KR200291237Y1 - A connector for assembling heating panel and heating system having the same - Google Patents

Abstract

A prefabricated heating system using an ondol panel, for the purpose of maintaining flatness between a plurality of ondol panels,

A prefabricated heating system in which a plurality of plate-shaped ondol panels having an inner space in which heating fluid flows are continuously assembled so that the heating fluid is continuously circulated in the plurality of ondol panels, the pair of phases having a predetermined length and width, Bottom plate; Vertically between the upper and lower plates so as to have a first recessed portion in which the long and short side edges of one of the ondol panels are inserted between the upper and lower plate members, and a second recessed portion in which the long and short edges of the other ondol panel are inserted. Provided is a connector for assembling an ondol panel consisting of at least one support plate for connecting to bite the edge of at least two adjacent ondol panels, and a prefabricated heating system having the same.

Description

Connector for assembling ondol panel and prefabricated heating system with same {A CONNECTOR FOR ASSEMBLING HEATING PANEL AND HEATING SYSTEM HAVING THE SAME}

The present invention relates to a prefabricated heating system using an ondol panel, and more particularly, to an ondol panel assembly connector for maintaining flatness between a plurality of ondol panels, and a prefabricated heating system having the connector.

In general, as a heating system of residential buildings, most of the heating system supplies heating by supplying hot water that functions as a heating fluid through a pipe buried in an ondol layer above the floor of a concrete slab. The plate-type ondol panel provided is expected to be applied to the prefabricated heating system.

1 is a partial plan view of a typical prefabricated heating system, in which a plurality of ondol panels 1, 1 ′ are installed on the floor of a concrete slab, and a connecting member 2 is connected to the fluid connection 3 of one of the ondol panels 1. The fluid connection portion 3 'of the other ondol panel 1' adjacent to and integrally connects the hot water to continuously circulate inside the plurality of ondol panels 1 and 1 '. (In the drawing, the flow direction of the hot water is indicated by a dotted arrow.)

The ondol panel method has an advantage of easy construction and repair compared to the pipe buried method, there is almost no heat loss has improved heating efficiency, the present applicant has a patent application number of June 15, 2001 with respect to the ondol panel 2001-33918 filed "Prefabricated heating system using ondol panels."

On the other hand, in the prefabricated heating system using the ondol panel, as described above, the plurality of ondol panels 1 and 1 'are disposed on the concrete floor, and the fluid connection portion between the adjacent ondol panels 1 and 1' is connected using the connecting member 2. (3, 3 ') is completed by the assembly, the floor finishing material (not shown) is installed on the assembled ondol panel to complete the building floor.

However, in the above-described structure, since only the fluid connection part 3 of the ondol panel 1 is mechanically coupled to the fluid connection part 3 'of the adjacent ondol panel 1', the ondol panel 1 is connected to the fluid connection part 3. With the exception of the two diagonals, the adjacent ondol panels 1 'are positioned at a constant distance without mechanical coupling.

As a result, when the concrete floor on which the ondol panel is installed is uneven or the floor is not flat, as shown in FIG. 2, a part of the ondol panel 1 floats or inclines, thereby providing flatness with the adjacent ondol panel 1 '. You won't be able to keep it. As a result, the quality of a building floor can be reduced, such as the construction of a floor finishing material becoming difficult.

Moreover, the above-described structure uniformly adjusts the height of the bottom surface only by styrofoam (not shown) between the ondol panels 1 and 1 '. However, the styrofoam has a low strength characteristic compared to the ondol panel 1, resulting in inferior load resistance. Is holding.

Therefore, the present invention is to solve the above problems, an object of the present invention is the assembly of the ondol panel to maintain the flatness between the adjacent ondol panel even if the bottom surface is uneven or uneven on the concrete floor on which the ondol panel is installed To provide a connector and a heating system having the same.

Another object of the present invention is to provide a connector for assembling ondol panels and a heating system having the same, which provides a connector having excellent strength characteristics among a plurality of ondol panels, thereby improving the load resistance of the entire heating system including the connector.

1 is a partial plan view of a typical prefabricated heating system,

FIG. 2 is a schematic diagram of an ondol panel for explaining a height shift between ondol panels in the heating system shown in FIG. 1,

3 is a partial plan view of a prefabricated heating system according to an embodiment of the present invention,

4 is a partial cutaway perspective view of the ondol panel shown in FIG.

