KR200317950Y1 - Heating panel - Google Patents

Abstract

The present invention relates to a heating panel, for the purpose of changing the flow path of the heating fluid flowing through the heating panel to improve the pressure resistance performance, and arranged at an arbitrary interval so as to have an internal space in which the heating fluid flows, the edge is Upper and lower plates are integrally sealed; Guide members extending from each upper and lower plate toward the other plate to connect the upper and lower plates; It has a pair of ports provided at two opposite corners of the upper and lower plates facing and supplying and discharging the heating fluid, and the flow of the heating fluid is heated from one port into which the heating fluid is introduced. It provides a heating panel running along any one direction through the guide members up to the other port through which the fluid is discharged.

Description

Heating panel {HEATING PANEL}

[Technical field to which the design belongs]

The present invention relates to a heating panel (heating panel), and more particularly to a heating panel to improve the pressure resistance performance by changing the flow path of the heating fluid flowing inside the heating panel.

[Private Technology]

In general, as a heating system of residential buildings, most of the structures are embedded by laying a pipe in the ondol layer located above the concrete slab floor and supplying hot water functioning as a heating fluid in the pipe to perform heating.

Recently, however, a plate heating panel having an inner space through which a heating fluid flows has been developed, and it is expected to be applied as a heating system to replace a pipe. This heating panel method is much easier to install and repair than the pipe embedding method, and has almost no heat loss, and thus has excellent heating efficiency.

The prior art related to the heating panel may include a plate-shaped heating element for floor heating disclosed in US Pat. No. 5,080,166.

On the other hand, there are individual heating, central heating and district heating in the manner of supplying heating fluid to each generation heating system. In the case of individual heating, the maximum water pressure of the heating fluid does not exceed 3.5 kg _f / cm ² , but in the case of central heating and district heating, there is a variation in water pressure by generation depending on the floor height, and the maximum water pressure of the heating fluid is 6 to It is about 7kg _f / cm ² .

Therefore, when the heating panel is to be installed in a generation to which central heating and district heating are applied, it is very important to maintain excellent pressure resistance performance so that the heating panel is not deformed or leaked under the above-mentioned hydraulic pressure conditions.

However, in the conventional heating panel, as shown in FIG. 7, heating fluid introduced into the heating panel 3 through the inlet port 1 is diffused in various directions by the spacing elements 5. It has a fluid flow path that flows out of the initial flow direction in its diagonal direction (z direction in the figure). (The arrows in the figure indicate the fluid flow path.)

This fluid flow path is determined according to the shape and position of the space members 5, and as shown in FIG. 8, the space members 5 constitute the heating panel 3 and the upper and lower plates 7 and 9. ) Are provided in plural at random intervals from each other, and each of the space members 5 has a dot shape.

As the conventional heating panel 3 has the above-described fluid flow path, when a high hydraulic pressure heating fluid is supplied into the heating panel 3, the conventional heating panel 3 is described in the inlet port 1 part. The rapid flow of heating fluid is inhibited by one space member 5 such that the high pressure heating fluid does not disperse into the heating panel 3 but stays around the inlet port 1.

Therefore, in the conventional heating panel 3, the coupling force between the upper and lower plates 7 and 9 is weakened at the portion of the inlet port 1 where the heating fluid is provided, so that the heating panel 3 may be deformed or broken at this portion. Grows

As a result, in the case of central heating and district heating, in which the relatively high water pressure acts in comparison with the individual heating, the conventional heating panel 3 cannot overcome the high water pressure, and thus is difficult to be applied to the central heating and the district heating. As a situation, the heating panel 3 is limited to individual heating and applied.

Therefore, the present invention is to solve the above problems, an object of the present invention is to improve the pressure resistance performance of the heating panel by changing the flow path of the heating fluid flowing inside the heating panel to improve not only individual heating but also central heating and regional heating. It is to provide a heating panel that can be easily applied.

1 is a perspective view of a heating panel according to an embodiment of the present invention.

2 is an exploded perspective view of a heating panel according to an embodiment of the present invention.

3 is an enlarged partial cutaway view of FIG. 1.

4 is a schematic view of a heating panel according to an embodiment of the present invention.

5 is a schematic view for explaining a modification to the embodiment of the present invention.

