KR20100065496A

KR20100065496A - Fireplace system combined with ondol structure

Info

Publication number: KR20100065496A
Application number: KR1020080123848A
Authority: KR
Inventors: 이태경
Original assignee: 이태경
Priority date: 2008-12-08
Filing date: 2008-12-08
Publication date: 2010-06-17

Abstract

The present invention relates to a fireplace system incorporating ondol heating, comprising: a combustion chamber formed under the wall having an opening surface toward the first space in a residential space divided into a first space and a second space with one wall therebetween, A fireplace disposed under the combustion chamber, the air inlet through which external air is introduced, and a connection passage connected to an upper portion of the rear of the combustion chamber to discharge fire; And a dogling seat that the firearm transmits to the saddle field of the second space through the connection passage; a bunker that is a passage of the firearm received through the dogdle seat; It includes; Ondol heating structure consisting of a chimney passage for discharging the firearm received through the outside.

Providing this invention, to improve the energy efficiency of the fireplace system, to recycle the heat energy for various uses and auxiliary heating, to smooth the flow of air outside the indoors to prevent smoke from entering the room, High efficiency radiant heating and floor heating can be achieved at the same time.

Description

Fireplace system combined with ondol structure

The present invention relates to a heating system, and more particularly, to increase energy efficiency and energy recycling, to provide a clear air and smooth flow of the room, and to effectively radiate heating, floor heating and auxiliary heating at the same time effective fireplace The invention relates to a system.

Usually, the fireplace has the effect of interior decoration for the main purpose of heating, the configuration is installed in the built-in form on one side wall of the room, looking at the configuration of the fireplace with reference to Figures 1 and 2 the fireplace (1) A built-in combustion chamber 2 is formed on one side wall of the living space to burn wood or coal, and an exhaust port 3 connected to the chimney 4 is provided on the upper side of the combustion chamber 2 to exhaust smoke. Is formed.

On the other hand, the conventional fireplace (1) as described above has a problem that the heating efficiency is low despite the main purpose of heating, as shown in Figure 2 the majority of the heat energy generated by burning the fuel exhaust port 3 and the chimney Emitted to the outside through (4), only a part of the heat was introduced into the room, the thermal efficiency was extremely low, and tended to be installed only as a function of interior decoration rather than the purpose of heating.

In addition, the conventional fireplace 1 has a problem that it is not possible to control the amount of air introduced into the combustion chamber 2, but the amount of fuel that is injected only into the combustion chamber 2, that is, the amount of fuel or combustion of coal can not control the intake air There is a problem that it is difficult to heat the heating to the desired room temperature by adjusting the heating temperature by adjusting the.

In addition, since the warm air introduced into the room from the combustion chamber 2 includes a large amount of smoke, the indoor air is contaminated. Therefore, if the exhaust port 3 of the fireplace 1 is formed wide so that the smoke does not enter the room, the thermal efficiency is further reduced. When the exhaust port 3 is narrowly formed to increase the thermal efficiency, the amount of smoke flowing into the room increases.

An object of the present invention to solve the above problems is to combine the conventional fireplace and ondol heating system to increase the energy efficiency of the fireplace system, to recycle the heat energy to use in a variety of uses and auxiliary heating, indoor and outdoor air flow This is to prevent smoke from entering the room, and to achieve the effect of high-efficiency radiant heating and floor heating through the smooth flow of fire.

A first feature of the present invention for solving the above problems is a combustion chamber formed in the lower portion of the wall formed with an opening surface toward the first space in a residential space divided into a first space and a second space with one wall therebetween. A fireplace formed at a lower portion of the combustion chamber, the air inlet through which outside air is introduced, and a connection passage connected to an upper portion of the rear surface of the combustion chamber to discharge fire; And a dogling seat that the firearm transmits to the saddle field of the second space through the connection passage; a whale that is a passage of the firearm received through the dogdle seat; and a pier to temporarily accumulate the firearm connected to the whale; It includes an ondol heating structure consisting of a chimney passage for discharging the firearm received through the pit to the outside.

