KR102447702B1 - Pipe type combustion device - Google Patents

Abstract

The present invention is to provide a pipe-type combustion device that can use liquid animal and vegetable oils with poor ignition properties as fuel. A pipe-type combustion device according to the present invention comprises a body part storing fuel inside; a heating part coupled to the top of the body part; and an internal combustor having an air tank seated inside the heating part to inject air, a combustion chamber provided inside the air tank and receiving and burning stored fuel, and a pipe heated by the combustion chamber to heat the fuel to a flashing point and burning the fuel at one end.

Description

Pipe type combustion device

The present invention relates to a pipe-type combustion device, and more particularly, to a pipe-type combustion device capable of heating and ignition by introducing a fuel having a relatively high flash point, such as liquid animal or vegetable oil, into a pipe.

Global warming is rapidly progressing due to the increase in carbon dioxide generated by the use of fossil fuels, and interest in alternative energy that can replace fossil fuels is increasing.

Interest in alternative energy led to the birth of the term green growth, and as interest in green growth grew, efforts were made to use eco-friendly liquid animal and vegetable oils rather than conventional fossil fuels for fuel used in combustion devices. this is being done

In the case of fossil fuels, carbon dioxide is emitted when burned, and the emitted carbon dioxide is a cause of global warming. Of course, in the case of vegetable oil, carbon dioxide is emitted when it is burned, but since plants, which are raw materials for vegetable oil, absorb carbon dioxide from the atmosphere when growing. The amount of carbon dioxide produced by

Despite these advantages, liquid animal and vegetable oils could not be used as fuel for combustion devices. The reason is that, in general, in order to be used as fuel oil, ignitability must be good and the viscosity must be low enough to slosh, but liquid animal and vegetable oil has a high flash point, so ignitability is not good. Due to the characteristics of liquid animal and vegetable oil, in order to use liquid animal and vegetable oil as fuel oil, the liquid animal and vegetable oil must be processed to have a low viscosity.

Therefore, it is urgently needed to develop a combustion device that can be used as fuel oil without processing the liquid animal and vegetable oil having poor ignitability and high viscosity.

Domestic Patent Publication No. 10-2005-0083859 (2005.08.26)

It is an object of the present invention to provide a pipe-type combustion device capable of using liquid animal and vegetable oils having poor ignition properties as fuel.

Another object of the present invention is to provide a pipe-type combustion device capable of removing tar generated while using liquid animal and vegetable oil with high viscosity as a fuel.

A pipe-type combustion device according to an aspect of the present invention for achieving the above object includes: a body for storing fuel therein; a heating unit coupled to the upper portion of the body; and an air cylinder seated inside the heating unit to inject air, a combustion chamber provided inside the air cylinder to receive and burn fuel stored in the air cylinder, and heated by the combustion chamber to heat the fuel to a flash point and burn the fuel at one end An internal combustion device having a pipe; may be provided.

The pipe includes a fixture fixed to the combustion chamber, a heating pipe connected to the fixture, having a space spaced apart from the combustion chamber by a certain distance, and having fuel therein while extending in a spiral shape, and one end of the heating pipe is coupled to the A diffusion pipe for exposing the fuel introduced into the heating pipe to the outside for combustion may be provided.

The diffusion pipe has a coupling hole at which one end is coupled to the heating pipe, a part of the other end of the diffusion pipe is cut to expose the fuel introduced therein, and a pyrolysis section in which the exposed fuel is heated to reach a flash point and combusted can be provided.

The heating pipe includes a coupling means coupled to the diffusion pipe, a heating part spirally extending in one direction from the coupling means having fuel therein, and a heating part extending in one direction from the heating part and connected to the body to supply fuel It may be provided with a receiving fuel connection part.

In the pipe, the heat generated by the internal combustor is transferred to the fuel introduced into the heating part to be heated, and the fuel that has reached the flash point is exposed and burned in the pyrolysis section, but the fuel may not be combusted in the heating pipe. .

The combustion chamber may include a pipe hole for accommodating the pipe, and a ceramic mat provided on an inner bottom of the combustion chamber to receive fuel and burn while heating the heating part.

The ceramic mat may be injected with fuel in advance, or a portion of the exposed fuel may be supplied to the diffusion pipe and burned.

The heating unit may include a blower coupled to the lower portion to inject air into the air container, and a pump unit provided under the heating unit to supply fuel to the pipe.

The body portion may include a fuel storage box for supplying fuel to the pump in which fuel is stored therein.