6 is a partial plan view of a prefabricated heating system using a heating panel according to an embodiment of the present invention.

7 is a partial plan view of a heating panel according to the prior art.

8 is a cross-sectional view taken along the line A-A of FIG.

The present invention to achieve the above object,

The upper and lower plates, which are arranged at random intervals to have an inner space in which the heating fluid flows, and whose edges are integrally sealed, and guides extending from the upper and lower plates to the other plates to connect the upper and lower plates. A member and a pair of ports provided at two opposite corners of the upper plate and the lower plate to supply and discharge the heating fluid, the flow of the heating fluid being any one into which the heating fluid flows. It provides a heating panel running along any one direction through the guide members from the port of the to the other port from which the heating fluid is discharged.

The guide members are formed in a line shape parallel to one of the long and short sides of the upper and lower plates. For example, the guide members are formed in a line shape parallel to the long sides of the upper and lower plates. A plurality can be arranged along the.

In the case described above, when the guide members are classified into the odd guide members and the even guide members according to the arrangement order from the port from which the heating fluid is introduced, the odd guide members are located on one side of the lower plate above the port where the heating fluid is introduced. It is placed close to the short side and faced with the short side, and at any interval apart from the other short side of the lower plate, even guide members are placed close to one side of the lower plate, the upper port where the heating fluid is discharged is located As it faces this short side, it is spaced apart from the other short side of the lower plate at arbitrary intervals.

By the above-described configuration, the guide members guide the flow of the heating fluid in a zigzag shape to circulate inside the heating panel.

In addition, in order to achieve the above object, the present invention provides a flow of a heating fluid that runs along any two directions through guide members from one port through which the heating fluid is introduced to the other port through which the heating fluid is discharged. Provide a heating panel.

In this case, a plurality of guide members are formed in a line shape parallel to the long sides of the upper and lower plates, and a plurality of guide members are disposed along the short sides of the upper and lower plates, and a random distance from both short sides of the upper and lower plates where the port is located. Place it away.

In addition, the present invention to achieve the above object

The upper and lower plates facing each other at random intervals to have an inner space in which the heating fluid flows, the guide members extending from the upper and lower plates to the other plates to connect the lower plates, and the upper and lower plates A heating panel having a pair of ports provided at two diagonally opposite corners of the heating chamber and having a pair of ports for supplying and discharging heating fluid; A connecting member providing a fluid flow path, wherein the flow of the heating fluid is prefabricated along at least two directions through the guide members from one port through which the heating fluid is introduced to the other port through which the heating fluid is discharged Provide a heating system.

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

1 is a perspective view of a heating panel according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the heating panel according to an embodiment of the present invention, Figure 3 is an enlarged partial cutaway view of FIG.

As shown, the heating panels 2 are arranged at random intervals so as to have an internal space 2a through which the heating fluid flows, and the lower plates 4 and 6, the edges of which are integrally sealed, and the respective phases. The guide members 8 extending from the lower plates 4 and 6 to the other plates and connecting the upper and lower plates 4 and 6 to one of the upper and lower plates 4 and 6 in a diagonal direction. It includes a pair of ports 10a and 10b which are provided at two opposite corners to supply and discharge the heating fluid.

The guide member 8 is a kind of recess extending from each of the upper and lower plates 4 and 6 toward the other plate, and is located in the guide member 8 and the lower plate 6 positioned on the upper plate 4. The guide member 8 is formed in the same position at the same position, and the upper and lower plates 4 and 6 in a state where the pair of guide members 8 provided on the upper and lower plates 4 and 6 are in contact with each other. Is integrally joined to form the heating panel 2.

As a result, the guide member 8 increases the structural strength of the upper and lower plates 4 and 6 to prevent deformation of the heating panel 2 due to external force, and prevents the flow of the heating fluid supplied into the heating panel 2. Guide to control the flow path of the heating fluid.

Here, the heating panel 2 provided by the present invention does not distribute the flow of the heating fluid supplied in the heating panel 2 in various directions, and any one port functioning as an inlet (hereinafter referred to as an 'inlet port 10a' Heating panel through the guide member 8 from the other port (hereinafter referred to as 'outlet port 10b' for convenience) to the other port serving as an outlet. Improve the pressure resistance performance of (2).

