KR100780398B1 - Heating and cooling panel - Google Patents

Abstract

A heating and cooling panel is provided to diffuse hot air or cold air all over the inside of the panel, and improve heat radiation effect by prolonging the retention period of the fluid contained in the panel. A heating and cooling panel includes a corrugated plate(1), a top plate(2), a rim plate(3), a fluid communicating unit(4), and fluid supply/discharge pipes(5,6). The corrugated plate has a plurality of recesses(11). The top plate is set on the corrugated plate. The rim plate is arranged to close the circumference of the top plate. The fluid communicating unit is interposed between the corrugated plate and the top plate so as to interconnect recesses of the corrugated plate. The fluid supply/discharge pipes are secured into the rim plates such that fluid is diffused into the recesses and discharged.

Description

Heating and cooling panel

The present invention relates to a heating and cooling panel, and more particularly to a heating and cooling panel to improve the heat dissipation effect.

In general, when heating the indoor space, various methods are used, but the method of heating the indoor space by supplying a heat source from the floor (hereinafter referred to as "floor heating method") is the most widely used.

Therefore. In the conventional floor heating method, a method of heating an indoor space by embedding a pipe-type curved pipe (hereinafter, referred to as a "flex pipe pipe"), which is a circular pipe in which hot water is moved in the process of constructing a floor, is most widely used. will be.

However, in the heating process through the bent pipe, heat is generated only in the bent pipe by heat exchange of hot water passing through the pipe, and thus the overall heating efficiency of the room is lowered as a temperature deviation occurs at the bottom surface. Had

Accordingly, the "heating panel" (hereinafter, referred to as a "conventional heating panel") of the Republic of Korea Patent No. 731302, which the applicant has previously applied for registration to solve the above problems is known. First, the conventional heating panel The explanation is as follows.

In the conventional heating panel, a plurality of curved plates are stacked in an orthogonal direction so as to have a circumference, and a heat dissipation part having a curved diffusion passage formed between each curved plate, and hot water so that hot water is diffused and moved into the respective curved diffusion passages. It characterized in that it comprises a hot water supply, discharge means for supplying, discharging.

Therefore, the heating panel has an advantage of maximally improving the heating efficiency of the entire room by allowing heat to be evenly distributed on the floor surface of the room.

By the way, when the heating panel is used, the case where the hot water is not sufficiently filled in the space of the upper bone of the curved plate located at the top, there was a problem that the heat dissipation effect is lowered.

Accordingly, the present invention is an improvement of the heating panel filed by the present applicant, and an object of the present invention is to provide a heating and cooling panel that can increase the heat dissipation effect by uniformly filling a fluid without an upper space in an internal space of the heating and cooling panel.

In addition, hot water as well as hot and cold air through the purpose of allowing the heating and cooling.

In addition, there is another purpose to quickly install the heating and cooling panels by only placing the heating and heating panels on the floor.

Another object is to increase the heat dissipation effect by increasing the residence time of the fluid filled in the heating and cooling panel.

The present invention for achieving the above object, the curved plate provided with a plurality of horizontal bone, the upper plate which is placed on the upper portion of the curved plate, the peripheral plate to block the periphery of the curved plate and the upper plate, the curved plate A heating and cooling panel, which is provided between the upper plate and the fluid communication means for communicating the horizontal bones with each other, and the fluid supply and discharge pipes provided at the circumferential plate so as to diffuse and move the fluid into the horizontal bones of the curved plate. It features.

In addition, the curved plate is characterized in that a single plate is bent and configured.

In addition, the curved plate is characterized in that the horizontal bone is provided with a depression and the bottom surface is composed of a flat surface.

In addition, the fluid communication means, characterized in that consisting of one or more recessed grooves formed in each horizontal member formed between the horizontal bone.

In addition, each of the recessed grooves provided in each horizontal member is formed in plural; Each of the recessed grooves formed in a plurality of the horizontal members is staggered with respect to each of the recessed grooves provided in the neighboring horizontal members.

In addition, each of the recessed grooves, characterized in that formed in the longitudinal grooves in the longitudinal direction.

In addition, the sum of the cross-sectional areas of the recessed grooves formed in each of the horizontal sections is characterized in that it is provided smaller than the longitudinal area of one of the horizontal bones.