Here, the opening and closing mechanism is preferably installed on the opening of the fireplace, the fuel support plate is formed with a through hole so as to drop the ash due to the combustion of the fuel is located, and a predetermined space is formed between the fuel support plate and the air intake opening It is preferable that the backrest is installed to load the dropped ash.

In addition, it is preferable that a heat exchanger is installed on the upper surface of the combustion chamber to absorb a part of the fire and accumulate and release heat, and further includes an auxiliary heating device for heating another space by using a hot water pipe connected to the heat exchanger. Also preferred.

Further, preferably, the rear wall of the fireplace and the inlet bottom surface of the connection passage may be made of a heat storage member capable of accumulating and radiating part of the combustion heat, and the end of the connection passage and the beginning of the chimney passage. At least one of the breeze line take-out structure for smoothing the flow of fire may be installed.

It is preferable that a chimney pan that can be opened and closed at an end portion of the chimney passage is installed, and a boiler heating device through an excel pipe roll is coupled to the top of the saddle field.

According to a second aspect of the present invention, in a residential space divided into a first space and a second space with one wall therebetween, a combustion chamber formed below the wall having an opening surface toward the first space, A fireplace comprising an air inlet through which outside air is introduced, a heat exchanger positioned above the rear wall of the combustion chamber, and a connection passage connected between the combustion chamber front wall and the heat exchanger behind the rear wall to discharge fire; And a hooker seat which the firearm transmits to the saddle field of the second space through the connecting passage, a whale which is a passage of the firearm received through the sleeper seat, and is connected to the room whale to temporarily accumulate the firearm under the same pressure. It includes; and the ondol heating structure consisting of a chimney passage for discharging the firearms received through the revolve to the outside.

In addition, the seating seat is preferably located behind the rear wall, the opening and closing mechanism is preferably installed on the opening surface of the fireplace, the fuel support plate is formed so that the through hole is formed so as to drop the ash caused by the combustion of the fuel, It is preferable that a backrest is formed to form a predetermined space between the fuel backing plate and the air intake port and to load the dropped ash.

In addition, it is preferable to further include an auxiliary heating device for heating another space by using a pipe connected to the heat exchanger, the rear wall of the fireplace is a heat storage member capable of accumulating and radiating part of the combustion heat. It is preferably made, it is preferable that the chimney fan that can be opened and closed at the end portion of the chimney passage, it is preferable that the boiler heating apparatus through the excel pipe roll is coupled to the top of the saddle.

According to a third aspect of the present invention, in a one-room residential space divided into a first space and a second space divided by a floor step, a combustion chamber having an opening surface toward the first space below a boundary wall of the second space, the combustion chamber A fireplace formed at a lower part of the air inlet through which outside air is introduced and a connection passage connected to an upper part of the rear of the combustion chamber to discharge fire; And through the connecting passage, the fire dog seats delivered to the saddle field of the second space, and the whale whale which is the passage of the fire flames received through the dog bed place, and the gorge to temporarily accumulate fires connected to the whale; It includes, ondol heating structure consisting of a chimney passage for discharging the firearm received through the pit to the outside.

Here, the opening and closing mechanism is preferably installed in the opening surface of the fireplace, the combustion chamber bottom surface is a through hole is formed so as to support the fuel, and to drop the ash caused by the combustion of the fuel, the bottom surface and the air blowing It is recommended that a backrest is installed between the inlets to accommodate the ash.

In addition, a heat exchanger may be installed on the upper surface of the combustion chamber to absorb a part of the fire and accumulate and release heat, and an auxiliary heating device for heating another space by using a hot water pipe connected to the heat exchanger. It may be included, the rear wall of the fireplace and the inlet bottom surface of the connection passage may be made of a heat storage member capable of accumulating and radiating part of the combustion heat.

When providing the present invention, to improve the energy efficiency of the fireplace system, to recycle the heat energy to use for a variety of uses and auxiliary heating, to smooth the flow of air outside the room to prevent the smoke from entering the room, High efficiency radiant heating and floor heating can be achieved simultaneously through smooth flow.

In addition, when the incoming air from the outside in the cold weather, such as winter, the room temperature is lowered and the heating efficiency is lowered, the air introduced from the outside by the combustion of the fuel in the upper portion of the air inlet from the outside By increasing the temperature of the incoming air, it is possible to reduce the temperature difference with the air in the room to reduce the heat loss and increase the heating efficiency.