To this end, the guide member 8 is formed in a line shape parallel to any one of the long and short sides of the upper and lower plates 4 and 6, and the plurality of guide members 8 are parallel to each other at arbitrary intervals. Is arranged so that the heating fluid provided to the heating panel 2 flows in one direction along the line-shaped guide member 8.

More specifically, the guide member 8 has a line shape parallel to the long sides of the upper and lower plates 4 and 6, and a plurality of guide members 8 are disposed along the short sides of the upper and lower plates 4 and 6, and heating is performed. The heating fluid provided in the panel 2 is arranged as follows so as to circulate evenly inside the heating panel 2 to induce the flow of the heating fluid in a zigzag shape.

That is, as shown in FIG. 4, the guide members 8 included in the heating panel 2 are classified into odd guide members 8a and even guide members 8b for convenience according to the arrangement order from the inlet port 10a. On the lower side, the odd guide members 8a are arranged in close contact with one end of the lower plate (left short side in the drawing) on the inlet port 10a, and the other of the upper and lower plates on which the outlet port 10b is located. It is spaced apart from the short side (right short side in the drawing) at an arbitrary distance.

The even guide members 8b are disposed close to one end of the lower plate (the right short side in the drawing) in which the outlet port 10b is located, and the other short side of the upper and lower plates in which the inlet port 10a is located. (Left short side in the drawing) is spaced apart at random intervals.

In this case, if the even number of guide members 8 is provided, the heating fluid introduced through the inlet port 10a is circulated evenly into the heating panel 2, and then the outside of the heating panel 2 through the outlet port 10b. Since it can be discharged directly into the furnace, it is preferable that the guide member 8 be provided in even numbers.

By the above-described configuration, the heating fluid (indicated by the dashed arrow) introduced into the heating panel 2 through the inlet port 10a flows in one direction along the guide member 8 and corresponds to the gap. The flow changes 180 ° through the interior space and then flows in one direction again along the guide member 8. Repeating this process, the heating fluid circulates evenly inside the heating panel 2 in a zigzag shape to uniformly heat the entire heating panel 2.

In view of the above, the heating panel 2 which guides and circulates the heating fluid in an arbitrary direction without distributing the flow of the heating fluid in all directions is applied even when the heating fluid of high water pressure is supplied. The rapid inflow of the heating fluid in the inlet port 10a portion of 2) enables the weakening of the bonding force of the upper and lower plates 4 and 6.

Therefore, the heating panel 2 according to the present embodiment is capable of discharging the heating fluid while maintaining a high pressure resistance performance even when a high hydraulic pressure heating fluid is introduced. As a result, the heating panel 2 according to the present embodiment is individually heated. In addition, it is expected to be easily applied to both central heating and district heating with relatively high pressure.

The above-described strengthening of the pressure resistance performance of the heating panel 2 is also attributable to the flow path of the heating fluid which runs in any direction from the inlet port 10a to the outlet port 10b, but the guide members 8 are lined. As a result, the contact area of the upper and lower plates 4 and 6 is enlarged, and thus it can be seen that the portion is due to the enhancement of the bonding force of the upper and lower plates 4 and 6.

Meanwhile, in the above-described embodiment, the case in which the guide members 8 are formed in a line shape along the long sides of the upper and lower plates 4 and 6 has been described, but the arrangement direction of the guide members 8 is not limited thereto. It is possible to deform in various directions such as the short side direction or the diagonal direction of the upper and lower plates 4 and 6 without any change.

5 is a schematic view for explaining a modification to the embodiment of the present invention.

In this case, on the basis of the structure of the above-described embodiment, the guide members 8 are located on the inlet port 10a, and one short side (lower left side in the drawing) and the outlet port 10b of the lower plate are located. , And are formed at arbitrary intervals from all other short sides (right side in the drawing) of the lower plate to constitute the heating panel 2.

In the above modification, although the heating fluids introduced through the inlet port 10a are not guided in one direction, the heating fluid 2 is distributed along any two directions, namely, the long side direction and the short side direction of the upper and lower plates. Although circulating, it enables a rapid flow of the heating fluid in the inlet port 10a portion as compared with the conventional heating panel, and thus exhibits a certain effect in increasing the pressure resistance performance of the heating panel 2.

