KR20160004071U - Prefabricated heating panel structure for hot water boilers - Google Patents

Abstract

The present invention relates to a prefabricated heating panel structure for a hot water boiler, and more particularly, to a prefabricated heating panel structure for a hot water boiler, which can increase a heat conduction efficiency and achieve a relatively uniform temperature distribution.
According to another aspect of the present invention, there is provided a prefabricated heating panel structure for a hot water boiler, comprising: a heat insulating portion provided on a floor and having a first groove portion extending downward in a widthwise central upper surface; A second groove portion provided at an upper portion of the heat insulating portion and extending downward at a position corresponding to the first groove portion to a predetermined depth and extending in the longitudinal direction and having a lower portion inserted into the first groove portion and a hot water pipe inserted into the upper portion, A first heat dissipation panel formed; A second heat dissipation panel installed on an upper part of the hot water pipe installed in the first heat dissipation panel; And a finishing portion provided on the first heat-dissipating panel and the second heat-dissipating panel.
According to the present invention, a prefabricated heating panel structure for a hot water boiler not only improves the heat conduction efficiency by inserting a heat dissipation panel between the hot water pipe and the finishing material, but also can transmit the heat transmitted from the hot water pipe to the entire area of the finishing material through the heat dissipation panel So that a uniform temperature distribution can be obtained.

Description

TECHNICAL FIELD [0001] The present invention relates to a prefabricated heating panel structure for hot water boilers,

The present invention relates to a prefabricated heating panel structure for a hot water boiler, and more particularly, to a prefabricated heating panel structure for a hot water boiler, which can increase a heat conduction efficiency and achieve a relatively uniform temperature distribution.

Generally, as a method of heating the houses that have been traditionally used by the ancestors for the residential culture of Korea, the Ondol heating method using the canopy is mainly preferred because the air of the room, which is the advantage of Ondol heating, This is because it shows the phenomenon and uses the radiant heat, so you can feel warmness and comfort during use.

This kind of Ondol heating system using traditional Korean stovepipe is a regenerative heating system in which the heat is heated and stored in the furnace when the furnace is lit, and the floor is maintained at an appropriate temperature for a certain time by the heat of the stored furnace .

The heating system of the Ondol structure has been found out the advantages of the Ondol heating system. Recently, it has been disappearing with the urbanization, and the popularity of Ondol Ondol, which is beneficial for health, is steadily increasing.

On the other hand, as the level of living has been improved due to industrialization, it has become common practice to use oil boilers in rural houses, and therefore, there is no need for reconciliation, It is easy to use firewood as a firewood because there is a problem that it is difficult to evolve even if a fire occurs because it is not easy. Also, the forestry office can purchase and use a lot of thin trees for the purpose of economical efficiency , The advantage is that trees can be used as the cheapest fuel now.

The heating system of the conventional ondol structure is made up of a heating room such as a conventional fireplace, a fireplace or an oven, and a hearth which serves to heat the room floor by the passage of heat and smoke generated by burning firewood in the heating room A whale and a chimney for discharging the smoke from the whale to the outside. In order to form the whale and store the heat to warm the floor, a thin and flat stone called a gully is necessarily required. Using such a gully, So that the heat generated by the heat is maintained for a long period of time, which is advantageous in that the heating duration is long.

However, not only is it difficult to find a stone that can be used as a canopy, but also because the canopy is subject to a severe temperature change and receives frequent external impacts, the canopy breaks down over time as the durability is weak. There is also a problem of leakage of smoke.

Therefore, a modified Ondol structure has been proposed in order to solve such a conventional problem. For example, Korean Patent Application No. 2005-0099540, entitled "Prefabricated Ondol block ", supports the existing stone- The bricks used to build the bridges of the whales, which serve as passageways, are unified into a single building block so that they can be easily assembled and constructed by anyone. The material is not made of stone or cement, Which is compression molded like a normal brick and dried again by heating at a high temperature to provide an ondol block excellent in rigidity, heat storage, and warmth.

The "roof top finish material" of the patent application No. 2006-0115196 is "a panel having a connecting portion and a connecting groove formed on a side surface of a square frame and having a fitting groove formed in a central portion thereof, U-shaped < / RTI > shaped < RTI ID = 0.0 > Wherein a groove is formed in the pipe groove and an extension is formed in the pipe groove and a guide groove is formed in accordance with the step, and the insertion hole and the locking protrusion are formed at a predetermined interval in the center inner side surface of the opened frame, And a cooling pipe connected to the piping groove, It discloses a gudeuljang finish provided with a heat pipe. "

However, the improvement design of the canopy used in the conventional heating system of the ondol structure has the advantage of solving the problems related to the conventional canopy easily, but the manufacturing thereof is not easy and the manufacturing cost is expensive, which is not practical In addition, there is a problem that it is not possible to employ a boiler used for most residential heating in recent years.

