KR101734025B1 - Combination cooking stove peace - Google Patents

Abstract

[0001] The present invention relates to a cooking stove, and more particularly, to a cooking stove which is provided with an inlet port on one side and an outlet port on an upper side thereof, a combustion chamber and a heating chamber are provided therein, An air guide passage is formed in a lower portion of the combustion net to communicate with the inlet port, and an air guide passage is formed in an end of the combustion port, A connecting port is formed to allow the heat of the combustion chamber to be transmitted to the heat generating chamber so that the heat of the burned fuel is sequentially transferred to the combustion chamber and the heat generating chamber and the common hearth which is generated by combustion of the fuel by the guide panel of the partitioning portion and the heat- The thermal efficiency is improved and the generation of smoke is reduced as the residence time of the heat is increased The effect of being able to completely burn the fuel.

Description

Combination cooking stove peace

More particularly, the present invention relates to a cooking stove for a cooking stove, and more particularly, to a cooking stove which is heated to a combustion chamber and a heating chamber sequentially, and is heated by combustion of fuel by a guide panel of a partition wall, The present invention relates to a cooking stove for combined cooking, in which the thermal efficiency is improved, the generation of smoke is reduced, and the fuel can be completely burned.

In winter, various types of heating appliances that use heat sources such as gas, electricity, oil, coal, and wood are widely used. New models continue to be released as they evolve in terms of safety, efficiency, and aesthetic design .

As the depletion of fossil fuels becomes reality, fuel prices continue to rise. As a result, gas and electricity prices are continuing to increase, and no one can deny the situation, which is so unstable that the price hikes of raw materials can happen at any time.

Unfortunately, there are still people around us who are having difficulty in winter due to economic difficulties. The surge in commodity prices will surely make it harder for people who are not able to afford it in the winter months.

On the other hand, it is common to see fire in a large open space in the marketplace of a traditional market or a rural area in winter to endure the cold. Also, in the newsstand installed near the road, various timber, waste paper, and incineration can be seen occasionally.

Although this is not universal, it is easy to see that there is a large amount of waste in the construction site, various kinds of waste furniture, wooden boxes, and paper boxes around our lives. These wastes can be good fuels, but there is no way to properly utilize them, and in some cases, disposal at a cost. On the other hand, if you want to buy the waste wood from the construction site, you can buy it at a very low price.

Therefore, if a heating device capable of appropriately using wood, paper, etc. generated in the vicinity of our living room is provided, it can be seen that cheap heating is possible without using expensive oil, coal, electricity, or gas.

The most commonly used type of wood burner is a wall burner, which is generally installed in restaurants where fashion and portability are important.

Such conventional wood burner is considered unsuitable for use in street market stalls, market stalls installed on the road, various construction sites, etc., where the installation space is limited, as in Korean Patent Application No. 20-2013-0005929 . In other words, this kind of wood burner lacks mobility that women and women can easily move, and is not miniaturized to electric burner level.

If the reformed gas burner is upgraded, it will solve the winter heating problem of merchants who are not economically generous.

Also, in the case of street vendors, it is difficult to cook and store food even when using an electric burner, and it is difficult to supply hot water. Therefore, if a portable miniature wood burner can cook and store warm food, even cook rice, and provide warm water, it can be useful for merchants who have difficulty in setting up special cooking facilities and water supply facilities It is clear.

The above-mentioned invention means the background art of the technical field to which the present invention belongs, and does not mean the prior art.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a fuel cell system in which heat of combustion fuel is sequentially transferred to a combustion chamber and a heat generation chamber, The present invention is intended to provide a cooking stove which is combined with a cooking stove which can increase the thermal efficiency and reduce the generation of smoke and burn the fuel as the stagnation time of the stove increases.

The present invention relates to a stove body having an inlet formed at one side thereof and an outlet formed at an upper side thereof, a combustion chamber and a heat-generating chamber provided therein, a door for opening or closing the combustion chamber, and a partition wall An air guide passage is formed in a lower portion of the combustion chamber of the furnace body so as to communicate with the inlet port and a connection port is formed at an end of the combustion chamber so that the heat of the combustion chamber is transmitted to the heat generating chamber .

In addition, a guide panel is further formed in the diagonal direction so that a hot air passage is formed in the connection port, and the hot air passage is formed to be narrowed upward as it goes upward, and a cooking port is formed on the upper surface portion of the heater main body, , And a stopper is fitted in the cooking cavity.

In addition, a stagnant partition wall is formed in an oblique direction on an inner surface of the stove main body, a transfer passage is formed between the stagnant partition wall and the partition wall portion, and heat and smoke transferred to the transfer passage are discharged through the discharge port And is discharged to the outside.

In addition, a curved guiding wing is further formed on the inclined projecting portion at one side of the bottom surface of the partition wall portion, an installation groove is formed in the guiding wing, a pen is further installed in the installation groove, And a plurality of dustproof blades made of a synthetic fiber material are further provided at a lower portion of the frame.

