KR200291261Y1 - Heating system using plate shaped heating panel - Google Patents

Abstract

[0001] The present invention relates to a prefabricated heating system using an ondol panel, and in order to prevent deformation due to water pressure of a heating fluid and leakage of water,

A plurality of support members for connecting the upper and lower plates, and two corner portions facing each other in one of the diagonal directions of the upper and lower plates, An Ondol panel comprising a pair of fluid connection portions for supplying and discharging a fluid, the Ondol panel comprising: a main reinforcing member arranged in a line along a direction perpendicular to a central axis of a fluid connecting portion facing a fluid connecting portion; Are disposed around the main reinforcement member to complement the function of the main reinforcement member.

Description

{HEATING SYSTEM USING PLATE SHAPED HEATING PANEL}

The present invention relates to a prefabricated heating system using an ondol panel, and more particularly, to a prefabricated heating system using an ondol panel and an ondol panel having an internal space through which a heating fluid flows.

Generally, a heating system of a residential building has a structure in which hot water serving as a heating fluid is supplied through a pipe buried in the ondol layer above the concrete slab floor to perform heating, but in recent years, an internal space through which a heating fluid flows A plate-type ondol panel is developed and expected to be applied to a prefabricated heating system.

The Ondol panel system is advantageous in that it is easier to construct and repair than a pipe-laying system and has little heat loss, thereby improving the heating efficiency. The present applicant has found that, in relation to the Ondol panel structure, Patent Application No. 2001-33918 filed on June 15, 2001 for the purpose of improving the acidity, has been filed for a "prefabricated heating system using an ondol panel".

On the other hand, there are individual heating, central heating and district heating in the way of supplying the heating fluid to the heating system of each household. In case of individual heating, the maximum hydraulic pressure of the heating fluid does not exceed 3.5Kg _f / cm ² , for the heating had a deviation of each generation pressure, the maximum pressure has reached approximately 6~7Kg _f / cm ^2.

Therefore, when the Ondol panel is installed in the household where the central heating and the district heating are applied, it is very important that the Ondol panel maintains a high withstand voltage characteristic so that the Ondol panel is not deformed under the above-described hydraulic pressure condition, and leakage does not occur.

However, in the conventional Ondol panel, the pressure resistance characteristic becomes weak around the fluid connection part where the heating fluid is supplied and discharged. This is because the internal space of the Ondol panel facing the fluid connection part is excessively secured for smooth supply and discharge of the heating fluid, It is presumed that the bonding force between the upper and lower plates constituting the panel is weakened.

Accordingly, the conventional Ondol panel may swell around the fluid connection part under the above-described water pressure condition, and may be deformed or damaged. If the Ondol panel is broken, water leaks to the damaged part and causes a failure of the heating system.

Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a prefabricated heating system for strengthening the pressure resistance characteristic of the ondol panel to prevent deformation due to water pressure and leakage of water.

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

2 is a partially cutaway perspective view of the ondol panel,

3 and 4 are partial enlarged views of the ondol panel shown in Fig. 1,

5 is a sectional view taken along line z-z in Fig.

In order to achieve the above object,

A plurality of support members for connecting the upper and lower plates, and two corner portions facing each other in one of the diagonal directions of the upper and lower plates, An Ondol panel having a pair of fluid connection parts for supplying and discharging fluid and a plurality of main reinforcement members and a plurality of auxiliary reinforcement members disposed opposite to the fluid connection parts for enhancing the pressure resistance characteristic; And a plurality of connecting members connected to each other to provide a fluid flow path between the Ondol panels.

Preferably, the main reinforcement members are arranged in a line in a direction perpendicular to the central axis of the fluid connection portion in opposition to the fluid connection portion, and the auxiliary reinforcement members are disposed around the main reinforcement member with a smaller size than the main reinforcement member .