In addition, the fluid communication means, characterized in that it is composed of one or more upper recessed grooves each formed in a number of rows of the lower surface of the upper plate is in close contact with each horizontal formed between the horizontal bone.

In addition, each of the upper recessed grooves respectively formed in a plurality of horizontal rows of the lower surface of the upper plate is formed in a plurality; Each of the upper recessed grooves respectively formed in the plurality of horizontal rows is staggered with respect to each of the upper recessed grooves provided in the neighboring row.

In addition, each of the upper recessed grooves, characterized in that formed in the longitudinal groove in the longitudinal direction.

In addition, the sum of the cross-sectional areas of the upper recessed grooves formed in the horizontal rows of the upper plate is characterized in that it is provided smaller than the longitudinal cross-sectional area of each of the horizontal bone.

In addition, the fluid communication means, characterized in that composed of one or more fluid passages passing through each of the cross-shaped mountains formed between the cross-shaped bone.

In addition, each of the fluid passages provided through each of the horizontal members is formed in plurality; Each of the fluid passages formed in a plurality of horizontal cross-sections is provided alternately with respect to each of the fluid passages provided in neighboring horizontal cross-sections.

In addition, the sum of the cross-sectional areas of each fluid passage formed in a plurality of horizontal cross-sections of the upper plate is characterized in that the smaller than the longitudinal cross-sectional area of one of the cross-shaped bones.

In addition, a lower plate is further provided at a lower portion of the curved plate.

As described above, the present invention has an effect of providing a heating and cooling panel that can maximize the heating and cooling effect by increasing the heat dissipation effect by filling the inner space of the heating and cooling panel so that the fluid is uniformly diffused without the upper space.

In addition, there is an effect of providing a heating and cooling panel that can enable heating through hot air and cooling through cold air as well as heating by hot water, by spreading the hot air or cold air into the heating panel.

In addition, there is an effect of providing a heating and cooling panel to improve the workability by quickly installing only the heating and heating panel to the floor process.

In addition, by increasing the residence time of the fluid filled in the heating and cooling panel to further increase the heat dissipation effect, there is also an effect of providing a heating and cooling panel that can further improve the cooling and heating effect.

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

1 is an exploded perspective view showing a heating and cooling panel of a first embodiment according to the present invention, Figure 2 is a perspective view showing a heating and cooling panel of a first embodiment according to the present invention, Figure 3 is a cross-sectional view taken along line A-A of FIG.

The heating and cooling panel according to the first embodiment according to the present invention, the bending plate 1 is provided with a plurality of horizontal bone 11, the upper plate (2) which is placed on the upper portion of the bending plate 1, and the bending plate (1) and a circumferential plate (3) for blocking the periphery of the upper plate, and a fluid communication means (4) provided between the curved plate (1) and the upper plate (2) to communicate the transverse bones 11 with each other; It is composed of a fluid supply, discharge pipe (5, 6) provided in the circumferential plate (3) is provided so that the fluid is diffused to the horizontal bone (11) of the bending plate (1) to be discharged.

In addition, the curved plate 1 may be configured by bending a single plate, and the horizontal valley 11 may be provided to be recessed and the lower surface may be configured as a flat surface. In the drawing of the first embodiment, a single plate is bent. The curved plate 1 is shown.

The fluid supply pipe 5 is provided at one side of the transverse bone 11 at the foremost front of the flexure plate 1, and the fluid discharge tube 6 is the transverse valley 11 at the rearmost end of the flexure plate 1. It is provided on the other side. The fluid supply pipe 5 is connected to a boiler or a hot air fan or a cold air fan to supply hot water, warm air, or cold air (hereinafter, referred to as "fluid").

In addition, the fluid communication means 4 is composed of one or more recessed grooves 41 formed in at least one horizontal member 12 formed between the horizontal member bones (11).

And each of the recessed grooves (41) provided in each horizontal member 12 is formed in plural; Each of the recessed grooves 41 formed in a plurality of the horizontal members 12 is provided staggered with respect to each of the recessed grooves 41 provided in the neighboring horizontal members 12.

That is, each of the recessed grooves 41 is provided so that the fluid is moved to the horizontal bone 11 in the next row after the fluid flows in the horizontal bone 11 located in the front, each recessed groove 41 is a longitudinal direction It is formed of long grooves.

