KR101357764B1 - Heating heat pipe and heat transfer panel using the same - Google Patents

Abstract

The present invention relates to a heater pipe for heating and a heat transfer panel using the same and more specifically, to a heater pipe for heating and a heat transfer panel using the same, which is capable of being coupled and extended in an assembly type to fit the size of an installation space by consecutively arranging heat transfer panels, which facilitate indoor heating using heater pipes provided on the inside of a wall such as an indoor floor or a wall surface, vertically and horizontally. A heat transfer plate is provided in the upper part of the heat transfer panel. Vertical portions are respectively provided on both sides of a connecting groove, on which a heater pipe is seated. Inclined portions are respectively provided on the lower part of the vertical portions. A round portion is integrated to the ends of the inclined portions. The heater pipe includes a planar portion provided on the upper part of a body in a longitudinal direction, which is provided on the connecting groove of the heat transfer plate, vertical portions respectively provided in an orthogonal direction on both sides of the planar portion, inclined portions respectively provided on the lower parts of the both vertical portions, and a round portion provided at the ends of the inclined portions to connect the inclined portions. Thus, it can be possible to improve thermal efficiency by increasing the level of distillate by the inclined portions of the heater pipe, improve thermal efficiency while reducing time required to heat the distillate by increasing the level of the distillate, supplied to the heater pipe, up to a level even with a less amount of the distillate by the both inclined portions, efficiently transmit heat through the heater pipe by preventing the rotation of the heater pipe and allowing the heater pipe to be in close contact with the heat transfer plate of the heat transfer panel while preventing space between the heater pipe and a flooring material by the upper planar portion and vertical portions of the heater pipe.

Description

Heater pipe for heating and heat transfer panel using same {HEATING HEAT PIPE AND HEAT TRANSFER PANEL USING THE SAME}

The present invention relates to a heating pipe for heating and a heat transfer panel using the same, and more specifically, to a heat transfer panel for facilitating indoor heating by a heater pipe provided inside a wall such as an indoor floor or a wall. The present invention relates to a heating heater pipe and a heat transfer panel using the same, which can be combined and expanded in a prefabricated manner according to an installation space and facilitate the efficient transfer of heat from the heater pipe to the heat transfer panel and the flooring material.

In general, the heating method applied to residential buildings such as single-family homes, villas, and apartments has been commonly used to heat the floor by embedding a heater pipe on a concrete indoor floor and supplying a heating fluid such as hot water to the heater pipe. .

To describe the above conventional heating method structure, first, the finishing panel of the synthetic resin material is provided on the concrete indoor floor, the heater pipe in a line is arranged on the upper surface of the finishing panel, and the flooring material such as the floor plate is provided on the heater pipe. Heat from the pipes is transferred to the flooring to enable heating.

The conventional heater pipe is a vacuum heater pipe to form a body in a circular shape, but the inside of the vacuum distillate to a certain level, and a pipe-type heater having a hollow body to form a body in a circular shape but the inside The most common use of pipes.

In the conventional heating method, as shown in FIG. 1, the heat transfer panel 10 provided with the heater pipe 30 in the connection groove 21 is laid on the slab bottom to the upper surface of the heater pipe 30. By providing the flooring material 1, such as a floor covering, the heat of the heater pipe 30 is transmitted to the flooring material 1 to enable heating.

However, in the conventional heating method, when the heating pipe 30 is provided in the semicircular connection groove 21 in which the panel can be provided, the connection groove 21 and the space 2 are generated on the circular heater pipe 30. Even if the flooring material 1 is provided, the problem of heat efficiency is reduced by the space 2 of the flooring material 1 and the connection groove 21 and a space is formed in the lower part of the flooring material. There was a problem that 1) is damaged.

In order to solve this problem, in order to maintain the plane of the upper surface of the heater pipe 30 and the flooring material 1 and to efficiently transfer heat of the heater pipe 30, the plate-shaped transfer plate 3 is provided with a heater pipe. While close contact with the upper surface of the 30 and at the same time to be fixed to the upper surface of the connection groove 21 for providing the heater pipe 30, such plate-shaped transmission plate (3) must be provided separately, while at the same time lowering workability The space between the semi-circular connecting groove 21 and the circular heater pipe 30 of the heater pipe 30 has a problem that the heat efficiency of transferring the heat of the heater pipe 30 to the flooring material 1 is inferior.

