However, in the case of the elastic jaw 35, additional processing may be given as necessary.

3 shows a state in which the piping 50 is connected to the annular frame 25 while the unit 20 is extended to the left and right to complete the ODM panel assembly.

Another aspect of the present invention relates to a method of constructing an ondol panel that is installed on a floor of a building by mortar.

The first step of the present invention is a process of completing the assembled body by completing the assembled body with the unit body 20 and the connecting port 40 and joining the pipe 50. The quantity of the unit pieces 20 is determined according to the size and shape of the ondol panel and the shape of the installation area of the Ondol panel and the assembling body is completed by using the abovementioned catching jaw 31, the catching groove 32 and the connecting port 40, (50) is fixed in a zigzag form on the surface of the assembled body to complete the assembly. Since the assembly can be mass-produced for a standardized area such as an apartment, the material cost and the construction cost can be reduced.

The second step of the present invention is a process of placing the assembly on the floor of a building and performing piping connection. The assemblies are not necessarily integrated into one with respect to the construction area but may be divided into two to four. Therefore, the piping connection is not limited to the connection with the external boiler piping (not shown), and may include a process of connecting piping between the assemblies.

At this time, it is preferable that the second step is to fix the pipe 20 to the center of the unit 20 after completion of piping connection. The Ondol panel of the present invention has a structure in which the pipe 50 is integrally supported together with a plurality of unit bodies 20, so that lifting is liable to occur in the construction process. Therefore, after the Ondol panel assembly is mounted on the floor and the connection of the pipe 50 is completed, it is fixed to the fixing groove 33 of the unit body 20 by a piece. If the first type of fitting and piping connection is made, stress is increased in the piping 50 and its joints.

The third step of the present invention is a process of putting mortar on the floor of the building. In the second step, the supporting of the on-floor panel is maintained in a tight state, so that the process of injecting the mortar rapidly proceeds. Since the molten material is introduced into the main through groove 21 and the auxiliary through groove 22 of the unit body 20 to increase the bonding force, it is advantageous to maintain the durability of the ondol panel during or after the construction.

4 shows a state in which an assembly including a unit body 20 and a pipe 50 is put on the bottom of a slab S of a building and a mortar M is put in the assembly.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

20: Unit 21: main penetration groove
22: auxiliary penetration groove 25: annular groove
31: latching jaw 32: latching groove
33: fixing groove 35: elastic chin
37: Corner groove 40:
45: hook 50: piping

Claims (7)

An ondol panel mounted on a floor of a building by mortar:
A unit body (20) having a main through groove (21) inwardly of a grid arrayed annular frame (25);
A connection port (40) for joining the unit bodies (20) in a plurality of rows and rows to complete a vapor deposition body; And
And a pipe (50) installed between the annular rims (25) on the ceramic body,
Wherein the unit body (20) has an auxiliary through groove (22) outside the annular frame (25). delete The method according to claim 1,
Wherein the unit body (20) is provided with a fixing groove (33) for fixing the unit body (20) to the center thereof. The method according to claim 1,
Characterized in that the unit body (20) is provided with an elastic tongue (35) having a structure in which a part is cut off on an opposing face between adjacent annular frames (25) The method according to claim 1,
Wherein the connector (40) is provided with a hook (45) having a hooking structure on a bottom surface thereof. delete delete

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