KR101311536B1 - Heat insulation stovepipe for heating device - Google Patents

Abstract

PURPOSE: A heating device using heat insulating chimney is provided to heat water with heat generated in a fireplace and to utilize latent heat included in smoke for heating by guiding the heat and the smoke generated in the fireplace, thereby increasing thermal efficiency. CONSTITUTION: A heating device using a heat insulating chimney includes a heating unit (110), a floor unit (130), a wall unit (140), an exhaustion unit (150), and a heat storage unit. Heat and smoke are generated in the heating unit. The smoke and the heat generated in the heating unit pass through the chimney. The floor unit includes at least one chimney and forms an indoor floor. The wall unit includes at least one chimney and forms indoor walls. The exhaustion unit is formed on a side of the chimney and exhausts the heat and the smoke generated in the heating unit to the outside. The heat storage unit is formed on the chimney and includes an external heat storage member. The volume of the heat storage unit becomes larger depending on the distance to the heating unit.

Description

Heat Insulation Stovepipe for Heating Device

The present invention relates to a heating device using a warm heating flue, in more detail in the heating device for heating the room in Korea has used the ondol which is a unique heating device since ancient times. This ondol heating device was characterized by heating smoke by transferring smoke and heat to the entire floor through the year connected to the firewood. Through such a feature, the entire bottom surface of the heating space is heated to have the advantage of heating the air of the entire heating space. Due to the above characteristics, ondol heating is a heating device widely used in modern times.

By the way, in modern times, it has been used in modern houses through some improvements, but it has a disadvantage that it is not suitable for indoors. In order to overcome this problem, Agung has a role of warming the heating water like a boiler and changing the heating water to the bottom surface of the heating space instead of the role of smoke and heat.

The heating device in this manner has been disclosed in Korean Patent No. 1147290. This prior art has a method of heating the bottom of the space for heating by heating the heating water by the heat generated from the submersible by having a vertical bucket and a horizontal bucket inside the arch.

This prior art heating device is used only to heat the heating water from the heat from the firewood and the rest is discharged as it is in the latent heat state in the smoke. Therefore, there is a disadvantage that the heat efficiency is not good because the heat used is less than the heat generated by the fuel used. This drawback has been highlighted as a big problem in modern times when the burden of heating due to the rise in fuel costs.

In addition, there was a problem that the heating efficiency is lowered due to the heating method only through the floor. This has been shown to be a disadvantage that the floor on which the heat is supplied through the heating device is warm but the space on the floor where the heat is not directly supplied is not easily warmed. As a result, in a place where the indoor environment should be maintained at a high temperature through a heating system, the heating room had to be heated for a long time to reach the target temperature, and since only the floor surface is heated, the temperature difference between the space itself and the floor surface is severe. The problem arises when people in the room feel uncomfortable.

Korea Patent 1147290

The present invention has been made in order to solve the above problems, an object of the present invention is to provide a heating device using a heating and heating flue, heat supply to the hot water and the heating heat source through the firewood as a heating device in the year as well as heat to the floor as well as the wall The present invention provides a heating apparatus using heat-insulating and heating flue that provides effective heating of an indoor heating target.

Heating device using the thermal insulation heating flue of the present invention for achieving the above object is generated in the heating unit 110 and the heating unit in which smoke and heat is generated in the heating device 100 for heating the room. A flue 120 through which the smoke and heat pass, a bottom part 130 forming a floor of the room including at least one of the flues, and a wall part 140 forming a wall of the room including at least one of the flues. And a discharge part 150 formed on one side of the flue 120 to discharge smoke and heat generated from the heat generating part 110 to the outside.

In this case, the flue 120 may be formed using the concave-convex 121 on the bottom portion 130 or the wall portion 140, and may be formed in a cylindrical shape.

The wall part 140 may further include a heat insulating space 141 formed to be hollow therein.

In addition, the flue 120 is characterized in that it comprises a heat insulating member 122 surrounding the outside, it may be made by having a heat storage member 123 between the heat insulating member 122 and the flue 120.

In addition, in the heating device used in the plant cultivation facility, the heat generating unit 110, the smoke and heat is generated, the smoke 120 and the smoke generated from the heat generating unit 120 and the flue (120) It may be formed including a heat storage means 124 is formed.

At this time, the heat storage means 124 may be provided with a heat storage member 123 on the outside.

