KR20150010531A - A stove wood and lignite thermal cycling - Google Patents

Abstract

The present invention relates to a stove for lignite and wood having an inlet (13), which receives lignite and wood (A) into a combustion chamber (11) and allows an observation window (12) for internal observation to be inserted thereinto; and a body (10) which stores lignite and wood (A) and allows a roaster (14) to spread heating power to be inserted thereinto. The stove comprises: a flow path part (20) penetrated to send the combustion heat (B) of the lignite and wood (A) combusted from the combustion chamber (11) of the body (10) to the top; and a heat circulation part (30) integrally fixated to the top of the body (10), is connected to the flow path part (20), and has a space part (39) to radiate the combustion heat (B) flowing in a curved direction and maximizes the heat radiation to a high-temperature heat state. Therefore, the present invention reduces heat loss through the heat radiation generated by reused combustion heat while preventing the combustion heat generated from the lignite and wood from being directly exhausted to the outside; can roast meat, fish, sweet potatoes, potatoes, and chestnuts through the radiant heat; and enables easy removal of oil generated from the meat and fish.

Description

A stove wood and lignite thermal cycling with thermal cycling structure,

The present invention relates to a lignite and a wood stove having a heat circulation structure, more specifically, to reduce heat loss through heat radiation generated by using combustion heat again without discharging the combustion heat generated from lignite and wood directly to the outside And a lignite and wood stove having a heat circulation structure capable of eating and eating food such as meat, fish, sweet potato, potato, chestnut, etc. through the radiant heat and easily removing oil generated from meat and fish.

Typically, a conventional fireplace using wood, lignite and wood as fuel is to obtain a strong fire power through inexpensive raw materials in winter. In such a fireplace, heat generated in a state in which wood or lignite and wood are housed therein is used for exerting a strong temperature, but heat loss is generated because internal heat is easily leaked to the outside.

For example, in Korean Patent Laid-Open No. 2007-0041799, a fuel inlet 110 is formed on an upper surface, and a rim-shaped frame filled with a refractory 170 is disposed at an edge of the fuel inlet 110 An upper end portion (100); A combustion gas outlet 220 at an upper end and an ignition device 230 at one side of the combustion gas outlet 220 and an outlet 240 for discharging the ash And a circular vertical pipe 251 having a plurality of air blast holes 252 opened in four directions on both sides of the combustion chamber 210 are formed on the bottom surface of the combustion chamber 210, A horizontal pipe 253 is formed along the inner circumference of the combustion chamber 210 except for the outlet 240 and an air induction pipe 250 having air holes 254 formed at a predetermined interval on the side of the horizontal pipe 253 An intermediate body portion 200 made of a metal material; A lower end portion 300 formed of an air receiving portion 310 communicating with the air induction pipe 250 of the intermediate body portion 200; And an air blowing means 400 for forcibly injecting air into the air receiving portion 310 of the lower end portion 300. [

However, in such a heating furnace, since the heat of the internal combustion is easily discharged to the outside, there is a problem that the heat loss is large and the cost is excessively expended.

Korean Unexamined Patent Publication No. 2007-0041799 " Heating stove "

Accordingly, it is an object of the present invention to solve the above-mentioned conventional problems, and it is an object of the present invention to reduce heat loss by radiating heat generated by using combustion heat again without discharging combustion heat generated from lignite and wood, It is an object of the present invention to provide a heat circulation structure capable of easily eating meat such as meat, fish, sweet potatoes, potatoes, chestnuts and the like through the radiant heat and easily removing the oil generated from meat and fish.

In order to accomplish the above object, the present invention provides a combustion apparatus, comprising: a combustion chamber having a charging port through which an observation window is interposed to allow lignite and wood to be accommodated therein, and a lobe interposed between the lignite and the wood for dissipating thermal power; A flow path passing through the upper part of the combustion heat of the lignite and wood burned from the combustion chamber of the body; And a heat circulation part that is integrally fixed to the upper part of the body and is provided with a space part for radiating heat in a direction in which the combustion heat flows in a state of being communicated with the flow path part so as to maximize the heat to a high temperature state. do.

At this time, the thermocycler has a roughening groove for bending the meat and fish in a state of receiving the heat through the combustion heat generated from the inside of the upper surface, and the roughening groove has an adjustment bolt for controlling the discharge of oil generated from the roasting And an oil hole is provided.

The heat circulation unit may further include a roasting unit for forming a receiving unit on the upper side of the thermocycling unit to block the harmful smoke and to easily bake and eat the food on the receiving unit.

In addition, the moving body is provided with a wire net to prevent an accident by blocking the proximity while being installed on the outside, and the wire net further includes an auxiliary wire net so that goods and food can be seated on the side face.