5 is a perspective view of the connector shown in FIG.

6 is a side view of the connector and the ondol panel shown in FIG.

The present invention to achieve the above object,

A pair of upper and lower plate members having a predetermined length and width, the first recess portion into which the long and short side edges of one ondol panel are inserted between the upper and lower plate members, and the long and short side edges of the other ondol panel It provides an ondol panel assembling connector for biting and fixing the edges of at least two adjacent ondol panels comprising at least one support plate vertically connected between the upper and lower plates to have a second recess inserted therein, and a prefabricated heating system having the same .

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

3 is a partial plan view of a prefabricated heating system according to an embodiment of the present invention, Figure 4 is a partial cutaway perspective view of the ondol panel shown in FIG.

As shown, the prefabricated heating system 10 includes a plurality of ondol panels 20 having a plate shape and an inner space 21 through which heating fluid flows, and a fluid connection portion 22 between adjacent ondol panels 20. A plurality of connecting members 30 which are connected to provide a fluid flow path between the ondol panels 20, and an edge of the other ondol panel 20 adjacent to the edge of one of the ondol panels 20 to be fixed. 20, a plurality of connectors 40 to maintain the flatness between.

The ondol panel 20 is made of a thermoplastic that is easy to manufacture and mold and has excellent load resistance, and has a plate shape to allow the heating fluid to contact the floor over a larger area.

More specifically, the ondol panel 20 has a plurality of supports connecting the upper and lower plates 23 and 24 and the upper and lower plates 23 and 24 to face the inner space 21 through which the heating fluid flows. It consists of a member 25 and a pair of fluid connections 22 which are provided at two corners of the upper and lower plates 23 and 24 facing each other in a diagonal direction to supply and discharge the heating fluid.

The support member 25 is composed of, for example, a pair of recesses 23a and 24a extending from one of the upper and lower plates 23 and 24 toward the other plate. The support member 25 prevents deformation of the upper and lower plates 23 and 24 due to an external force, and distributes the heating fluid supplied to the fluid connecting portion 22 so that the heating fluid is uniformly inside the ondol panel 20. Distribution.

The connection member 30 is formed of elbows connecting the fluid connection portions 22 of two adjacent ondol panels 20. Preferably, the connection member 30 is made of the same thermoplastic plastic as the ondol panel 20, and is the ondol panel. (20) When assembling the fluid connection portion 22 to be assembled with the ondol panel 20 by a heat fusion process while wrapping.

Thus, the ondol panel 20 is connected to the adjacent ondol panel 20 and the inner space by the connection member 30 so that the heating fluid proceeds continuously in the plurality of ondol panels 20, these plurality of ondol panels 20 is connected to the long and short side edges of the adjacent ondol panel 20 by the connector 40 so as to maintain flatness between the ondol panels 20.

Figure 5 is a perspective view of the connector shown in Figure 3, Figure 6 is a side view of the connector and the ondol panel, the connector 40 is a pair of upper, lower plate (41, 42) having a predetermined length and width, , The first recessed portion 43 into which the long and short side edges of one of the ondol panels 20 are inserted between the lower plate members 41 and 42, and the long and short sides of the other ondol panel 20 ′. It consists of a pair of support plate 45 which vertically connects the upper and lower plate materials 41 and 42 so that the edge may have a second recess 44.

Preferably, the overall height H1 of the connector 40 including the upper and lower plate members 41 and 42 and the supporting plate member 45 is equal to the central thickness T1 of the ondol panel 20 through which the heating fluid flows. The space between the ondol panels 20 is filled with the same height as the ondol panels 20.

In addition, the ondol panel 20 has a long side and a short side except for two diagonal portions in which the fluid connection part 22 is positioned such that its long side and short side edges are fitted into the first and second recesses 43 and 44 of the connector 40. The side edge thickness T2 is made smaller than the central portion thickness T1 of the ondol panel 20 through which the heating fluid flows.

As a result, the support plate 45 positioned between the upper and lower plate members 41 and 42 to determine the height of the first and second recesses 43 and 44 has its height (in consideration of the assembling margin with the ondol panel 20). H2) is made slightly larger than the long and short side edge thickness T2 of the ondol panel 20.