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

3 is a view illustrating a side configuration of the fireplace system combined heating ondol according to the present invention. As shown in FIG. 3, the system is a structure in which the fireplace 100 and the heating element 200 are combined, for example, in a living space divided into a living room and a living room through one wall, and an opening surface under the wall toward the living room. A fireplace 100 formed of the combustion chamber 110 and a connection passage 150 connected to an upper portion of the rear wall of the combustion chamber 110 and an air inlet 140 under the combustion chamber 110; Fire bed (230) for passing the fire inlet from the combustion chamber 110 through the exhaust passage to the saddle field of the room, the passage of the fire and the space between the whale pit (or dolmen) and the whale (230) Connected with the heat transfer to the vents and then slowly cools the fire slowly cools down under the same pressure 240 and the chimney passage 250 for discharging the fire received through the revolved 240 to the outside It consists of; ondol heating 200 structure consisting of).

Referring to FIG. 3, when the fuel is put into the combustion chamber 110 and combusted, the combustion chamber 110 forms a firearm having combustion heat, and the firearm is transferred to the connection passage 150, and the firearm along the connection passage 150. Firearms gather in the sleeping place 210 of the back room. Firearms gathered in the seating seat 210 is passed through the floor front of the room evenly through the bungalow 230, the heat of the fire is to transfer heat to the bottom front of the room. Firearms that are moved from the whale 230 are gathered again in the gyro 240, and is discharged to the outside from the gyro 240 to the chimney passage 250.

Here, the whale is the passage of the firearm and the space between the cetaceans (or dolmens), and the grout is connected with the whale and transfers heat to the fireflies while moving, and then gradually cools the firearms that slowly cool down under the same pressure. It is a space that plays the same role. The function of the angular whale and the grind of the fireplace system according to the invention illustrated below is the same.

In addition, it is preferable to install a windshield that prevents the backflow of heat just before the blast. (Not shown) The heat of the fire flows uniformly and the bottom of the fire becomes more efficient. If it is irregular, heat loss as well as uniform heating of the entire floor is not possible.

As such, the present invention is the radiant heating to increase the temperature of the living room through the radiant heat radiated from the combustion chamber 110 of the fireplace 100, the air warmed by the combustion of the fuel in the fireplace 100, that is, firearms to the front of the floor of the inner room As a structure for heating the floor by flowing, the air inlet 140 is formed on the lower surface of the fireplace (100) through the circulation structure of the inflow of outside air and the outflow of air warmed from the combustion chamber 110, It is a structure that can provide a heating system.

Here, the heat exchanger 120 is a device for storing a part of the heat energy of the fireplace 100 to use as auxiliary heating, is installed on the combustion chamber 110, such as water inside the heat exchanger 120 by the heat of combustion. The temperature of the heat transfer medium is increased, and the heat transfer medium is used as another heating device by using an Excel pipe.

The bottom surface of the combustion chamber 110 is provided with a fuel pedestal having a through hole formed therein so as to drop ashes generated by combustion of fuel to the bottom, and a back support 135 having loaded ashes disposed thereon is installed under the fuel pedestal. In this case, the ash can be prevented from being blown out or discharged into the room, such as a living room, even during combustion, so that it is possible to keep the air cleaner than the air of the living room using the fireplace 100.

As shown in FIG. 3, an air inlet 140 is formed at a lower portion of the resupporting 135 of the combustion chamber 110 to introduce external air. This uses the fact that the passage of the indoor space flows in and out is formed to facilitate the flow of air, to form the air inlet 140 in the lower portion of the combustion chamber 110, to facilitate the flow of air This is because it plays a role of promoting combustion.

In addition, when the air coming from the outside in the cold weather, such as winter is introduced into the room, the room temperature is lowered, the heating efficiency is lowered, as shown in Figure 3 is installed in the air inlet 140 in the lower combustion chamber 110 Thus, the air introduced from the outside, by increasing the temperature of the air introduced from the outside by the combustion of the fuel in the upper air inlet 140, thereby reducing the temperature difference with the air in the room to reduce the heat loss You get

Figure 4 is a diagram illustrating a plan view of the fireplace 100 system coupled to the heating ondol 200 according to the present invention. As shown in FIG. 4, the firearm is delivered through a connecting passage 150 connected to an upper portion of the rear wall of the combustion chamber 110 having an opening surface toward the first space, and the firearms gather at the hooking seat 210 and then again the whale claw ( 230 through the chimney passage 250 is discharged to the outside.