In addition, the conventional heater pipe is formed in a circular body to require a small amount to increase the level of the distillate provided therein to some extent, and when a large amount of distillate is prepared thereby to heat the distillate. It is difficult because of the problem that the thermal efficiency is low because it requires a small amount of time.

Therefore, the installation of such a heater pipe eliminates the hassle of selecting a heat transfer panel suitable for the heater pipe, and the heating method can be transferred to the indoor floor quickly by heating the heater to prefer the heating efficiency.

The present invention is to solve the above-described conventional problems, in order to increase the level of the distillate provided in the inside of the heater pipe to some extent as needed, a large amount is required and thus a large amount of distillate is provided. To heat the distillate, it takes a lot of time to reduce the thermal efficiency and to maintain the plane between the top surface and the bottom of the heater pipe and to efficiently transfer the heat of the heater pipe. At the same time as the upper surface of the connection groove to provide a heater pipe and close contact with the upper surface, but the plate-shaped transfer plate is to be provided so that workability is reduced and between the semi-circular connection groove of the heater pipe and the circular heater pipe There is space and heat efficiency that transfers heat of heater pipe to flooring material is inferior To solve the problem,

Connecting the heat transfer plate by providing a heat transfer plate on the top of the finishing panel and forming a vertical groove on both sides of the connection groove for providing the heater pipe, and forming a sloped ball on the lower portion of the vertical sphere and integrally forming a round ball on the end portion. A flat portion is formed in the upper portion of the longitudinal body provided in the groove, and the vertical portion is formed at right angles to both sides of the flat portion, and the inclined portion is formed at the lower portion of the vertical portion at both sides, and the round portion is formed at the end of the inclined portion to connect the inclined portions at both sides. The invention provides a heater pipe for heating, which facilitates heat transfer of the heater pipe, and a heat transfer panel using the same.

In the present invention for achieving the above object in the heater pipe 30 for heating provided in the connection groove 21 of the heat transfer plate 20 arranged in a row vertically up, down, left, right on the indoor floor,
The heater pipe 30 forms a flat portion 35 on the upper body 31 in the longitudinal direction, forms a vertical portion 36 in the direction perpendicular to both sides of the flat portion 35, and vertical portions 36 on both sides. The lower portion is characterized in that to form a polygonal polygonal portion 40 that is integrally connected with the vertical portion (36).

The polygonal portion 40 is inclined by forming the inclined portion 37 connecting to both sides of the vertical portion 36 of the body 31 on both sides and by connecting the round portion 38 to the end of the inclined portion 37 on both sides. It is characterized in that it is formed integrally with the portion 37.

The seat 39 is protruded to both sides of the flat portion 35 of the heater pipe 30 to be integrally connected with the vertical portion 36.

The plate-shaped transfer plate 3 is provided between the upper planar portion 35 and the bottom member 1 of the heater pipe 30.

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Therefore, the present invention forms a vertical sphere on both sides of the connection groove for providing a heat transfer plate and a heater pipe in the upper portion of the panel as described above, the inclined sphere is formed at the bottom of the vertical sphere and the round sphere is integrated at the end And forming a flat portion on the upper body in the longitudinal direction provided in the connection groove of the heat transfer plate, and forming a vertical portion in a perpendicular direction to both sides of the flat portion, and forming an inclined portion on the lower portion of the vertical portion on both sides, and on both ends of the inclined portion. To provide a heater pipe formed of a round portion connecting the inclined portion of,

The inclined portion of the heater pipe can increase the level of the distillate, thereby increasing the thermal efficiency, and the level of the distillate provided inside the heater pipe can be raised to a certain level with a small amount by the inclined portions on both sides. It is possible to reduce the time required to heat the distillate, and to increase the resulting thermal efficiency, and by simply removing the space between the heater pipe and the floor material by the upper flat portion and the vertical portion of the heater pipe It is an advantage that the heat transfer of the heater pipe can be efficiently carried out by preventing the rotation of the heater pipe and bringing it into close contact with the heat transfer plate of the panel as a whole.

1 is an exploded view illustrating an embodiment of a heat transfer panel of the present invention.
Figure 2 is an exemplary view showing a cross-sectional state of the heat transfer panel of the present invention
3 is an exemplary view showing a main portion of an embodiment of the present invention.
4 and 5 is an exemplary view showing a main portion of another embodiment of the present invention
6 is an exemplary view showing a state in which the main part of the present invention is disassembled;
7 is an exemplary view showing a heater pipe embodiment of the present invention.
8, 9 and 10 are exemplary views showing still another embodiment of the heater pipe of the present invention.
11 and 12 is an exemplary view showing an embodiment of a conventional heater pipe.
13 is an exemplary view showing a state of use of a conventional heat transfer panel.