On the other hand, as the lower plate 7 is further provided in the lower portion of the curved plate 1, it is possible to stably construct the heating and cooling panels, as well as to be installed by inverting the heating and cooling panels.

Hereinafter, the operating relationship of the heating and cooling panel of the first embodiment according to the present invention configured as described above is as follows.

As shown in Figures 1 to 3, when the air-conditioning panel configured as described above is installed on the floor to supply hot water, hot air or cold air using a boiler or a hot air fan or a cold air fan, flows through the fluid supply pipe (5). The fluid is diffused into the space formed between the top plate 2 and the bent plate 1 through the recessed groove 41 interconnecting each of the horizontal bone 11 and each horizontal bone 11 and then the fluid drain pipe 6 Is discharged through).

Therefore, it is possible to heat or cool the indoor space through a process in which the fluid is diffused and moved inside the cooling and heating panel.

That is, the fluid supplied through the fluid supply pipe (5) is moved horizontally along the transverse bone (11) at the foremost front, and then passes through a plurality of recessed grooves (41) formed in the horizontal cross-section (12) at the rear. By repeating the process of moving to the transverse bones 11, the supplied fluid is to be diffused to the interior space of the heating and cooling panel as described above.

In the process of moving the fluid as described above, the fluid is diffused and moved while being filled in the space of each of the horizontal grooves 41, thereby maximally improving the heat dissipation effect.

In addition, by having a top plate (2) having a flat upper surface on the upper portion of the curved plate (1), even if a separate top plate is not installed, it has the advantage that it is possible to construct a heating and cooling panel only through the process of directly covering the floor of the interior space. .

In addition, in the process of spreading the fluid inside the cooling and heating panel as described above, each recessed groove 41 provided in each of the horizontal grooves 12 is adjacent to each recessed groove 41 provided in each of the horizontal members 12. By staggering with respect to, the fluid is caused to vortex in each of the transverse bone 11 in the process of passing through each horizontal member (12).

Therefore, by causing the vortex in each of the transverse bone 11 as described above, the heat dissipation effect can be improved to the maximum as the residence time of the fluid becomes longer. On the other hand, the sum of the cross-sectional areas of the recessed grooves 41 formed in each of the cross-members 12 is smaller than the longitudinal area of one of the cross-members 11, so that the supplied fluid is filled from the front and then sequentially As it fills up to the rear lateral bones (11) to spread.

That is, the fluid is diffused while filling the inner space of the heating panel as a whole, it is possible to maximize the heat radiation effect.

Figure 4 is an exploded perspective view showing a heating and cooling panel of a second embodiment according to the present invention, Figure 5 is a perspective view showing a heating and cooling panel according to a second embodiment according to the present invention, Figure 6 is a cross-sectional view taken along line B-B of FIG.

Accordingly, the air-conditioning panel of the second embodiment according to the present invention, except that the fluid communication means (4) of the air-conditioning panel of the first embodiment is assumed to be the same as the configuration of the first embodiment described above.

Therefore, the fluid communication means 4 constituting the heating panel of the second embodiment according to the present invention is provided with a plurality of horizontal rows of the lower surface of the upper plate 2 to which each horizontal member 12 formed between the horizontal bones 11 is in close contact. It is composed of one or more upper recessed grooves 42 respectively formed.

In addition, each of the upper recessed grooves 42 formed in the plurality of horizontal rows of the lower surface of the upper plate 2 is formed in plurality.

In addition, each of the upper recessed grooves 42 respectively formed in the plurality of horizontal rows are provided alternately with respect to each of the upper recessed grooves 42 provided in the adjacent horizontal rows.

In other words, each of the upper recessed grooves 42 is provided with a fluid is moved to the horizontal bone 11 in the next row after the fluid flows in the horizontal bone 11 located in the front, each upper recessed groove 42 It is formed as a longitudinal long groove.

Accordingly, in the second embodiment cooling and heating panel configured as described above, the fluid supplied through the fluid supply pipe 5 is horizontally moved along the transverse bone 11 at the foremost front and then is the upper portion of the rear horizontal mount 12. By repeating the process of moving to the horizontal grooves 11 in the rear through the recessed grooves 42 formed in the upper plate, the supplied fluid is to be entirely diffused into the internal space of the above-described heating and cooling panel.