Saddleuldeul 210 is a space formed between the connection passage 150 and the bangore 230, the firearms moved through the connection passage 150 are collected and accumulated firearms are spread to both sides of each whale 230 It will play a role of being scattered to. This is a structure for allowing the fire discharged from the narrow passage to be evenly distributed to the wide spreading boom whale 230. The oyster 240 shown in FIG. 4 also plays the same role.

That is, firearms gathered at the doguljari 210 are spread throughout the room through the bangore 230 to move back to gather in the oyster 240, the oyster 240 to facilitate the discharge to the chimney passage 250 again As a function as the above described dogulgu 210.

In addition, it is preferable to install a chimney fan 255 that can be opened and closed at the distal end of the chimney passage 250 in order to control the smooth flow of the fire. Since the chimney fan 255 opens and closes by electric on / off and also serves to control the flow of air, the air into which external air flows from the lower part of the combustion chamber 110 is changed into a fire through the combustion chamber 110. It is delivered to the chimney passage 250 to play a role of forcibly controlling the flow of air delivered to the outside.

Therefore, even when the fireplace 100 does not burn, when the fan of the combustion chamber 110 opening surface and the chimney passage 250 is closed, the fire is trapped in the whale claw 230, and heat is stored for a predetermined time or It is possible to keep warm, and it is possible to heat the bottom of the second space by the heat accumulated, it is possible to efficiently use the heat energy by the fireplace (100).

And the shape of the bungalow 230 may be formed by giving a variety of changes, the purpose of which is to spread the fire evenly delivered to the bungalow 230 from the doguldeul 210 to the floor front to form a uniform floor heating To do this. Those skilled in the art for this purpose can of course take a variety of structures of the whale (230).

5 is a schematic diagram illustrating a radiant heating structure of the fireplace 100 according to the present invention. As shown in FIG. 5, when fuel such as firewood is burned in the combustion chamber 110 of the fireplace 100 according to the present invention, the fire and radiant heat are emitted. As described above, the firearm is a structure that moves to the saddle field of the second space through the connection passage 150 and is discharged to the outside, and radiant heat is generated from a flame caused by combustion of fuel, or reflected by the inner wall of the fireplace 100 to open. It is a structure that is radiated to the first space through the spherical surface to be heated.

In general, in the case of the fireplace 100, the rear wall is vertical, and the wall material itself is a general brick in many cases, the radiation efficiency is reduced, but in the case of the fireplace 100 proposed in the present invention from the rear wall to the connection passage 150 Since the subsequent portion is bent, the reflection area is high in the opening area, and the heat storage member 137 is stacked on the rear wall and the inlet portion of the connection passage 150 to increase the accumulation and reflection efficiency of the radiant heat.

Figure 6 is a schematic diagram illustrating the flow of fire for ondol heating 200 of the fireplace 100 according to the present invention. As shown in FIG. 6, when fuel such as firewood burns in the combustion chamber 110 of the fireplace 100 according to the present invention, the fire and radiant heat are emitted. As described above, the firearm is moved to the saddle field of the second space through the connection passage 150 to be discharged to the outside while heating the bottom of the second space.

Referring to FIG. 6, the fuel receives the fuel by the fuel support 130 having the through hole formed therein, and the fuel is burned, and the ash falls during the combustion through the through hole. The backrest 135 may be positioned to prevent fuel from entering or blowing into the room. The air inlet 140 is formed at the bottom of the backrest 135 to introduce external air into the room, which maintains the fresh air and facilitates combustion by smoothing the flow of air. Because.

Here, the air inlet 140 is preferably formed in the fan connected to the outside in order to introduce the outside air, which is to force the outside air or to adjust the flow amount of indoor air in that point can be controlled In consideration of the optimization of, the control of the combustion state of the combustion chamber 110, there is an advantage that can be easily controlled.