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

FIG. 1 is a partial plan view of a prefabricated heating system according to an embodiment of the present invention. The prefabricated heating system 10 includes a plurality of Ondol panels 20 having an inner space through which a heating fluid flows, And a plurality of connecting members (30) connecting the fluid connecting portions (21) between the ODM panels (20) to provide a fluid flow path between the ODM panels (20).

The ondol panel 20 uniformly distributes the heating fluid over the entire portion of the ondol panel 20, thereby providing a uniform heating effect to the entire bottom surface. It is preferable that the Ondol panel 20 is made of a thermoplastic plastic that is easy to make and mold and has high load-bearing property.

The connection member 30 is formed of an elbow connecting the fluid connection portions 21 of the adjacent two ondol panels 20 and is made of the same thermoplastic plastic as the ondol panel 20, The heat sink 21 may be integrally fixed to the ondol panel 20 in a heat sealing process.

Here, in the assembled heating system 10 according to the present embodiment, in order to enhance the withstand pressure characteristics of the ondol panel 20, particularly withstand pressure characteristics around the fluid connecting portion 21, the main reinforcing member and the auxiliary reinforcing member Thereby preventing deformation and leakage of the ondol panel 20 due to the water pressure of the heating fluid.

Fig. 2 is a partial cutaway perspective view of the ondol panel shown in Fig. 1, Figs. 3 and 4 are partial enlarged views of the ondol panel shown in Fig. 1, and Fig. 5 is a sectional view on the z-z line of Fig.

As shown in the figure, the ondol panel 20 includes upper and lower plates 23 and 24 facing each other to have an internal space 22 through which a heating fluid flows, and a plurality of supports A pair of fluid connection portions 21 provided at two corners facing each other in one diagonal direction of the upper and lower plates 23 and 24 to supply or discharge the heating fluid, And a plurality of main reinforcing members 26A to 26C and auxiliary reinforcing members 27A to 27D arranged to face each other.

The support member 25 is composed of a pair of concave portions 23a and 24a extending from the upper and lower plates 23 and 24 toward the other plate, 23 and 24 and disperses the heating fluid uniformly distributed in the fluid connecting portion 21. [ Preferably, each of the concave portions 23a and 24a has a circular shape having an arbitrary diameter.

The support members 25 are arranged in a line at an arbitrary interval along the long side direction (x axis in the drawing) and the short side direction (y axis in the drawing) of the ondol panel 20, Axis (z-axis in the figure). At this time, the central axis (z axis) of the fluid connection portion 21 has an angle of 45 degrees with respect to the long side direction (x axis in the figure) and the short side direction (y axis in the drawing) of the Ondol panel 20.

The main reinforcement members 26A to 26C and the auxiliary reinforcement members 27A to 27D are also made of a pair of concave portions extending from the respective upper and lower plates 23 and 24 toward the other plate, The recesses constituting the main reinforcement members 26A to 26C and the auxiliary reinforcement members 27A to 27D are preferably formed in a circular shape having an arbitrary diameter.

More specifically, the main reinforcement members 26A to 26C are disposed opposite to the fluid connection portion 21 and are arranged in a direction perpendicular to the central axis (z-axis) of the fluid connection portion 21 The first main reinforcement member 26A, the second main reinforcement member 26B and the third main reinforcement member 26C are arranged side by side along a first main reinforcement member (hereinafter referred to as " first line " 26B are located at the intersection of the first line and the central axis (z-axis) of the fluid connection part 21. [

By arranging the three main reinforcing members 26A to 26C facing the fluid connecting portion 21 between the fluid connecting portion 21 and the supporting member 25 as described above, the pressure resistance characteristic around the fluid connecting portion 21 is enhanced The diameter of the main reinforcing members 26A to 26C is preferably equal to the diameter of the supporting member 25. [

The present embodiment is characterized in that the auxiliary reinforcement members 27A to 27D having diameters smaller than those of the main reinforcement members 26A to 26C are disposed around the main reinforcement members 26A to 26C to adjust the function of the main reinforcement members 26A to 26C Supplement.