According to the pipe-type combustion device according to the present invention, the heating pipe is heated in the combustion chamber, and the fuel exposed at one end of the diffusion pipe reaches the flash point to burn the fuel.

In addition, the coupling part of the diffusion pipe is coupled to the coupling means provided at the end of the heating pipe, and when tar accumulates in the diffusion pipe, the coupling member can be separated and replaced.

1 is a perspective view showing the overall appearance of a pipe-type combustion device according to the present invention.
Figure 2 is a cross-sectional view showing a cross-sectional view of the pipe-type combustion device in Figure 1;
3 is a cross-sectional view showing a cross-sectional view of an internal combustion device among the pipe-type combustion apparatus in FIG. 2 .
Figure 4 is a perspective view showing the state of the heating pipe in the internal combustion engine in Figure 3;
5 is a perspective view showing a state of a diffusion pipe in the internal combustion device in FIG.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, it goes without saying that the present invention is not limited to these embodiments and may be modified in various forms.

In the drawings, in order to clearly and briefly describe the present invention, the illustration of parts irrelevant to the description is omitted, and the same reference numerals are used for the same or extremely similar parts throughout the specification. In addition, in the drawings, the thickness, width, etc. are enlarged or reduced in order to make the description more clear, and the thickness, width, etc. of the present invention are not limited to the bars shown in the drawings.

And, when a certain part "includes" another part throughout the specification, other parts are not excluded unless otherwise stated, and other parts may be further included.

1 is a perspective view showing the overall appearance of the pipe-type combustion device according to the present invention, Figure 2 is a cross-sectional view showing the cross-sectional view of the pipe-type combustion device in FIG.

1 to 2, the pipe-type combustion device according to the present invention includes a body portion 100 for storing fuel therein; a heating unit 200 coupled to the upper portion of the body 100; and a reservoir 330 seated inside the heating unit 200 and injecting air, a combustion chamber 310 provided in the air cylinder 330 to receive and burn fuel stored in the air cylinder 330, and the combustion chamber 310 to be heated. and an internal combustor 300 having a pipe 320 that heats the fuel to the flash point and burns the fuel at one end.

Here, the body part 100 may have a fuel storage box 110 for storing fuel therein, and the entire upper surface may be opened so that the heating unit 200 is seated thereon and the pipe 320 is connected.

The body part 100 may have a spare space so that the pump 220 and the blower 210 of the heating part 200 are provided in the open upper part.

Next, the heating unit 200 has a stepped groove formed at the lower portion to be seated on the upper portion of the body portion 100 , has a space for seating the internal combustion unit 300 therein, and a detachable heating table is formed on the upper portion It can be used to place appliances to be heated.

The heating unit 200 is provided with a blower 210 and a pump 220 on the lower surface, and can be combusted while injecting fuel into the internal combustor 300 seated therein to blow air.

The heating unit 200 may guide the internal combustor 300 so as not to be shaken from the inside, and the pipe may pass through and be connected to the fuel storage box 110 of the body unit 100 .

Finally, the internal combustor 300 may be provided with a combustion chamber 310 , a pipe 320 , and an air container 330 .

The combustion chamber 310 is located inside the internal combustor 300, and heats the pipe 320 from the inside and brings the fuel introduced into the pipe 320 to the flash point to burn the fuel exposed to the pipe 320. can be performed.

The internal combustor 300 heats the pipe 320 while the fuel is burned in the combustion chamber 310 , and when the fuel introduced into the pipe 320 reaches the flash point, the fuel exposed at one end of the pipe 320 is burned. You can perform a deep regional role.

In addition, the reservoir 330 of the internal combustor 300 injects the wind delivered from the blower 210 so that the fuel is burned in the combustion chamber 310 , and primarily so that the heat temperature of the combustion chamber 310 is not transmitted to the outside. It can perform thermal insulation effect.

Through this, the pipe-type combustion device 10 may be provided with a method of burning the fuel by reaching the flash point without the need to replace the wick in the combustion chamber 310 several times.

In addition, animal and vegetable oil fuel having a relatively high flash point may be heated in advance by using the pipe 320 , and only a portion of the fuel that has reached the flash point may be exposed and burned.

In addition, tar is generated due to the high-viscosity animal and vegetable oil fuel, and it can be easily replaced even if tar accumulates in a removable configuration in which one end of the pipe can be replaced.

Next, the internal combustion device 300 of the pipe-type combustion device according to the present invention will be described in more detail.