The present invention for achieving the above object is provided in the connection grooves 21 of the heat transfer plate 20 at a predetermined interval and a plurality of heater pipes 30 as shown in Figure 1 and insulated under the heat transfer plate 20 The heat transfer panel 10, which forms the panel 11 integrally, is continuously arranged up, down, left, and right on the indoor floor, and the heater pipe 30 is provided in the connection groove 21 of the heat transfer plate 20. The flooring material 1, such as a floor covering, is provided in the upper part of the pipe 30.

The heat insulating panel 11 is preferably formed of a heat insulating material such as styrofoam and the heat transfer plate 20 is easy to heat transfer to facilitate the heat transfer of the heater pipe 30 on top of the heat insulating material 11 of the heat insulating material. It is preferable to use it with metal materials, such as aluminum.

The commonly used heater pipe 30 is a vacuum to form a body 31 in a circular shape, as shown in Figure 11 and the hollow portion 32 in the vacuum distillate (34) to a certain level As shown in FIG. 12, a pipe heater pipe 30 having a hollow body 32 communicating with the outside is formed by using the heater tube 30 and the body 31 in a circular shape.

In the embodiment of the vacuum heater pipe 30 provided in the connection groove 21 of the heat transfer plate 20, the inside is formed of a vacuum and preferably formed of a body 31 having a constant diameter. One end of the exhaust pipe is gradually reduced in diameter to form the exhaust portion 33, so that the exhaust portion 33 is formed to the end of the heater pipe 30 of the diameter considerably smaller than the diameter of the body 31 of the heater pipe (30) The shape of the body 31 of the 30 is to form a circle.

In the embodiment of the heater pipe 30 of the present invention, as shown in FIGS. 3 and 7, the body 31 is formed in the longitudinal direction, and the hollow part 32 is formed inside the body 31. 32 to provide a distillate 34 in a vacuum state up to a predetermined height, to form a flat portion 35 on the upper portion of the body 31 in the longitudinal direction, and vertical portions 36 in the direction perpendicular to both sides of the flat portion 35. ) And a polygonal polygonal portion 40 which is integrally connected to the vertical portion 36 below the vertical portion 36 on both sides.

In another embodiment of the heater pipe 30 of the present invention, as shown in Figure 9 to form a longitudinal body 31 in the hollow body 32 in the body 31 continuously forming a length The flat part 35 is formed on the upper part of the body 31 in the direction, and the vertical part 36 is formed at right angles to both sides of the flat part 35, and the vertical part 36 is disposed below the vertical part 36 on both sides. It is to form a polygonal polygon 40 to connect integrally with.

In the embodiment of the polygonal portion 40, the inclined portion 37 is connected to both sides of the vertical portion 36 of the body 31 on both sides, and the round portion 38 is formed at both ends of the inclined portion 37. It is to be formed integrally with the inclined portion (37).

Another embodiment of the polygonal portion 40 may form a semicircle in which the inclined portion 37 and the round portion 38 are integrally connected to both vertical portions 36 of the body 31. will be.

The polygonal portion 40 is to be formed integrally by connecting one or more angles, and preferably may be formed in a polygon such as triangular or square, pentagonal.

The connecting groove 21 of the heat transfer plate 20 for providing the heater pipe 30 forms vertical holes 23 on both sides of the connecting groove 21 as shown in FIG. The inclined sphere 24 is formed in the lower portion and the round sphere 25 is integrally formed at the end portion.

Further, in another embodiment of the heater pipe 30 of the present invention, as shown in FIGS. 4, 8, and 10, the vertical portion 36 is formed by protruding the seat portion 39 to both sides of the flat portion 35. It may be connected integrally with.

The heater pipe 30 of the heater pipe 30 is formed on the curved surface 26 formed at both ends of the connection groove 21 of the heat transfer plate 20 in the vertical direction 23 at both ends of the seat 39 of the heater pipe 30. The seat 39 is to be accommodated.

In addition, a plate-shaped transfer plate 3 may be provided between the upper planar portion 35 of the heater pipe 30 and the flooring material 1.

