KR200475893Y1 - Hybrid panel - Google Patents

Abstract

The present invention relates to a hybrid heat dissipation panel, and more particularly, to a hybrid heat dissipation panel in which a plurality of heat medium tubes through which a heat medium can flow are arranged so as to be spaced apart from each other, one end of another heat medium tube adjacent to one end of one heat medium tube, The other end of the other heat medium pipe adjacent to the end of the heat medium pipe is connected by a bending pipe and the bending pipe connects the one end and the other end of the heat medium pipe alternately; And a recessed plate extending along the longitudinal direction of the heat medium tube so as to allow the heat medium tube to be seated, the first plate and the second plate extending from both ends along the longitudinal direction of the recessed plate, And a heat transfer panel formed thereon.

Description

Hybrid heat dissipation panel

The present invention relates to a hybrid heat dissipation panel, and more particularly, to a hybrid heat dissipation panel, which is installed in a ceiling of a building to supply radiant energy to the room, and hybrid heat dissipation capable of warming or cooling the interior temperature of the building Panel.

Background Art [0002] As a method of heating a building interior such as a house, a floor heating system of Ondol structure in which the inside of the house is heated by the radiant heat of the bottom layer is commonly used by installing a hot water pipe mainly in the bottom layer and circulating hot water in the hot water pipe. In summer, indoor air conditioning is performed by convection by installing a separate package air conditioner. In recent years, attempts have been made to supply cold water to a pipe installed in an existing floor, and to cool the interior of the house by using radiative cooling by the floor.

Unlike in the past, the type of residence in recent years has been becoming increasingly common in sofas, chairs and beds, rather than sitting on the floor. However, conventional floor lifting and cooling / heating methods in which pipes are installed only in the bottom floor of a house and circulation of hot water or cold water to cool or heat the floor can not adequately cope with recently changed lifestyle.

In other words, in the case of heating / cooling in a house only by copying of the floor, only the sensation of the thermal sensation or coolness is felt only on the soles of the feet, and it is difficult to feel the feeling of warmth or coolness in the rest of the body except for the soles. It is impossible to create a pleasant indoor temperature environment. In addition, in the case of radiating the bottom layer, the air conditioner is cooled and heated only at a place close to the bottom layer, and has lower cooling and heating efficiency than air conditioning or heating using air convection or radiation and convection at the same time.

In order to solve this problem, air is supplied / exhausted from the ceiling of the room to promote convective cooling and heating. However, such a conventional method is limited to only convective cooling and heating, .

In a publicly-disclosed utility model 20-2012-0003575 (copying and heating panel) filed in Korea, a heat-dissipating panel in which cooling and heating is performed by radiation is disclosed. In the copying and heating panel 20-2012-0003575 However, there is a limit in the amount of heat dissipation of the panel, which makes it difficult to fully cover the heating / cooling load in the room.

The object of the present invention is to improve the heat dissipation performance of the heat dissipation panel and to raise the temperature of the interior of the building uniformly or downward in all areas in addition to the heat transfer by radiation in the heat dissipation panel, The present invention relates to a hybrid heat dissipation panel.

In the present invention, a plurality of heat medium pipes through which the heat medium can flow are arranged so as to be spaced apart from each other, one end of the other heat medium pipe adjacent to one end of the one heat medium pipe, another heat medium pipe adjacent to the other end of the other heat medium pipe And the other end of the heat medium pipe is connected by a bending pipe, and the bending pipe connects the other end of the heat medium pipe alternately; And a recessed plate extending along the longitudinal direction of the heat medium tube so as to allow the heat medium tube to be seated, the first plate and the second plate extending from both ends along the longitudinal direction of the recessed plate, And a plurality of heat transfer panels spaced at equal intervals from the heat transfer tubes and spaced apart from the heat transfer panel and the heat transfer panel to transfer air between the heat transfer panel and the heat transfer panel, A heat dissipation panel is provided.