It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described above, according to the present invention, the heat loss can be reduced through the heat radiation caused by the use of the combustion heat again without discharging the combustion heat generated from the lignite and the wood to the outside, , Sweet potatoes, potatoes, chestnuts, etc., and can easily remove oil from meat and fish.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a general shape of a lignite and a wood hearth having a thermal circulation structure according to the present invention;
FIG. 2 is an exploded perspective view showing a separated form of a lignite and a wood hearth having a thermal circulation structure according to the present invention, FIG.
3 is a perspective view showing a heat circulation part of a lignite and a wood stove having a heat circulation structure according to the present invention,
4 is a cross-sectional view showing a lignite and a wood hearth having a thermal circulation structure according to the present invention,
5 is a perspective view showing a wire mesh structure in a lignite and wood hearth having a heat circulation structure according to the present invention.

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

FIG. 1 is a perspective view showing a general shape of a lignite and a wood stove having a heat circulation structure according to the present invention, FIG. 2 is an exploded perspective view showing separated forms of a lignite and a wood stove having a heat circulation structure according to the present invention, FIG. 3 is a perspective view showing a heat circulation part of a lignite and a wood stove having a heat circulation structure according to the present invention, FIG. 4 is a sectional view showing a lignite and a wood stove having a heat circulation structure according to the present invention, Which is a perspective view showing a structure of a wire net in a lignite and a wood stove having a thermal circulation structure according to the present invention.

The present invention relates to a lignite and wood stove having a heat circulation structure, and comprises a flow path portion (20) and a heat circulation portion (30).

First, the lignite and wood hearth having the heat circulation structure of the present invention has a charging port 11 in which lignite and wood A can be accommodated and an observation window 12 is interposed so that the inside can be observed And a fuselage 10 in which lobsters 14 are interposed so that a thermal power is dissipated by placing lignite and wood A. The lance 14 is provided with an inlet 13 in the inside of the body 10, The lignite is liquefied and the wood A generates the heat of combustion B after the lignite and the wood A are put in and put on the roast 14. [ Thereafter, the user confirms the inside situation and the degree of burning of the lignite and the wood A through the observation window 12, and uses it. In addition, the lower portion of the lignite generated by burning in the roast 14 and the material of the wood A can be easily removed through the re-watering portion 15. [

The flow path portion 20 according to the present invention penetrates through the combustion chamber 11 of the body 10 so as to flow upward the combustion heat B of the burned lignite and the wood A. [ The passage portion 20 is formed so as to flow through the lignite and the wood A so that the heat of combustion B at a high temperature flows upward in the combustion chamber 11, And the combustion heat B flows. The flow of the combustion heat B is such that the high-temperature combustion heat B flows automatically through the convection.

The heat circulating part 30 according to the present invention is integrally fixed on the upper part of the body 10 and flows in a direction in which the heat of combustion B flows in a state of being communicated with the flow path part 20, And has a space portion 39 for maximizing the high temperature state. The heat circulation unit 30 is provided with a heat circulation unit 30 that is formed to communicate with the flow path unit 20 by flowing the heat B of the combustion chamber 11 through the flow path unit 20 by convection, . Thus, the heat of combustion B flowing into the heat circulation unit 30 can maximize the temperature of the heat B due to heat radiation caused by flowing in a curved shape. Such a configuration can be accommodated for a long time as the heat of combustion B generated in the combustion chamber 11 of the body 10 flows on the thermo-cycler 30, so that it can be heated for a long time and the heat of combustion B The waste heat generated by the waste heat is flowed to the space portion 39, thereby reducing the heat loss and reducing the consumption of the lignite and the wood A, thereby greatly reducing the burden on the consumer. The heat circulating unit 30 is preferably integrally formed on the moving body 10 through welding, but it may be detachable by forming another fixing means.

At this time, the thermo-circulation unit 30 has a roasted groove 31 for bending the upper surface of the upper surface in a state of receiving meat and fish through the heat of combustion B generated from the inside thereof, And an oil hole (31a) through which the adjustment bolt (32b) is interposed to control the discharge of the generated oil. The upper surface of the heat circulation unit 30 is configured to be able to bake and eat the meat and fish in a state where the meat and fish are housed in the roasting groove 31 through the heat of combustion B having the highest temperature due to thermal radiation. The roast grooves 31 are formed so as to be settled inwardly to accommodate food. An oil hole 31a is formed in the inside of the roasting groove 31 to guide the oil generated from the meat to the lignite and the combustion chamber 11 of the wood stove. Such a roughened groove 31 can be roasted through heat radiation, thereby reducing the heat loss, thereby achieving the maximum cost reduction effect. At this time, the oil hole 31a is provided with an adjusting bolt 31b which can be fastened in a state where a screw tab is formed. When the oil hole 31a is provided without the adjusting bolt 31b, The oil holes 31a are tightened through the adjustment bolts 31b and then the oil holes 31a are roughened through the adjustment bolts 31b to discharge the oil. So that the oil can flow into the oil hole 31a.