Therefore, like the heating and cooling panel of the first embodiment, the heat dissipation effect of the heating and cooling panel can be improved to the maximum, and the heating and cooling panel can be constructed only by attaching the heating and cooling panel to the floor of the indoor space without installing a separate top plate. It has an advantage.

In addition, in the process of spreading the fluid inside the heating and cooling panel as described above, each upper recessed groove 42 of each row formed in a plurality of rows on the lower surface of the upper plate 2 in the adjacent rows is provided in each upper recessed groove 42. By staggering with respect to), in the process of passing the fluid through each horizontal member 12, vortices are generated in each horizontal member 11.

Therefore, as in the first embodiment described above, by causing vortices in each of the transverse bones 11, the heat dissipation effect can be improved to the maximum as the residence time of the fluid becomes longer.

On the other hand, the sum of the cross-sectional areas of the upper recessed grooves 42 formed in the horizontal rows of the upper plate 2 is provided smaller than the longitudinal area of one of the horizontal bones 11, so that the supplied fluid is filled from the front It spreads while being filled up to the rear lateral bones 11 in order.

That is, the fluid is diffused as it fills the interior space of the heating panel as a whole.

7 is an exploded perspective view showing a cooling and heating panel of a third embodiment according to the present invention, Figure 8 is a perspective view showing a heating and cooling panel according to a third embodiment according to the present invention, Figure 9 is a cross-sectional view taken along the line C-C of FIG.

Accordingly, the air-conditioning panel of the third embodiment according to the present invention assumes that the rest of the configuration is the same as that of the first embodiment except for the configuration of the bending plate 1 and the configuration of the fluid communication means 4.

Accordingly, the bending plate 1 of the third embodiment according to the present invention may be configured by bending a single plate, and the horizontal bone 11 may be recessed and the bottom surface may be configured as a flat surface. In the example drawings, the curved plate 1 is shown in a state in which the horizontal bone 11 is recessed and the lower surface is configured as a flat surface.

In addition, the fluid communication means 4 of the third embodiment according to the present invention is characterized in that it is composed of one or more fluid passages 43 passing through each of the horizontal members 12 formed between the horizontal bones (11) do.

And each of the fluid passages 43 provided in each of the horizontal member 12 is formed in plurality; Each of the fluid passages 43 formed in the lateral mounts 12 in a plurality is staggered with respect to the fluid passages 43 provided in the neighboring mounts 12.

Therefore, in the cooling and heating panel of the third embodiment configured as described above, the fluid supplied through the fluid supply pipe 5 is moved horizontally along the transverse bone 11 at the front and then formed at the rear horizontal mount 12. By repeating the process of moving through the recessed groove 41 of the rear horizontal bone (11), the supplied fluid is to be entirely diffused into the interior space of the above-described heating and cooling panel.

Therefore, like the heating and cooling panel of the first embodiment, the heat dissipation effect of the heating and cooling panel can be improved to the maximum, and the heating and cooling panel can be constructed only by attaching the heating and cooling panel to the floor of the indoor space even without a separate top plate. It has an advantage.

In addition, in the process of spreading the fluid inside the heating and cooling panel as described above, each of the fluid passages 43 provided through the horizontal members 12 is each fluid passage 43 provided in the neighboring horizontal members 12. By staggering with respect to), in the process of passing the fluid through each horizontal member 12, vortices are generated in each horizontal member 11.

Therefore, as in the first embodiment described above, by causing vortices in each of the transverse bones 11, the heat dissipation effect can be improved to the maximum as the residence time of the fluid becomes longer.

On the other hand, the sum of the cross-sectional areas of the fluid passages 43 formed in the horizontal cross-sections 12 is smaller than the longitudinal cross-sectional area of one cross-sectional bone 11, so that the supplied fluid is filled from the front and then sequentially It is spread while filling up to the rear horizontal bone (11).

That is, the fluid is diffused while being filled in the inner space of the heating panel as a whole, it is possible to maximize the heat radiation effect.

1 is an exploded perspective view showing a heating and cooling panel of a first embodiment according to the present invention.

Figure 2 is a perspective view showing a heating and cooling panel of the first embodiment according to the present invention.

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

Figure 4 is an exploded perspective view showing a heating and cooling panel of the second embodiment according to the present invention.