According to the present invention, the heating device using the warming and heating flue is a heat generating device using a firewood as a heat generating device to create hot water with heat generated from the firewood, and induces heat and smoke generated from the firewood to the flue to the latent heat contained in the smoke also to heating Because of the use, the thermal efficiency can be increased. At this time, the interior surface is formed of a heat insulating member to protect the heat of the year as much as possible, and the inner surface is formed of a heat dissipating member that facilitates heat transfer to maximize heat inflow into the room. Has Therefore, the heat of the flue has the advantage of maximizing the efficiency of heating by minimizing the external emission and maximizing the internal discharge. In addition, a heat insulating space is formed on the wall and the flue to form an empty space to block the external emission of heat. Through this heat insulating space to prevent the heat from the inside to be discharged to the outside together with the above insulation member to maximize the heat insulation efficiency and heat insulation efficiency.

In addition, the flue is formed on the wall, it is possible to heat not only the floor but also the wall. Therefore, compared with the conventional method of heating only the floor, the area for transferring heat is increased, thereby enabling more efficient heating by supplying heat in three dimensions. Therefore, it is possible to maximize the thermal efficiency so as to enable efficient heating even with a small amount of fuel, thereby maximizing economic efficiency and having the efficiency of minimizing the time to reach the target heating temperature.

1 is an embodiment of a heating apparatus using the heating and heating flue of the present invention.
2 is an embodiment of the present invention.
Figure 3 is an embodiment of the bottom of the present invention.
4 is an embodiment of the wall portion of the present invention.
5 is a top embodiment of the wall portion of the present invention.
5 is an embodiment of the plant cultivation facility of the present invention.

Hereinafter, with reference to the accompanying drawings, a heating apparatus using the thermal insulation heating flue of the present invention as described above will be described in detail. The following drawings are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the following drawings, but may be embodied in other forms. Also, like reference numerals designate like elements throughout the specification.

1 is an embodiment of a heating apparatus using the thermal insulation heating flue of the present invention, Figure 2 is an embodiment of the present invention, Figure 3 is an embodiment of the bottom of the present invention, and Figure 4 is an embodiment of the wall portion of the present invention 5 is an embodiment of the plant cultivation facility of the present invention.

As shown in FIG. 1, the heating device 100 for heating indoors has a heating unit 110 in which smoke and heat are first generated. In this case, the heat generating unit 110 mainly uses wood such as plywood from firewood or a construction site as a main fuel, and fossil fuels such as oil or gas may also be used.

The smoke and heat generated by the heat generating unit 110 are the bottom portion 130 forming the floor of the room as shown in FIG. 3 and the wall portion 140 forming the wall of the room as shown in FIG. 4. Is supplied. At this time, the moving passage of the smoke and heat is called the flue (120). Such a year 120 may have various configuration examples. In FIG. 2, three embodiments are illustrated.

As a first embodiment, Figure 2 (a) is shown in the form consisting of the curved concave-convex (121), (b) in the form consisting of the concave-convex (121) in the rectangular form, and finally (c The configuration of the year 120 in the form of a cylinder is shown.

The flue 120 formed in the form of the unevenness 121 has a structure in which a lower end of the bottom portion 130 or one side of the wall portion 140 is opened. Through this, it has a structure in which the smoke and heat generated in the heat generating unit 110 is concentrated to supply to the bottom of the bottom portion 130 or one side of the wall portion 140. Therefore, it has an advantage in terms of concentrated supply of heat.

In addition, when the flue 120 is formed in a cylindrical shape, it is formed in the shape of a tube inside the bottom part 130 or the wall part 140. This form has the advantage that the year 120 can be configured in more detail. In addition, when the flue 120 is formed in a cylindrical shape, a pipe made of a metal material having good thermal conductivity may be used as the flue 120.

The year 120 may have various connection structures. Hereinafter, three embodiments have been described.

First, each of the flue 120 is a form that is directly connected to the heat generating portion 110. The connection structure of the flue 120 has the advantage that the smoke and heat is directly supplied because each of the flue 120 is directly connected to the heat generating portion 110. Therefore, the heat is minimized and uniformly supplied to both the bottom 130 and the wall 140 to be heated.

Secondly, the heating unit 110 and the flue 120 of the bottom 130 is connected to the smoke and heat is first supplied to the bottom 130, the flue of the bottom 130 The 120 is connected to the flue 120 of the wall 140 to supply smoke and heat. This structure is a circulation method that uses the characteristics of smoke and heat, and has the advantage of inducing a natural circulation of smoke and heat by using the principle that the high-temperature, low-density air moves up due to the density difference with cold air. . At this time, the wall portion 140 may be formed at the top of the wall separate the flue 120 for the circulation of smoke and heat.