The auxiliary reinforcement member is connected to a second line (BB in the drawing) spaced from the first line toward the fluid connection part 21 with reference to the first line (AA line) connecting the centers of the three main reinforcement members 26A to 26C The first auxiliary reinforcement member 27A and the second auxiliary reinforcement member 27B located outside the first main reinforcement member 26A and the third main reinforcement member 26C.

26A and 26B on the third line (indicated by the CC line in the drawing) spaced from the first line toward the inside of the ondol panel 20 in the first line with reference to the first line, And a fourth auxiliary reinforcement member 27D positioned between the second and third main reinforcement members 26B and 26C.

The third line connecting the centers of the first and second auxiliary reinforcement members 27A and 27B and the center of the third and fourth auxiliary reinforcement members 27C and 27D is formed by three main reinforcing members 26A 26C), and the second and third lines of the second and third lines are perpendicular to the central axis (z-axis) of the fluid connection portion 21. [

As described above, by arranging the three main reinforcement members 26A to 26C and the four auxiliary reinforcement members 27A to 27D around the fluid connection portion 21 to connect the upper and lower plates 23 and 24, The ondol panel 20 according to the present embodiment is strengthened in the withstand pressure characteristic around the fluid connecting portion 21 to prevent deformation and leakage of the ondol panel 20 due to the water pressure of the heating fluid.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, but can be variously modified and embodied within the scope of the claims for utility model registration, the detailed description of the design, and the accompanying drawings. It is of course within the scope of the present invention.

According to the present invention, since a plurality of main reinforcement members and a plurality of auxiliary reinforcement members are disposed around the fluid connection portion of the ondol panel, the pressure resistance property around the fluid connection portion is enhanced, and the deformation of the ondol panel due to the hydraulic pressure of the heating fluid Effectively prevents leakage.

Claims (8)

A plurality of support members for connecting the upper and lower plates, and two corner portions facing each other in one of the diagonal directions of the upper and lower plates, An Ondol panel having a pair of fluid connection portions for supplying and discharging fluid, a plurality of main reinforcement members and a plurality of auxiliary reinforcement members disposed opposite to the fluid connection portion to strengthen the pressure resistance characteristic; And a connecting member for connecting the fluid connection portions of the adjacent two ondol panels to provide a fluid flow path between the ondol panel, Wherein the main reinforcement members are arranged in a line in a direction perpendicular to the central axis of the fluid connection portion facing the fluid connection portion and the auxiliary reinforcement members are smaller in size than the main reinforcement member and disposed around the main reinforcement member . The method according to claim 1, Wherein the support member comprises a pair of recesses extending from the upper and lower plates toward the other plate. The method according to claim 1, Wherein the support members are arranged in a line at an arbitrary interval along a long side direction and a short side direction of the upper and lower plates and a central axis of the fluid connection portion. The method according to claim 1, Wherein the main reinforcement member and the auxiliary reinforcement member are composed of a pair of concave portions extending from the upper and lower plates toward the other plate. The method according to claim 1, Wherein the main reinforcement member comprises first, second and third main reinforcement members disposed along a first line perpendicular to the central axis of the fluid connection portion, and wherein the second main reinforcement member is located at an intersection of the central axis of the fluid connection portion and the first line Prefabricated heating system located. 6. The method of claim 5, A first auxiliary reinforcement member located outside the first main reinforcement member on a second line spaced from the first line toward the fluid connection portion with respect to a first line connecting the centers of the main reinforcement members; And a second auxiliary reinforcement member located outside the member. The method according to claim 6, A third auxiliary reinforcing member positioned between the first and second main reinforcing members on a third line spaced from the first line toward the inside of the ondol panel in a first line with respect to a first line connecting the centers of the main reinforcing members, And a fourth auxiliary reinforcement member positioned between the second and third main reinforcement members. 8. The method of claim 7, A second line connecting the centers of the first and second auxiliary reinforcement members and a third line connecting the centers of the third and fourth auxiliary reinforcement members perpendicular to the central axis of the fluid connection.