In addition, a vibration module is further provided in the stove body, the vibration module part is provided with a working groove, a pair of striking protrusions are formed on one side of the operating groove, and the striking protrusion is struck on the inner side of the operating groove And a vibrating device composed of an eccentric cam and a motor for rotating the eccentric cam.

In the combined cooking fireplace of the present invention, the heat of the burned fuel is sequentially transferred to the combustion chamber and the heat generating chamber, and the residence time of the heat is longer than that of the general hearth heated by combustion of the fuel by the guide panel of the partition wall and the heat storage chamber partition wall The thermal efficiency is improved and the generation of the smoke is reduced and the fuel can be completely burned.

1 is a cross-sectional view showing a cooking-companion hearth hearth according to the present invention.
FIG. 2 is a state view showing a cooking stove used for cooking in accordance with the present invention.
3 is a view showing another embodiment of a cooking-companion fireplace according to the present invention.
4 is a view showing still another embodiment of a cooking-companion fireplace according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, preferred embodiments of a cooking-companion fireplace according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but merely as an example, and various embodiments may be implemented through the present invention.

FIG. 1 is a cross-sectional view showing a cooking cavity for a cooking stove according to the present invention, FIG. 2 is a state view showing a cooking stove for a cooking stove according to the present invention, and FIG. 3 is a view showing another embodiment of a cooking stove for a cooking stove according to the present invention And FIG. 4 is a view showing still another embodiment of a cooking-companion fireplace according to the present invention.

As shown in the figure, the cooking-companion fireplace stove 10 according to the present invention (hereinafter referred to as a fireplace stove burner) is a fireplace stove capable of cooking by using wood to heat it, And the like, and the fire fighting stove 10 is composed of the stove body 20 and the partition wall portion 30.

The furnace body 20 has a rectangular housing structure and is made of a metal material. An inlet port 21 is formed to allow air to flow in one side of the furnace body. A discharge port 22 is formed in the upper side to discharge the smoke. And a door 25 for opening or closing the combustion chamber 23 is provided on one side of the stove main body 20.

At this time, a furnace network 26 is formed below the combustion chamber 23 of the stove main body 20 and an air guide passage 27 is formed in a lower portion of the furnace network 26 to communicate with the inlet 21. 1, the furnace body 20 is fixed to the furnace body 20 by welding or screwing.

It is preferable that the inlet 21 is provided with an opening / closing door so as to block or introduce inflow of air.

The partition 30 is formed of a metal material and is formed in a panel structure and is welded or screwed to the inner surface of the hearth main body 20 as shown in FIG.

The inside of the stove body 20 is partitioned into the combustion chamber 23 and the heat generating chamber 24 by the partition 30.

At this time, a connecting hole 31 is formed at the end of the partition 30 so that the heat of the combustion chamber 23 is transmitted to the heat generating chamber 24.

The connection port 31 is formed with a guide panel 32 in a diagonal direction so as to form a hot air passage 33. The hot air passage 33 is narrowed toward the upward direction, A cooking cavity 28 is formed on an upper surface of the cooking cavity 28 so as to face the cooking cavity 28 and a stopper 40 is inserted into the cooking cavity 28.

The guide panel 32 is inclined in a direction toward the other side (right side in the drawing) of the hearth main body 20 in an upward direction and is welded and fixed to one side of the connecting hole 31.

At this time, the hot air passage 33 is formed in a narrow structure, so that the heat is rapidly transferred to the cooking container disposed in the cooking cavity 28, so that the heat can be efficiently transferred to the cooking container.

A retention partition wall 50 is formed in an oblique direction on the inner surface of the upper part of the hearth main body 20 and a transfer passage 60 is formed between the retention partition wall 50 and the partition wall 30, So that heat and smoke delivered to the transfer passage (60) are discharged to the outside through the discharge port (22).

The stay partition wall 50 is inclined toward one side (left side in the figure) of the hearth main body 20 downwardly and is welded and fixed to the inside of the hearth main body 20.

At this time, the heat transferred by the guide panel 32 and the retention barrier 50 is moved in a zigzag form, so that the residence time of the heat is increased to improve the efficiency and complete combustion. In addition, the guide panel 32 and the retention barrier 50 are inclined so that the guide panel 32 and the retention barrier 50 can guide without heat.

When the door is opened and the wood is placed in the combustion net, the heat is moved along the combustion chamber and the heat generating chamber, and the hot passageway 33 is opened, So that the heat can be efficiently transferred to the cooking container disposed in the cooking cavity 28 and the heat generated by the guide panel 32 and the stay partition 50 The moving heat is moved in a zigzag form to increase the residence time of the heat, thereby improving the efficiency and enabling the complete combustion, and the smoke is discharged to the outside through the discharge port, thereby completing a series of processes.

3, an inclined protrusion 34 is formed at one side of the bottom surface of the partition 30 in a diagonal direction, and a curved guiding vane 35 is further formed at the inclined protrusion 34, A mounting hole 351 is formed in the blade 35 and a pen 352 is further installed in the mounting groove 351. A plurality of dustproof blades 51 made of a synthetic fiber material are formed in the lower portion of the accommodation barrier 50, . The vibration damping vane 51 is fused to the lower portion of the stay partition wall 50 to remove dust that is moved during the forced movement of the pen, and the flow of heat can be delayed, .