In addition, the two support plates 45 are spaced apart from each other to provide a space in the connector 40, and the connector 40 is structurally strengthened by this space, thereby improving load resistance. Preferably, the connector 40 is made of the same thermoplastic plastic as the ondol panel 20 to facilitate manufacturing and molding.

As shown in FIG. 3, the connector 40 having the above-described configuration is disposed between the long side edges of two adjacent ondol panels 20, and the long side edge of any one of the ondol panels 20 on the first recess 43. And the other side of the ondol panel 20 is fitted to the second recess 44 to fix the edges of the two ondol panels.

In addition, the connector 40 may be provided at a position where the diagonal portions of the four ondol panels 20 in which the fluid connecting portion 22 is not disposed face each other and may be assembled by fitting the diagonal portions of the four ondol panels 20.

That is, the connector 40 is assembled by fitting the short side edges of the two ondol panels 20 adjacent to the first recess 43, and the short side edges of the other two ondol panels 20 adjacent to the second recess 44. Assembly to secure the diagonals of the four ondol panels 20.

Thus, the heating system 10 according to the present embodiment has flatness between the ondol panels 20 adjacent to the connector 40 even when the floor surface is uneven or the uneven surface of the building on which the ondol panel 20 is installed. To make the entire heating system flat. Therefore, the heating system according to the present embodiment has an advantage of improving the floor quality by flattening the floor finish (not shown) installed thereon.

In the above description of the preferred embodiment of the present invention, the present invention is not limited to this, but can be carried out in various ways within the scope of the utility model registration claim and the detailed description of the invention and the scope of the accompanying drawings. Naturally, it belongs to the scope of the present invention.

As such, according to the present invention, even when there are irregularities on the floor of the building in which the ondol panel is installed or the floor surface is not flat, the entire heating system can be maintained even by unevenness between the two adjacent ondol panels. It has the effect of flattening and increasing the load resistance of the space between the ondol panels.

Claims (9)

A prefabricated heating system in which a plurality of plate-shaped ondol panels having an inner space in which heating fluid flows are continuously assembled to circulate the heating fluid continuously in a plurality of ondol panels. A pair of upper and lower plate members having a predetermined length and width; Between the upper and lower plate vertically between the upper and lower plate so as to have a first recess in which the long and short side edges of one of the ondol panels are inserted, and a second recess in which the long and short side edges of the other ondol panels are inserted. Connector for assembling ondol panels consisting of at least one support plate for connecting the at least two adjacent ondol panels by bite. The method of claim 1, The connector for assembling the ondol panel made of the entire height of the connector including the upper and lower plate and the support plate is the same as the thickness of the central portion of the ondol panel through which the heating fluid flows. The method of claim 1, Connector for assembling ondol panel to provide a space inside the connector consists of a pair of support plate is located at a predetermined distance from each other the support plate. The method of claim 1, Connector for assembling ondol panel made of the thermoplastic member. A plurality of ondol panels each having an upper space and a lower plate facing each other to have an inner space in which the heating fluid flows, a plurality of supporting members connecting the upper and lower plates, and a pair of fluid connection portions for supplying and discharging the heating fluid; A plurality of connection members connecting fluid connections of two adjacent ondol panels to provide a fluid flow path between the ondol panels; And And a connector having first and second recesses in which at least one support plate is vertically disposed between a pair of upper and lower plates having a predetermined length and width so that an edge of the ondol panel is inserted between the upper and lower plates. , A prefabricated heating system in which the connector secures the edges of the ondol panel to the first and second recesses to maintain flatness between the ondol panels. The method of claim 5, The ondol panel has a long side and a short side edge except for two diagonal portions in which the fluid connection part is located to have a thickness smaller than the thickness of the central portion of the ondol panel through which the heating fluid flows, so that the long side and short side edges of the ondol panel have the first, 2 Prefabricated heating system to fit in the recess. The method of claim 5, Prefabricated heating system for providing a space inside the connector consists of a pair of support plates are positioned at a predetermined distance from each other the support plate of the connector. The method of claim 5, The connector is disposed between the long side edges of two adjacent ondol panels to fix the long side edge of one ondol panel to the first recess, and the long side edge of the other ondol panel to the second recess. system. The method of claim 5, The connector is disposed between the diagonals of the four ondol panels in which the fluid connection is not located, to fix the short side edges of the two ondol panels adjacent to the first recess, and to the short side edges of the other two ondol panels adjacent to the second recess. Prefabricated heating system.