6 is a partial plan view of a prefabricated heating system using the aforementioned heating panel. As shown, the prefabricated heating system 12 connects a plurality of heating panels 2 and a pair of ports 10 between two adjacent heating panels to provide a continuous fluid flow path between the heating panels 2. Made of connecting members 14.

The heating panel 2 distributes the heating fluid evenly over the entire area of the inner space, thereby providing a uniform heating effect on the entire floor surface on which the heating panel 2 is installed. The heating panel 2 is preferably made of a thermoplastic plastic that is easy to manufacture and mold and excellent in load resistance.

And the connecting member 14 is made of an elbow connecting the port 10 between two adjacent heating panels 2, for example, and made of the same thermoplastic plastic as the heating panel 2, when assembling the heating panel 2, In a state in which the port 10 is wrapped, the heating panel 2 may be integrally fixed to the heating panel 2 by a heat fusion process.

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 a high hydraulic pressure heating fluid is introduced into the heating panel, the heating fluid may be circulated evenly and then discharged to the outside of the heating panel while maintaining excellent pressure resistance performance. Therefore, the heating panel according to the present invention can be easily applied not only to individual heating but also to central heating and district heating in which relatively high water pressure is applied.

Claims (11)

Upper and lower plates disposed to face each other at arbitrary intervals so as to have an inner space in which the heating fluid flows; Guide members extending from the upper and lower plates toward the other plate to connect the upper and lower plates; And A pair of ports provided at two corners of the upper and lower plates facing each other in a diagonal direction to supply and discharge the heating fluid; A heating panel running in any direction through the guide members from one port through which the heating fluid is introduced to the other port through which the heating fluid is discharged. The method of claim 1, The upper and lower plates are formed in a rectangular shape having a long side and a short side, and the heating member has a line shape parallel to any one of the long and short sides of the upper and lower plates. The method of claim 2, And a plurality of guide members formed in a line shape parallel to the long sides of the upper and lower plates, and a plurality of the guide members are disposed along the short sides of the upper and lower plates. The method of claim 3, wherein The guide members are classified into odd guide members and even guide members according to the arrangement order from the port into which the heating fluid is introduced, The odd guide members are positioned close to one side of the lower plate while the port where the heating fluid flows are located, and are spaced apart from the other side of the upper plate and the lower plate facing the short side at random intervals. The even guide members may be disposed close to one side of the lower plate while the port where the heating fluid is discharged is disposed in close contact with the short side and spaced apart from the other short side of the lower plate at an arbitrary interval. The method of claim 4, wherein Heating panel provided with an even number of the guide member. The method of claim 2, And heating the guide members in a zigzag fashion. Upper and lower plates disposed to face each other at arbitrary intervals so as to have an inner space in which the heating fluid flows; Guide members extending from the upper and lower plates toward the other plate to connect the upper and lower plates; And A pair of ports provided at two corners of the upper and lower plates facing each other in a diagonal direction to supply and discharge the heating fluid; A heating panel running in any two directions through the guide members from one port through which the heating fluid is introduced to the other port through which the heating fluid is discharged. The method of claim 7, wherein The upper and lower plates are formed in a rectangular shape having a long side and a short side, and the heating member has a line shape parallel to any one of the long and short sides of the upper and lower plates. The method of claim 8, And a plurality of guide members formed in a line shape parallel to the long sides of the upper and lower plates, and a plurality of the guide members are disposed along the short sides of the upper and lower plates. The method of claim 9, And the guide members are spaced apart from each other at both ends of the lower plate at an arbitrary distance from the upper portion of the port. Upper and lower plates facing each other at any interval and having integrally sealed edges so as to have an inner space through which the heating fluid flows, and guide members extending from each of the upper and lower plates toward the other plate to connect the upper and lower plates. And a heating panel provided at two corners of the upper and lower plates facing each other in a diagonal direction and having a pair of ports for supplying and discharging heating fluid; And A connecting member for connecting a pair of ports between two adjacent heating panels to provide a continuous fluid flow path between the heating panels, And a flow of the heating fluid runs along at least two directions through the guide members from one port through which the heating fluid is introduced to the other port through which the heating fluid is discharged.