The present invention configured as described above is to arrange the heat transfer panel 10 for the customized heating provided in the wall and the flooring material 1, such as the indoor floor or the wall surface, up, down, left, right.

In order to continuously arrange the heating heat transfer panel 10 in the up, down, left and right directions, the heater pipes are arranged in close contact with each other so as to fit to the indoor floor and continuously arranged as shown in FIG. 6. The vertical part 36 of the heat sink 30 is provided in the vertical hole 23 of the connection groove 21 of the heat transfer plate 20 so that the heater pipe 30 is rotated by the vertical hole 23 of the heat transfer plate 20. To prevent it.

The inclined portion 37 and the rounded portion 38 formed on the lower portion of the vertical sphere 23 are in close contact with the inclined sphere 24 and the round sphere 25 of the heat transfer plate 20 to connect the heat transfer plate 20. In order to prevent the rotation of the heater pipe 30 provided in the groove 21 and at the same time the upper flat portion 35 of the heater pipe 30 is the same as the upper surface of the heat transfer plate 20 of the heater pipe 30 Even if the flooring material 1, such as a floor covering, is provided at the top, the bottom surface of the flooring material is in close contact with the flat part 35 of the heater pipe 30 to prevent gaps.

In addition, when the heater pipe 30 is provided in the connection groove 21 formed in the heat transfer plate 20 of the heat transfer panel 10 as described above, the distillate 34 provided in the heater pipe 30 is shown in FIG. Since it is provided in the inclined portion 37 on both sides as shown in 3, it is possible to provide a whole in a small amount by the inclined portion 37 without providing a large amount of distillate 34 to facilitate the transfer of heat.

In addition, the lower portion of the heater pipe 30 facilitates heat transfer of the distillate 34 due to the rounded portions 38 connected to the inclined portions 37 on both sides, and heat transfer by the upper flat portion 35. The planar portion 35 of the heater pipe 30 provided on the plate 20 is brought into close contact with the flooring material 1 as a whole to efficiently transfer the heat of the heater pipe 30 to the flooring material 1.

Accordingly, the heat source of the heater pipe 30 is evenly transmitted from the heat transfer plate 20 to uniformly preheat the flooring material 1 provided on the heater pipe 30 to enable uniform heating quickly.

Then, when the heat of the heater pipe 30 is transferred to the flooring material 1 by the transfer plate 3 provided between the flat part 35 of the heater pipe 30 and the flooring material 1 which is in direct contact with the flooring material 1. The heat of the heater pipe 30 of the connection groove 21 of the heat transfer plate 20 directly provided with the heat transfer plate 3 is used to mitigate the direct heat of the heater pipe 30 by the transfer plate 3 to heat the entire flooring material 1. The heat of the pipe 30 is to be delivered to the flooring material 1 at a uniform temperature.

1: flooring 2: space
3: transfer plate 10: heat transfer panel
11: heat insulation panel 20: heat transfer plate
21: connecting groove 23: vertical sphere
24: inclined sphere 25: round sphere
26: curved surface 30: heater pipe
31 body 32 hollow part
33: exhaust 34: distillate
35: flat part 36: vertical part
37: inclined portion 38: round portion
39: seat 40: polygon

Claims (5)

In the heater pipe 30 for heating provided in the connecting groove 21 of the heat transfer plate 20 continuously arranged up, down, left, right on the indoor floor,
The heater pipe 30 forms a flat portion 35 on the upper body 31 in the longitudinal direction, forms a vertical portion 36 in the direction perpendicular to both sides of the flat portion 35, and vertical portions 36 on both sides. The heater pipe for heating, characterized in that the lower portion to form a polygonal polygon (40) connected integrally with the vertical portion (36).
The method of claim 1,
The polygonal portion 40 is inclined by forming the inclined portion 37 connecting to both sides of the vertical portion 36 of the body 31 on both sides and by connecting the round portion 38 to the end of the inclined portion 37 on both sides. Heater pipe for heating characterized in that it is formed integrally with the portion (37).
The method of claim 1,
Heater pipe for heating, characterized in that to form a projection (39) on both sides of the planar portion (35) of the heater pipe (30) integrally connected to the vertical portion (36).
The method of claim 1,
Heater pipe for heating characterized in that the plate-shaped transfer plate (3) is provided between the upper flat portion (35) of the heater pipe (30) and the flooring (1). delete

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