In addition, the universal construction of Ondol heating system adopting boiler is waterproofing and insulation measures of the floor, installing the excel pipe at regular intervals, curing the concrete by curing it, connecting the excel pipe to the boiler hot water pipe .

Such construction has drawbacks in that it is very complicated and cumbersome to work, and that it takes a long period of time for construction air as well. In addition, there is a problem that the cement component is released due to a rise in temperature of the cement concrete during use.

The object of the present invention is to provide a prefabricated heating panel structure for a hot water boiler capable of achieving a uniform temperature distribution as well as improving conduction efficiency of heat transmitted from a hot water pipe .

In order to achieve the above object, the present invention provides a heating-type panel structure for a hot-water boiler, which is installed on a floor, comprises a heat-insulating portion having a first groove portion extending downwardly in a central depth direction, Wow; A second groove portion provided at an upper portion of the heat insulating portion and extending downward at a position corresponding to the first groove portion to a predetermined depth and extending in the longitudinal direction and having a lower portion inserted into the first groove portion and a hot water pipe inserted into the upper portion, A first heat dissipation panel formed; A second heat dissipation panel installed on an upper part of the hot water pipe installed in the first heat dissipation panel; And a finishing portion provided on the first heat-dissipating panel and the second heat-dissipating panel.

And a heat insulating panel installed between the first heat dissipation panel and the second heat dissipation panel and the finish material.

The first heat dissipation panel includes a base that is seated on the upper surface of the heat insulating portion, a sidewall portion that is formed to surround the side surface of the heat insulating portion from both widthwise ends of the base, and a sidewall portion extending from the sidewall portion to cover a part of the bottom surface of the heat insulating portion And a bottom portion.

The second heat dissipation panel has a top surface formed parallel to the first heat dissipation panel and flattened to correspond to a height of a top surface of the first heat dissipation panel, and a bottom surface of the second heat dissipation panel is recessed to closely contact the top of the hot water pipe.

And a connection part connecting the first heat dissipation panels to each other to prevent the first heat dissipation panels from flowing.

According to the present invention, a prefabricated heating panel structure for a hot water boiler not only improves the heat conduction efficiency by inserting a heat dissipation panel between the hot water pipe and the finishing material, but also can transmit the heat transmitted from the hot water pipe to the entire area of the finishing material through the heat dissipation panel So that a uniform temperature distribution can be obtained.

1 is an exploded perspective view of a prefabricated heating panel structure for a hot water boiler according to the present invention;
2 is a sectional view of the assembly type heating panel structure for the hot water boiler shown in FIG. 1;
3 is a cross-sectional view illustrating an example in which a warming panel is further provided on the assembled heating panel structure for a hot water boiler according to the present invention.
4 is a perspective view showing another embodiment of the second heat dissipation panel of the assembled heating panel structure for a hot water boiler according to the present invention.
5 is a cross-sectional view showing the installation structure of the second heat dissipating panel shown in Fig.
FIG. 6 is a perspective view illustrating an example in which a connecting portion is further provided in the assembled heating panel structure for a hot water boiler according to the present invention. FIG.

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

1 and 2 show a prefabricated heating panel structure 1 for a hot water boiler according to the present invention. The prefabricated heating panel assembly (1) for a hot water boiler according to the present invention comprises a heat insulating part (10); A first heat dissipation panel (20); A second heat dissipation panel (30); A heat insulating panel 50; And a finishing portion 40.

The heat insulating part 10 is installed on the floor and is made of styrofoam used as a general heat insulating material and has a predetermined thickness. A plurality of the heat insulating portions 10 are arranged adjacently to each other on the floor. Each of the heat insulating portions 10 is provided with a first groove portion 11 Is formed.

A second groove 21a is formed at a position corresponding to the first groove 11 formed in the heat insulating part 10 so as to be in close contact with the upper surface of the heat insulating part 10 at the upper part of the heat insulating part 10 have. The second groove 21a extends downward from the upper surface of the first heat dissipation panel 20 to a predetermined depth and extends along the longitudinal direction and has a first groove 11 formed in the heat insulating portion 10 And a hot water pipe 100 is inserted and installed inside. The second groove 21a is recessed from the upper surface of the first heat dissipation panel 20 and protrudes from the bottom surface.

The first heat dissipation panel 20 includes a base 21 that is seated on the upper surface of the heat insulating portion 10 and a side wall 22 that is formed to surround the side surface of the heat insulating portion 10 from both widthwise ends of the base 21. And a bottom portion 25 extending from the side wall portion 23 so as to surround a part of the bottom surface of the heat insulating portion 10.

The first heat dissipation panel 20 may be formed in a shape such that the side wall portion 23 and the bottom portion 25 are omitted so as to cover the upper surface of the heat insulating portion 10 differently from the first heat dissipation panel 20.