The hybrid heat dissipation panel according to the present invention has the following effects.

First, the first plate and the second plate are formed on the heat transfer panel to broaden the area of heat conduction from the heat transfer member joined with the heat transfer panel, so that the first and second plates and the radiation phenomenon can be actively performed more actively than before. have.

Secondly, since a plurality of heat transfer panels are arranged apart from each other and a space is formed between the arranged heat transfer panels, a region where air convection further occurs is further increased, so that the temperature of the interior of the building rises more rapidly or falls more rapidly Lt; / RTI >

1 is a perspective view illustrating a hybrid heat dissipation panel according to an embodiment of the present invention.
2 is a cross-sectional view of a cross section of the hybrid heat dissipation panel according to FIG.
FIG. 3 is a state diagram in which the hybrid heat radiation panel according to FIG. 1 is installed to show the flow of air.
FIG. 4 is a graph showing the results of a heat dissipation test of a conventional heat dissipation panel and a hybrid heat dissipation panel according to FIG.

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

Referring to FIGS. 1 and 2, a hybrid heat dissipation panel 100 according to an embodiment of the present invention includes a heat medium flow member 110 and a heat transfer panel 130. Prior to a detailed description of one embodiment of the present invention, the heating medium referred to in the following description may be warm or cold water or various types of media that can cause heat conduction.

First, the heat medium flow member 110 includes a heat medium pipe 111 and a bending pipe 113. The heating medium pipe 111 is a tube formed to allow the heating medium to flow, and has a circular cross section and a long cylindrical shape. A plurality of the heat medium pipes 111 are provided, and the heat medium pipe 111 is spaced apart from one another. The bending pipe 113 connects the plurality of heat medium pipes 111 arranged to be spaced apart from each other.

1, the bending pipe 113 includes one end of the heat medium pipe 111 and one end of the other heat medium pipe 111 adjacent to the heat medium pipe 111, Connect. And connects the other end of the other heat medium pipe 111 and the other end of the other heat medium pipe 111 adjacent to the other heat medium pipe 111.

In other words, the bending pipe 113 connects the ends of the plurality of heat medium pipes 111 spaced apart from each other to one end, the other end and the other end of the heat pipe in a staggered manner, so that the heat medium flow member 110 is connected with the 'S' . When the heat medium flows through one side of the heat medium flow member 110, the heat medium flows through the plurality of heat medium tubes 111 and the plurality of the bending tubes 113 and flows through the plurality of heat medium tubes 111 And finally discharged through the heating medium pipe 111.

As described above, the bending pipe 113 connects the heat medium pipe 111 and the heat medium pipe 111 adjacent to each other. The bending pipe 113 is generally formed in a U shape . As will be described later, a plurality of the heat transfer panels 130 are disposed apart from each other. The first heat transfer panel 130 and the second heat transfer panel 130 adjacent to the second plate 135 of the heat transfer panel 130 are spaced apart from each other. The plate 133 should not be interfered and a spaced gap should be formed. Therefore, the width of the bending tube 113 is formed to be equal to the length of the heat transfer panel 130.

When the heat medium flows into the heat medium flow member 110, the heat transfer panel 130 acts to generate heat conduction with the heat medium flow member 110. The heat transfer panel 130 includes a concave plate 131 and a first plate 133 and a second plate 135. The concave plate 131 is formed in a semicircular shape in cross section so that the heat medium pipe 111 of the heat medium flow member 110 is seated and the heat medium pipe 111 of a cylindrical shape can be seated, 111 are formed in a long length so that they can be stably mounted.

The first plate 133 and the second plate 135 extend from opposite ends of the concave plate 131 along the longitudinal direction of the concave plate 131 and are inclined downward . That is, the first plate 133 and the second plate 135 are inclined downward with respect to the concave plate 131 so that the first plate 133 and the second plate 135 face each other .