And, placing the air intake space below the re-support (135) is because the outside air temperature is low on the cold day of the cold, because the heating efficiency can be reduced by the temperature difference with the indoor air. Therefore, in the present invention, the lower portion of the backrest 135 has proposed a configuration of the present invention to prevent a decrease in heating efficiency by increasing the temperature of the air introduced from the outside by the heat of combustion.

As such, the present invention integrates three systems of the combustion heat burned in the fireplace 100 into the radiant heating of the first space, the ondol heating 200 of the second space, and the auxiliary heating of the heat exchanger 120 to minimize heat loss. Construct a high energy efficient heating system that reduces energy consumption and increases energy efficiency.

7 is a view illustrating a side configuration of a fireplace 100 system in which an ondol heating 200 is combined as another embodiment according to the present invention.

As shown in FIG. 7, the system is a structure in which the fireplace 100 and the ondol heating 200 are combined, for example, a residence divided into an inner room (second space) and a living room (first space) through one wall. In the space, the combustion chamber 110 has an opening surface formed in the lower wall toward the living room, the air inlet 140 below the combustion chamber 110, the combustion chamber 110 formed in the lower wall formed the opening surface toward the first space, Located in the combustion chamber 110, the air inlet 140, the outside air flows in, the heat exchanger 120 located on the upper rear wall of the combustion chamber 110, the combustion chamber 110 front wall and the heat exchanger A fireplace (100) consisting of a connection passage (150) connected between the rear walls and discharging the fire between the rear walls; Fire bed (230), the passage of the firearms received through the beddle seat 210, the beddle seat 210 to pass the firearms introduced from the combustion chamber 110 through the exhaust passage to the saddle field of the room; The ondol heating structure 200 is configured to be connected to temporarily accumulate firearms, and a chimney passage 250 for discharging the firearms received through the revolver 240 to the outside.

Referring to FIG. 7, when the fuel is put into the combustion chamber 110 and combusted, the combustion chamber 110 moves to an upper portion of the combustion chamber 110 because the combustion chamber 110 forms a fire with combustion heat and the temperature of the fire is high. The upper part of the combustion chamber 110 forms a connection passage 150 behind the rear wall of the combustion chamber 110 along the inner wall of the heat exchanger 120 and the front surface of the soft brush chamber. Fireballs gather in the sleeping place 210. Firearms gathered in the dogulja 210 is passed through the floor front of the room evenly through the room (230), the heat of the fire is to transfer heat to the bottom front of the room. Firearms that are moved from the whale 230 are gathered again in the gyro 240, and is discharged to the outside from the gyro 240 to the chimney passage 250.

Such a structure of the embodiment of the present invention by forming the connecting passage 150 along the heat exchanger 120 and the combustion chamber inner wall, it is possible to reduce the bottom step of the first space and the bottom of the second space, a general residential space There is an effect that can facilitate the construction of the present system.

Here, an opening and closing mechanism such as a damper 151 may be installed between the heat exchanger 120 and the inner wall of the combustion chamber 110 to control the fire delivery of combustion, and only heat the living room or the living room using the remaining heat after combustion by the flame. If you want to heat, the damper 151 can be closed to perform efficient radiant heating. And, it is preferable to install a fan in the end portion of the connection passage 150 to smooth the flow of the fire, and forcibly moved to the ball seat 210 when the heated air rises upward.

In addition, in the embodiment according to the present invention shown in Figure 7 is located behind the rear wall of the combustion chamber 110, the seating seat 210 is located, when the firearms moved along the connection passage 150 is collected in the seating seat 210 The heat of the rear wall heated by the combustion of the combustion chamber 110 may increase the temperature of the firearm or accumulate heat.

As such, the present invention is radiant heating to increase the temperature of the living room through the radiant heat radiated from the combustion chamber 110 of the fireplace 100, the air warmed by the combustion of fuel in the fireplace 100, that is, the fire is the front of the bottom of the room As a structure for heating the floor by flowing the air, the air inlet 140 is formed on the lower surface of the fireplace 100 to provide high-efficiency heating through the circulation structure of inflow of outside air and outflow of air warmed from the combustion chamber 110. It is a structure that can provide a system.