That is, the smoke, which is transferred to the door 25, is guided by the curved guiding vanes 35 so as to prevent the smoke generated in the process of burning the trees from flowing back to the door direction, And the smoke and the heat are moved again toward the connection port 31 by driving the pen 352 to prevent the smoke from flowing out to the outside through the gap between the doors 25. [

Referring to FIG. 4, vibration is transmitted to the wood fuel disposed in the furnace main body 20, so that air is introduced through the gaps between the trees to increase the combustion efficiency. And a pair of striking protrusions 72 are formed on a surface of the operating groove 71 of the vibration module 70 so as to be spaced apart from each other by a predetermined distance. The eccentric cam 731 for striking the eccentric cam 731 and the motor 732 for rotating the eccentric cam 731 are further formed on the upper surface of the eccentric cam 731. By driving the motor 732, The vibration transmitted through the striking protrusion 72 is sequentially transmitted to the stove body 20, the working net 30 and the wood fuel. It is preferable that at least one or more vibration module units 70 are installed in the stove body 20 and the stove body 20 is fixed to the stove body 20 by welding or screwing.

The vibration module unit 70 may be formed by forming a fixing groove of the hearth main body 20 and drawing the fixing groove into the fixing groove, followed by fusion-fixing.

5, the stove main body 20 is formed with a fixing groove 29 for receiving the vibration module unit 70, and the fixing groove 29 is formed in the lower part of the vibration module unit 70 And the upper elastic spring 82 disposed at the upper portion of the vibration module 70 inserted into the fixing groove 29 and the fixing groove 29 are screwed, And a stopper 83 for stopping the vibration of the vibrating module 70. The vibrating module 70 is further provided with a noise damping device 80 composed of a vibrating module 70, The lower elastic spring 81 and the upper elastic spring 82 disposed at the lower part and the upper part of the body can block noise generated during vibration.

10: fire wood stove 20: fire stove main body
30: partition wall portion 40: stopper
50: retention partition wall 60:
70: Vibration module part 80: Noise reduction device
21: inlet 22: outlet
23: combustion chamber 24:
25: door 26:
27: air guide passage 28: cooking cavity
29: Fixing groove
31: connector 32: guide panel
33: connecting passage 34: inclined projection
35: guide wing 351: installation groove
352: Pen
51: dustproof wing
71: operating groove 72: striking projection
73: Vibrating device 731: Eccentric cam
732: Motor
81: lower elastic spring 82: upper elastic spring
83: Plug

Claims (5)

A furnace body having an inlet formed on one side thereof, an outlet formed on the upper side thereof, a combustion chamber and a heat generating chamber provided therein, and a door for opening or closing the combustion chamber; And
A partition wall portion provided inside the hearth main body,
A combustion network is formed in a lower portion of the combustion chamber of the stove body and an air guide passage is formed in a lower portion of the combustion network to communicate with the inlet,
A connection port is formed at an end of the partition wall portion so that the heat of the combustion chamber is transmitted to the heat generating chamber,
A slanting protrusion is formed on one side of the bottom surface of the partition wall,
A curved guide vane is further formed on the inclined projection,
The guide vane is provided with an installation groove, and the installation groove is further provided with a pen,
The smoke moving to the door is guided by the curved guiding wing and moved in the direction of the connecting port and the smoke and the heat are moved again in the direction of the connecting port by the driving of the pen so that the smoke flows out to the outside through the gaps of the door However,
A plurality of dustproof blades made of synthetic fiber material are further provided at the lower portion of the retention bulkhead,
The dustproof vane is welded and fixed to the lower portion of the retention bulkhead to remove the dust to be moved, and the flow of the heat can be delayed, so that the residence time of the heat can be increased,
The furnace body further includes a vibration module portion,
Wherein the vibrating module part is formed with an operation groove, a pair of impact protrusions formed on one surface of the operation groove, and an inner surface of the operation groove is formed with an eccentric cam striking the impact protrusion and a motor configured to rotate the eccentric cam A vibrating device is further provided,
A lower elastic spring disposed at a lower portion of the vibration module portion and a upper elastic spring disposed at an upper portion of the vibration module portion inserted into the fixing groove, A vibration damping device composed of a stopper fitted in the fixing groove is further provided to transmit the vibration transmitted from the vibration module part to the operation network and to block the noise generated when the vibration is generated by the elastic spring Combined cooking fireplace with cooking.
The method according to claim 1,
Wherein the connection port is further formed with a guide panel in an oblique direction so as to form a hot passageway, and the hot passageway is formed to be narrower in an upward direction,
Wherein a cooking cavity is formed on an upper surface of the main body of the cooking stove so as to face the cooking cavity, and a stopper is inserted into the cooking cavity.
The method according to claim 1,
Wherein a partition wall is formed in an oblique direction on an inner surface of the hearth body and a transfer passage is formed between the partition wall and the partition wall so that heat and smoke transferred to the transfer passage are discharged to the outside And the steam is discharged.


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