Third, the smoke and heat generated from the heat generating unit 110 are directly supplied to the flue 120 of the wall part 140. Such a structure has a structure in which the flue 120 of each of the wall parts 140 is connected to circulate the smoke and the smoke, and finally, the smoke and the heat are moved to the bottom 130. This structure has the advantage that the circulation of smoke and heat in the wall portion 130 is easier. In general, the floor can be heated through a variety of existing heating devices, but because there is no device for heating the wall it is possible to maximize the heating efficiency by heating the wall effectively with this structure.

In addition, the heating device using a warm heating flue as shown in FIG. 4, the flue 120 has a heat insulating member 122 surrounding the outside, the heat storage between the flue 120 and the heat insulating member 122 It may be provided with a member 123. Therefore, the flue 120 may minimize heat emission to the outside that does not require heating and may concentrate heat emission in a room, which is a target area for heating, to maximize heating efficiency. In addition, the heat storage member 123 stores heat of the flue 120 and continuously radiates heat, which has an advantage in duration of heat. At this time, the heat insulating member 122 is preferably not formed on the surface in contact with the room for heat radiation to the room.

In addition, the wall portion 130 may further include a heat insulating space 141 formed to be hollow therein. The insulation space 141 serves to minimize the heat emitted from the interior by forming a space in the interior and exterior to enhance the insulation effect. This insulation effect is as important as supplying heat to the room, and has the advantage of keeping the temperature obtained by heating for a long time to keep the heat in the room.

In addition, as illustrated in FIG. 5, the flue 120 on the top of the wall part 130 has a structure connected to each flue 120 and circulated so that heat can circulate. Therefore, the heat does not end once the room is warmed up, but continuously circulates and releases heat, thereby enabling efficient use of heat.

In addition, the smoke and heat generated from the heat generating unit 110 is supplied to the discharge unit 150 by using the flue 120 is discharged to the outside. At this time, the discharge unit 150 may be located at the end of the year (120). This is a structure for minimizing heat discharged to the discharge unit 150 to maximize the use of smoke and heat generated from the heat generating unit 110.

In addition, as shown in Figure 6, the heating device 100 used for heating the house made of a sandwich panel or vinyl used as a plant cultivation facility is a heat generating unit 110 and the smoke is generated It includes a flue 120 through which the smoke and heat generated in the heat generating unit passes and the heat storage means 124 formed in the flue 120. This has a structure in which the flue 120 is directly exposed because the flue 120 cannot be formed on a sandwich panel or a wall made of vinyl. At this time, the heat storage means 124 is provided with a heat storage member 123 on the outside to store and release the heat of the flue to enable continuous heating. In addition, the heat storage means 124 is preferably formed in a shape that becomes larger as the distance from the heat generating unit 110 increases. This is because the temperature of the heat generated in the heat generating unit 110 is inversely proportional to the distance, so that the heat must be included more in order to have the same temperature becomes bulky.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

100: heating
110: heating unit
120: year
121: unevenness 122: heat insulating member
123: heat storage member 124: heat storage means
130: bottom
140: wall portion
141: insulation space
150:

Claims (8)

In the heating device 100 for heating the room,
A heat generating unit 110 in which smoke and heat are generated;
Flue 120 through which the smoke and heat generated by the heating portion passes;
A bottom portion 130 including at least one year to form a floor of the room;
A wall portion 140 including at least one or more of the flue to form a wall of the room; And
Is formed on one side of the flue 120, the discharge unit 150 for discharging the smoke and heat generated from the heat generating unit 110 to the outside;
In the use of a plant cultivation facility heat storage means 124 is formed in the flue 120 in the form of increasing volume according to the distance to the heat generating unit 110 and having a heat storage member 123 on the outside Heating device using a heating and heating flue characterized in that it further comprises a).
The method of claim 1, wherein the year 120,
Heating device using an insulating heating flue characterized in that the bottom portion 130 or the wall portion 140 is formed using the unevenness (121).
The method of claim 1, wherein the year 120,
Heating device using a heating and heating flue characterized in that the bottom portion 130 or the wall portion 140 is formed in a cylindrical shape.
The method of claim 1, wherein the wall portion 140,
Heating device using a heat insulation and heating flue characterized in that it further comprises a heat insulating space (141) formed inside the wall portion 140 in a hollow.
The method of claim 1, wherein the year 120,
Heating device using an insulating heating flue characterized in that it comprises a heat insulating member 122 surrounding the outside.
The method of claim 5, wherein the year 120,
Heating device using an insulating heating flue characterized in that it comprises a heat storage member (123) between the heat insulating member (122) and the flue (120).
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