Here, the heat exchanger 120 is a device for storing a part of the heat energy of the fireplace 100 to use as auxiliary heating, by increasing the temperature of the heat transfer medium, such as water in the heat exchanger 120 by the combustion heat, the heat transfer The medium is used as another heating device by using an Excel pipe. That is, even when a hot water pipe such as Elsel pipe is installed on the upper floor of the saddle field in the second space, even when the fireplace is not used, the floor heating may be performed by using an auxiliary heating device (not shown).

The bottom surface of the combustion chamber 110 is provided with a fuel pedestal having a through hole formed therein so as to drop ashes generated by combustion of fuel to the bottom, and a back support 135 having loaded ashes disposed thereon is installed under the fuel pedestal. Thus, the ash can be prevented from being blown out or discharged to the outside during the combustion, such as, it is possible to maintain a clear air than the air of the living room using the fireplace 100 in general.

As shown in FIG. 7, an air inlet 140 is formed at a lower portion of the resupporting 135 of the combustion chamber 110 to introduce external air. This is because the air space can be smoothly formed when the passage of the indoor space flows in and out, to form the air inlet 140 in the lower portion of the combustion chamber 110, the air flow smoothly This is because it serves to promote combustion of fuel.

In addition, when the air coming from the outside in the cold weather, such as winter is introduced into the room, the room temperature is lowered, the heating efficiency is lowered, as shown in Figure 7 is installed in the air inlet 140 in the lower combustion chamber 110 In this case, by increasing the temperature of the air introduced from the outside by the combustion of the fuel in the upper portion of the air inlet 140, it is possible to reduce the temperature difference with the air in the room to reduce the heat loss.

8 is a view illustrating a side configuration of the fireplace 100 system as another embodiment according to the present invention. As shown in FIG. 8, the present invention provides a combustion chamber having an opening surface toward the first space under a boundary wall of the second space in a one-room residential space divided into a first space and a second space divided by a floor step. (110), the fireplace consisting of an air inlet 140, which is located below the combustion chamber 110, the outside air flows in and a connection passage 150 connected to the upper portion of the rear of the combustion chamber 110 to discharge the fire ( 100); And through the connection passage 150, the fire bed (210) for the firearms delivered to the saddle field of the second space, and the bungalow 230 which is the passage of the firearms received through the dogulsaul 210 and the whale Consists of the ondol heating (200) structure consisting of a gyro 240 connected to the 230 to temporarily accumulate fire, and a chimney passage 250 for discharging the firearm received through the gyre 240 to the outside do.

The first space and the second space are one-room residential spaces having different floor heights. A combustion chamber 110 having an opening surface toward the first space is provided below the boundary wall, and a passage is formed on the rear wall of the combustion chamber 110. , Through the passage, the fire caused by the combustion of the fuel passes through the doguljag 210 and the bungalow 230 in the second space to perform the ondol heating 200.

That is, unlike the above-described embodiments, the embodiment of the present invention shown in FIG. 8 combines the fireplace 100 and the ondol heating 200 in a studio-type living space in which there is no wall separating the first space and the second space. Heating system. As shown in FIG. 8, when the fuel is combusted in the combustion chamber 110, the radiant heat is used as heating in the first space, and the fired by the combustion is connected to the connection passage 150, the hooking seat 210, and the whale claw 230. ), And is discharged to the outside through the chimney passage 250 to heat the bottom of the second space.

Here, it is preferable to use a heat storage member such as ocher in the lower portion of the bangore 230. This is because when the common concrete floor is formed on the lower part of the whale (230), the heat loss increases because it may lower the efficiency of the ondol heating (200) due to the fire, such as loess 210 and the lower part of the whale whale 230, such as ocher It is preferable to use the heat storage member excellent in heat retention.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

1 is a view illustrating a perspective view of a conventional built-in fireplace,

2 is a view for explaining the flow of radiant heat of the conventional fireplace system,

3 is a view illustrating a side configuration of the fireplace system combined heating ondol according to the present invention,

Figure 4 illustrates a plan view of the fireplace system combined heating ondol according to the present invention,

5 is a schematic diagram illustrating a radiant heating structure of a fireplace 100 according to the present invention;

Figure 6 is a schematic diagram illustrating the flow of fire for ondol heating of the fireplace according to the present invention,

7 is a view illustrating a side configuration of a fireplace system in which ondol heating is combined as another embodiment according to the present invention;

8 is a view illustrating a side configuration of the fireplace 100 system as another embodiment according to the present invention.