The second heat dissipation panel 30 is installed on the upper part of the hot water pipe 100 installed in the first heat dissipation panel 20 and is installed to be in contact with the hot water pipe 100. The second heat dissipation panel 30 has a length corresponding to the length of the second groove 21a and is formed to have a width corresponding to the width of the second groove 21a. The thickness of the second heat dissipation panel 30 is preferably the same as the upper surface of the first heat dissipation panel 20, that is, the upper surface of the base 21, when the second heat dissipation panel 30 is installed in the second trench 21a.

Although not shown in the drawing, the first heat dissipation panel 20 and the second heat dissipation panel 30 can be processed by finishing the upper portion through an adhesive member such as a tape to prevent the first heat dissipation panel 20 and the second heat dissipation panel 30 from flowing.

The finishing portion 40 is installed on the first heat dissipation panel 20 and the second heat dissipation panel 30 and may be a general plan plate, a decorative plate, a reinforced floor plate, or the like.

3, the warming panel structure for a hot water boiler according to the present invention includes a heat insulation panel 50 installed between the first heat dissipation panel 20 and the second heat dissipation panel 30 and the finish material .

The heat insulating panel 50 is installed between the first heat dissipating panel 20 and the second heat dissipating panel 30 and receives heat transmitted from the first heat dissipating panel 20 and the second heat dissipating panel 30, The first heat radiation panel 20 and the second heat radiation panel 30 heat the heat transferred from the first heat radiation panel 20 and the second heat radiation panel 30 to maintain the heat for a long time.

4 and 5, the upper surface of the second heat dissipation panel 30a of the hot water boiler panel assembly according to the present invention has an upper surface parallel to the first heat dissipation panel 20, And the bottom surface may be concave so as to be closely attached to the upper portion of the hot water pipe 100. [

Such a structure not only improves the heat conduction efficiency by enlarging the contact area with the hot water pipe 100 but also can stably be installed in the second groove portion 21a and can stably support the finishing portion 40 It also has an effect.

As shown in FIG. 6, the hot water boiler panel assembly according to the present invention includes a connection portion 60 for connecting the first heat dissipation panels 20 to each other to prevent the first heat dissipation panels 20 from flowing, .

6, one end of the connecting portion 60 is coupled to one side of the first heat-dissipating panel 20 adjacent to the other, and the other side of the connecting portion 60 is coupled to the first heat- The adjacent first heat dissipation panels 20 are prevented from being separated from each other.

The connection portion 60 has a plate portion formed to have a flat surface and an insertion protrusion that is bent and extended from both ends of the plate portion, and is formed in a 'C' shape.

A connection slot 27 is formed on both sides of the first heat dissipation panel 20 in the width direction to connect the connection unit 60 with the connection unit 60. The connection slot 27 is formed by partially cutting the corner of the first heat dissipation panel 20 such that the connection portion 60 does not protrude from the upper surface of the first heat dissipation panel 20 when the connection portion 60 is coupled do.

Although the present invention has been described with reference to the exemplary embodiments shown in the drawings, it is to be understood that those skilled in the art will appreciate that various modifications and equivalent arrangements may be made therein without departing from the scope of the present invention. It will be appreciated that other embodiments are possible.

Accordingly, the scope of true technical protection of the present invention should be determined by the technical idea of the appended claims.

10:
20: first heat-dissipating panel
21: Base
23:
25:
30: second heat dissipating panel
40:
50: Insulating panel
60: Connection
100: Hot water pipe

Claims (5)

A heat insulating portion provided on the floor and formed with a first groove portion extending downward in the widthwise central upper surface to a predetermined depth and extending along the longitudinal direction;
A second groove portion provided at an upper portion of the heat insulating portion and extending downward at a position corresponding to the first groove portion to a predetermined depth and extending in the longitudinal direction and having a lower portion inserted into the first groove portion and a hot water pipe inserted into the upper portion, A first heat dissipation panel formed;
A second heat dissipation panel installed on an upper part of the hot water pipe installed in the first heat dissipation panel;
And a finishing portion provided on the first heat-dissipating panel and the second heat-dissipating panel. The method according to claim 1,
And a heat insulating panel installed between the first heat dissipating panel and the second heat dissipating panel and the finishing material. The method according to claim 1,
The first heat dissipation panel includes a base that is seated on the upper surface of the heat insulating portion, a sidewall portion that is formed to surround the side surface of the heat insulating portion from both widthwise ends of the base, and a sidewall portion extending from the sidewall portion to cover a part of the bottom surface of the heat insulating portion And a bottom portion. The method according to claim 1,
Wherein the second heat dissipation panel is formed so that an upper surface of the second heat dissipation panel is parallel to the first heat dissipation panel and is flat so as to correspond to a height of an upper surface of the first heat dissipation panel and a bottom surface of the second heat dissipation panel is recessed to closely contact the upper portion of the hot water pipe Prefabricated heating panel structure for boiler. The method according to claim 1,
Further comprising a connecting portion connecting the first heat-dissipating panels to each other to prevent the first heat-dissipating panels from flowing.

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