5 is a perspective view showing a heating and cooling panel of a second embodiment according to the present invention.

FIG. 6 is a cross-sectional view taken along the line BB of FIG. 5. FIG.

Figure 7 is an exploded perspective view showing a heating and cooling panel of a third embodiment according to the present invention.

8 is a perspective view showing a heating and cooling panel of a third embodiment according to the present invention.

9 is a cross-sectional view taken along the line C-C in FIG.

<Explanation of symbols for the main parts of the drawings>

1: bend plate

    11: horizontal bone

    12: Horizontal type mountain

2: top plate

3: perimeter plate

4 fluid communication means

    41: recessed groove

    42: upper recessed groove

    43: fluid passage

5: fluid supply pipe

6: fluid discharge pipe

7: bottom plate

Claims (15)

Flexure plate 1 is provided with a plurality of horizontal bone 11, An upper plate 2 mounted on an upper portion of the curved plate 1, Peripheral plate (3) for blocking the periphery of the bending plate (1) and the upper plate (2), A fluid communication means (4) provided between the curved plate (1) and the upper plate (2) to communicate the transverse bones (11) with each other; The fluid supply, discharge pipe (5, 6), which is provided in the circumferential plate (3) is provided so that the fluid is diffused to the horizontal bone (11) of the bending plate (1) and discharged; Heating and cooling panel, characterized in that consisting of. The heating and cooling panel according to claim 1, wherein the curved plate (1) is configured by bending a single plate. According to claim 1, The bending plate 1, Cooling heating panel, characterized in that the horizontal bone 11 is provided to be recessed and the lower surface is composed of a flat surface. The fluid communication means (4) according to any one of claims 1 to 3, Heating panel, characterized in that consisting of one or more recessed grooves (41) formed in one or more horizontal cross-mounted (12) formed between the horizontal bones (11). The method according to claim 4, wherein each of the recessed grooves (41) provided in each of the horizontal cross-sections (12) is formed in plural; Each of the recessed grooves 41 formed in the plurality of horizontal members 12 is alternately provided with respect to each recessed groove 41 provided in the neighboring horizontal member 12. The method of claim 4, wherein each of the recessed grooves 41, Heating and cooling panel, characterized in that formed in the longitudinal groove of the longitudinal direction. The sum of the cross-sectional areas of the recessed grooves 41 formed in the horizontal cross sections 12, Cooling and heating panel, characterized in that provided with less than one longitudinal area of each of the horizontal bone (11). The fluid communication means (4) according to any one of claims 1 to 3, Heating panel, characterized in that consisting of one or more upper recessed grooves (42) formed in each of the plurality of horizontal rows of the lower surface of the upper plate (2) in which each of the horizontal members (12) formed between the horizontal bones (11). The method of claim 8, wherein each of the upper recessed grooves (42) formed in a plurality of horizontal rows of the lower surface of the upper plate (2) is formed in plurality; Each of the upper recessed grooves 42 formed in the plurality of horizontal rows are alternately provided with respect to each of the upper recessed grooves 42 provided in the neighboring horizontal rows. The method of claim 8, wherein each of the upper recessed grooves 42, Heating and cooling panel, characterized in that formed in the longitudinal groove of the longitudinal direction. The sum of the cross sectional areas of the upper recessed grooves 42 formed in the horizontal rows of the upper plate 2, Cooling and heating panel, characterized in that provided with less than one longitudinal area of each of the horizontal bone (11). The fluid communication means (4) according to any one of claims 1 to 3, Cooling and heating panel, characterized in that consisting of one or more fluid passages (43) passing through each of the horizontal cross-section (12) formed between the horizontal bone (11). 13. The fluid passageway according to claim 12, wherein each of the fluid passages (43) through which the horizontal cross sections (12) are provided is formed in plural numbers; Each of the fluid passages (43) formed in a plurality of the horizontal member 12, the heating and heating panel, characterized in that staggered with respect to each of the fluid passages (43) provided in the adjacent horizontal member (12). The sum of the cross sectional areas of the fluid passages 43 formed in plural in each horizontal section of the upper plate 2, Cooling and heating panel, characterized in that provided with less than one longitudinal area of each of the horizontal bone (11). The lower portion of the curved plate 1 according to claim 1 or 2, Heating panel, characterized in that the lower plate (7) is further provided.

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