The upper end of the concave plate 131 is connected to the lower end of the concave plate 131 to prevent the heat transfer member 110 mounted on the concave plate 131 from being separated from the heat transfer panel 130. [ And a convex plate 137 is formed which is symmetrical with the concave plate 131.

The convex plate 137 is integrally formed with the concave plate 131 or the convex plate 137 is separately formed and the heat medium tube 111 is mounted on the concave plate 131, 137 may be connected to the concave plate 131 by welding or the like. However, the convex plate 137 and the concave plate 131 may be formed in various ways depending on the convenience of the operation.

A plurality of heat transfer panels (130) are provided. The space between the heat transfer tubes (110) is spaced apart from the space between the heat transfer tubes (111) The heat transfer panels 130 are provided in the same number. At this time, the first plate 133 of the heat transfer panel 130 adjacent to the second plate 135 of one heat transfer panel 130 is spaced without interfering with each other.

The heat transfer panel 130 is installed in the heat transfer panel 130 when the heat medium flows into the heat medium pipe 111 that is seated on the concave plate 131 of the heat transfer panel 130, 130). That is, when the heating medium is warm water, when warm water flows into the heating medium pipe 111, heat is transferred to the heat transfer panel 130 in contact with the heating medium pipe 111, so that the heat transfer panel 130 is warm Loses. Conversely, when the heating medium is cold water, when cold water flows into the heating medium pipe 111, heat is transferred to the heat transfer panel 130 in contact with the heating medium pipe 111, so that the heat transfer panel 130 is cold Loses.

When the heat transfer panel 130 is warmed or cooled by the heat conduction with the heat medium flow member 110, the air around the heat transfer panel 130 is warmed or cold by radiation with the heat transfer panel 130. And the warmed or cold air can be convected inside the building, and the temperature inside the building can be raised or lowered. In particular, an air hole may be formed in the ceiling of the building so that the air can be convected between the ceiling and the slab in the interior of the building so that air convection can be activated.

Meanwhile, the hybrid heat dissipation panel 100 including the heat medium flow member 110 and the heat transfer panel 130 is installed on the ceiling of the interior of the building. Therefore, the hybrid heat dissipation panel 100 further includes a mounting plate 150 to be installed in the ceiling. The mounting plate 150 is formed in a plate shape having a rectangular cross section and a long length.

The mounting plate 150 is disposed in a direction intersecting the longitudinal direction of the heat transfer panel 130 and disposed in the same direction as the plurality of the heat transfer panels 130 are arranged, And one surface thereof is fixed in contact with the convex plate 137 of the heat transfer panel 130. Referring to FIG. 1, the two mounting plates 150 are spaced from each other and fixed to the plurality of heat transfer panels 130. The mounting plate 150 may be provided in two, one, or more, as in the present embodiment.

A fastening hole 151 is formed in the mounting plate 150 so that the mounting plate 150 can be installed on the ceiling by fastening members (not shown). A plurality of the fastening holes 151 are formed and are spaced apart from each other along the longitudinal direction of the mounting plate 150.

The following is a description of the installation example of the hybrid heat dissipation panel according to the present embodiment and the operation and effects thereof.

The heat medium flow member 110 is formed by connecting a plurality of the heat medium tube 111 by a plurality of bending pipes 113. When the heat medium flow member 110 is coupled with the plurality of heat transfer panels 130, the heat transfer member 130 is installed on the ceiling through the mounting plate 150 of the heat transfer panel 130. (See Fig. 3)

After the hybrid heat dissipation panel 100 is installed in the ceiling, the hot water or the cold water is supplied to the heat medium flow member 110 in accordance with a season requiring heating or cooling. When the heating medium flows into the heating medium tube 111, the heating medium flows along the heating medium tube 111. As the heating medium flows, the heating medium tube 111 becomes warm or cold. When the heat medium pipe 111 is warmed or cooled, the heat transfer panel 130 to which the heat medium flow member 110 is coupled is thermally conducted from the heat medium pipe 111 so that the heat transfer panel 130 is also warmed or cold .