100: fireplace, 110: combustion chamber, 120: heat exchanger, 130: fuel support,

135: reloading, 137: heat storage member, 140: air inlet, 150: connecting passage,

200: Ondol heating, 210: Doguljawi, 230: Bang whale, 240: Oyster

250: chimney passage, 255: chimney fan

Claims

In a residential space divided into a first space and a second space with one wall in between,

A fireplace comprising a combustion chamber formed under the wall having an opening surface toward the first space, an air inlet located below the combustion chamber, and a connection passage connected to an upper portion of the rear surface of the combustion chamber to discharge fire; And

The hook place where the firearm is transmitted to the saddle field of the second space through the connecting passage, the bungalow that is the passage of the firearm received through the dogulja seat, and the grenade connected to the room to temporarily accumulate the fire, and the Fireplace system combined with ondol heating, characterized in that it comprises an ondol heating structure consisting of a chimney passage for discharging the fire flames received through the pit.

The method of claim 1,

Fireplace system combined with ondol heating, characterized in that the opening and closing mechanism is installed on the opening surface of the fireplace.

The method of claim 1,

A fuel support plate having a through hole formed therein for dropping ashes caused by combustion of the fuel is located, and a support for installing the dropped ash is formed by forming a predetermined space between the fuel support plate and the air inlet. Fireplace system combined with ondol heating.

The method of claim 1,

On-heating combined fireplace system, characterized in that the heat exchanger is installed on the upper surface of the combustion chamber to absorb a portion of the fire accumulate and release heat.

The method of claim 4, wherein

Ondol heating combined fireplace system characterized in that it further comprises an auxiliary heating device for heating another space by using a hot water pipe connected to the heat exchanger.

The method of claim 1,

And a rear wall of the fireplace and an entrance bottom surface of the connection passage are heat storage members capable of accumulating and radiating part of the combustion heat.

The method of claim 1,

Fireplace system combined with ondol heating, characterized in that the breeze line take-out structure for smoothly the flow of the fire is installed in at least one of the end of the connecting passage and the beginning of the chimney passage.

The method of claim 1,

Fireplace system combined with ondol heating, characterized in that the chimney fan that can be opened and closed at the end of the chimney passage.

The method of claim 1,

Fireplace system combined with ondol heating, characterized in that the boiler heating device is coupled to the upper part of the gouljang excel pipe.

A combustion chamber formed under the wall having an opening surface toward the first space, an air inlet located under the combustion chamber to introduce external air, a heat exchanger located above the rear wall of the combustion chamber, and a heat exchanger with the combustion chamber front wall A fireplace composed of a connecting passage connected between the rear wall and the rear to discharge fire; And

The method of claim 10,

The bedding seat is combined with an ondol heating fireplace system, characterized in that located behind the rear wall.

The method according to claim 10 or 11, wherein

Fireplace system combined with ondol heating, characterized in that it further comprises an auxiliary heating device for heating the other space by using a pipe connected to the heat exchanger.

The method according to claim 10 or 11, wherein

The rear wall of the fireplace is a fireplace system combined with ondol heating, characterized in that made of a heat storage member capable of accumulating and radiating part of the combustion heat.

The method according to claim 10 or 11, wherein

In a studio-type residential space divided into a first space and a second space separated by floor steps,

Combustion chamber having an opening surface toward the first space below the boundary wall of the second space, an air inlet port located outside the combustion chamber, and a connection passage connected to an upper portion of the rear surface of the combustion chamber to discharge fire Composed fireplace; And

The method of claim 18,

The combustion chamber bottom surface is characterized in that the through hole is formed so as to support the fuel, and to drop the ash caused by the combustion of the fuel, the ash support is installed between the bottom surface and the air inlet is installed. Fireplace system combined with ondol heating.

The method of claim 18,