The heat circulating unit 30 further includes a burning unit 35 for forming a receiving unit 36 at the upper side of the heat circulating unit 30 to block the harmful smoke and to easily bake and eat food on the receiving unit 36 . The bulb portion 35 is formed with a receiving portion 36 having a predetermined size on the upper side of the heat circulating portion 30 so that food such as sweet potato, potato, ) Can be formed in one to three places because it is possible to bake and eat various foods through heat radiation and to reduce heat loss. The receiving portion 36 of the thermal circulation portion 30 is formed in a state of being disconnected from the combustion chamber 11. This is because the harmful smoke generated as the lignite of the combustion chamber 11 and the wood A are burned, (35) is prevented from touching with the food, so that the food can be safely eaten.

In addition, the wire net 40 according to the present invention blocks the proximity of the outside of the body 10 and the heat circulation unit 30 to prevent an accident in advance. The wire net 40 is configured to protect the safety of the user from the outside by wrapping around the body 10 and the heat circulation part 30. [

At this time, the body 10 is provided with a wire net 40 to prevent an accident by blocking the proximity of the body 10 while being installed on the outside. The wire net 40 has an auxiliary wire net 41 ). The auxiliary wire net 41 of the wire net 40 is configured to allow meat, fish and the like to be seared from the grill groove 31 of the thermal circulation unit 30, to be. This is a configuration to solve the inconvenience when the user grills the meat and put it on another table. The auxiliary wire net 41 may be integrally formed on the wire net 40, but may be formed in a ring shape at some ends so that the auxiliary net 41 can be mounted and separated.

The through hole 16 formed at the rear end of the moving body 10 is formed and fixed to the cover 17 by the cover 17. This is clogged with debris piled up on the space 39, It is possible to open the cover 17 and clean the debris that is trapped inside through the through hole 16. [

In the use of the present invention with reference to Figs. 1 to 4, first, lignite and wood A are placed on the roast 14 on the combustion chamber 11 of the body 10, and firepower is emitted. At this time, the interior is configured to be able to add lignite and wood (A) by confirming the internal situation and the degree of burning of the lignite and the wood (A) through the observation window (12) And the material of the wood (A) is simply removed through the re-watering portion 15. [0035] At this time, the user can enjoy the heat of combustion B generated from the combustion chamber 11 through the space portion 39 of the heat circulation unit 30, and the meat, fish, You can eat sweet potatoes, potatoes, chestnuts and other foods. That is, since the space 39 of the thermocycler 30 flows in a bending direction, it is maximized to a high temperature state through thermal radiation, thereby reducing heat loss.

As described above, according to the present invention, heat loss is reduced through heat radiation caused by the use of combustion heat again without discharging the combustion heat generated from lignite and wood directly to the outside, and it is possible to reduce heat loss through the radiation heat, And the like, and it is possible to easily remove the oil generated from meat and fish.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: Fuselage 11: Combustion chamber
12: observation window 13: input port
14: Lost 15: Re-
16: through hole 17: cover
20: induction unit 30: heat circulation unit
31: Grilled groove 31a: Oil ball
32b: adjusting bolt 35:
36: accommodating portion 39: space portion
40: Wire mesh 41: Border wire mesh
A: Lignite and wood B: Heat of combustion

Claims (4)

The burning apparatus comprises a combustion chamber 11 having a charging port 13 through which an observation window 12 can be inserted so that the lignite and the wood A can be received while the inside can be observed and the lignite and the wood A are placed on the combustion chamber 11, A lignite and wood hearth comprising a body (10) with a roast (14) interposed therebetween, characterized in that:
A flow passage 20 passing through the combustion chamber 11 of the body 10 so as to flow upwardly from the burning heat B of the lignite and the wood A burned from the combustion chamber 11; And
And a space portion 39 is provided in the upper portion of the body 10 so as to be integrally fixed to the upper portion of the body 10 and to radiate heat in a direction in which the heat B flows in a state of being communicated with the flow path portion 20, And a heat circulation unit (30) for heating the ladle. The method according to claim 1,
The heat circulation unit 30 includes a roast groove 31 for bending the meat and fish in a state of receiving the heat and heat through the heat B generated from the inside of the top surface, And an oil hole (31a) through which an adjustment bolt (32b) is provided to control the discharge of oil. The method according to claim 1,
The heat circulating part 30 further includes a grilling part 35 for forming a receiving part 36 at the front upper side to shield the harmful smoke and to easily bake and eat food on the receiving part 36 Lignite and wood stove with thermocycling structure. The method according to claim 1,
The body 10 is provided with a wire net 40 to prevent accidents by blocking the proximity of the body 10. The wire net 40 is provided with an auxiliary wire net 41 Wherein the lignite and the wood stove have a heat circulation structure.

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