When the heat transfer panel 130 is warmed or cooled, the air in the interior of the building is radiated from the heat transfer panel 130, so that the air around the heat transfer panel 130 is warmed or cold. And the warmed or cooled air is convected in the interior of the building as indicated by the arrow in FIG. 3 due to the nature of warm air going up and the nature of cold air going down.

As the air convects, the entire air in the interior of the building warms or becomes cold, so that the temperature of the entire interior of the building can be raised or lowered. Particularly, at this time, there is a clearance between the plurality of heat transfer panels 130 spaced from each other, and convected air passes between the heat transfer panels 130, so that radiation is more actively performed, It is possible to have an effect of shortening the speed at which

FIG. 4 is a graph showing a result of direct experiment on the heat dissipation amount of the conventional heat dissipation panel and the heat dissipation amount of the hybrid heat dissipation panel according to an embodiment of the present invention, and the conventional heat dissipation panel is disclosed in the above-mentioned public utility model 20-2012-0003575 Cooling / heating panel).

In the graph of Fig. 4, the horizontal line indicates the difference (DELTA T) between the heat radiation panel and the room temperature, and the vertical line indicates the heat radiation amount (W / m < ² >). 4 (a) is a graph showing a heat radiation amount of a conventional heat dissipation panel, and FIG. 4 (b) is a heat dissipation amount graph of a hybrid heat dissipation panel according to an embodiment of the present invention. As shown in FIG. 4, The heat dissipation amount of the conventional heat dissipation panel is 60 W / m < ² > whereas the heat dissipation amount of the hybrid heat dissipation panel according to one embodiment of the present invention is about 110 W / m < ² > Therefore, when using the hybrid heat dissipation panel according to one embodiment of the present invention, the time for raising or lowering the temperature of the interior of the building can be shortened.

Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that various modifications and equivalents may be made thereto by those skilled in the art. Therefore, the true scope of technical protection of the present invention should be determined by the technical idea of the appended utility model registration claim scope.

100: Hybrid heat dissipation panel 110: Heat medium flow member
111: heat medium pipe 113: bending pipe
130: heat transfer panel 131: concave plate
133: first plate 135: second plate
137: convex plate 150: mounting plate
151: fastening hole

Claims (5)

The other end of the heat medium pipe adjacent to the other end of the other heat medium pipe adjacent to one end of the one heat medium pipe and the other end of the other heat medium pipe adjacent to the one end of the one heat medium pipe are bent A heating medium flow member connected by a tube, the bending pipe alternately connecting one end and the other end of the heat medium pipe; And
A concave plate is formed along the longitudinal direction of the heat medium tube so as to allow the heat medium tube to be seated, and the first plate and the second plate are formed by mutually symmetrically extending from both ends along the longitudinal direction of the concave plate, And a heat transfer panel,
Wherein the heat transfer panel is spaced apart from the heat transfer panel by a predetermined distance and spaced apart from the heat transfer panel to convect air between the heat transfer panel and the heat transfer panel,
In the heat transfer panel,
And a convex plate which is formed symmetrically with the concave plate to prevent the heat medium tube from being detached from the heat transfer panel and encloses the heat medium tube and is formed integrally with the concave plate,
A mounting plate installed on a ceiling of the building and extending in a direction crossing the longitudinal direction of the heat transfer panel and being connected to the plurality of heat transfer panels and fixed to the convex plate so as to be installed on the ceiling Including,
Wherein the mounting plate has a plurality of fastening holes spaced apart from each other along the longitudinal direction so as to be installed in the ceiling by the fastening member. delete delete delete The method according to claim 1,
The heat medium flow member is made of copper or a copper alloy so that heat is transferred by the heat medium,
Wherein the heat transfer panel is made of aluminum or an aluminum alloy material so that heat conduction by the heat medium flow member is performed and radiation with air is performed.

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