3 is a cross-sectional view showing a cross-sectional view of an internal combustion device among the pipe-type combustion apparatus in FIG. 2 .

Referring to FIG. 3 , the internal combustor 300 may include a combustion chamber 310 , a pipe 320 , and an air container 330 .

Here, the combustion chamber 310 includes a pipe hole 311 accommodating the pipe 320 and a ceramic mat 312 provided on the inner bottom of the combustion chamber 310 to receive fuel and burn while heating the heating pipe 322 . And, it may be provided with an air hole 313 provided on one surface of the combustion chamber 310 to introduce the blowing wind transmitted from the air container 330.

In the pipe hole 311, the bottom of the combustion chamber 310 is perforated so that the pipe 320 is fixed to the inside of the combustion chamber 310, and is connected to the fuel storage box 110 of the body part 100 provided at the bottom. Fuel can be injected into 320 .

The ceramic mat 312 is located at the bottom of the combustion chamber 310, and the ceramic mat 312 is ignited by storing fuel that is easy to ignite in advance, or by partially supplying the fuel exposed to the diffusion pipe 323. can support you to stick with it.

A plurality of air holes 313 are perforated on one surface of the combustion chamber 310 , and the wind of the blower 210 transmitted from the air container 330 may be supplied to the inside while being arranged at regular intervals in the upper and lower portions.

Next, the pipe 320 has a fixture 321 fixed to the combustion chamber 310, is connected to the fixture 321, has a space spaced apart from the combustion chamber 310 by a certain distance, and extends in a spiral form, and fuel is provided therein. and a diffusion pipe 323 coupled to one end of the heating pipe 322 to expose the fuel introduced into the heating pipe 322 to the outside for combustion.

The fixture 321 may be respectively provided inside and outside the combustion chamber 310 to seal and fix the heating pipe 322 in the pipe hole 311 .

The lower portion of the heating pipe 322 is connected to the fuel storage box 110 so that fuel can be provided therein by the pump 220 , and the heating pipe 322 is heated by the ceramic mat 312 that is burned in the combustion chamber 310 . ) is heated, and the incoming fuel may reach the flash point.

The heating pipe 322 may receive the heat of the ceramic mat 312 as efficiently as possible while extending in one direction in a spiral form. In addition, the spiral shape of the heating pipe 322 may be spaced apart from one surface of the combustion chamber 310 by a predetermined distance to prevent a thermal bridge phenomenon from occurring in the combustion chamber 310 in advance.

The diffusion pipe 323 is coupled at one end of the heating pipe 322 so that the fuel introduced into the heating pipe 322 may be partially opened.

The diffusion pipe 323 may have a coupling portion to be detachably attached to the heating pipe 322 at any time, and the diameter of the diffusion pipe 323 may be about one-third that of the heating pipe 322 .

The diffusion pipe 323 may be formed such that a portion of the fuel is cut and a portion of the introduced fuel is exposed to the outside. In this case, the incised portion may be cut so that about two-thirds of the total diameter of the diffusion pipe 323 is cut so that the exposed fuel can be easily pyrolyzed.

Finally, the air cylinder 330 is provided with a step 332 at one end so that the combustion chamber 310 is seated therein, and a ventilation hole 331 is drilled so that the wind of the blower 210 is transmitted to the inside of the air cylinder 330 . can be provided.

The air cylinder 330 forms a space between the combustion chamber 310 and the air cylinder 330 , and the air is injected by the blower 210 , or the heat generated by being burned in the combustion chamber 310 is discharged to the outside of the heating unit 200 . It can exert a primary insulation effect to prevent escape.

The air container 330 is perforated so that the pipe 320 provided in the combustion chamber 310 is connected to the body part 100 at the lower part, and the lower part of the air container 330 is flat to be seated inside the heating unit 200 . can be formed. In addition, the blower hole 331 punched in the lower portion of the air container 330 may face the blower 210 to inject air.

Through this, in the internal combustion machine 300, the ceramic mat 312 heats the pipe 320 from the inside to reach the fuel introduced into the heating pipe 322 to the flash point, and then the fuel exposed to the diffusion pipe 323 is The fuel exposed to the diffusion pipe 323 may be continuously combusted even when all of the ceramic mat 312 is burned during combustion.

In addition, since the pipe 320 is extended in a spiral shape, heat generated inside the combustion chamber 310 is very easily transferred, so that the fuel can quickly reach the flash point.

In addition, since the heating pipe 322 and the diffusion pipe 323 are provided with coupling means in a form that can be separated from each other, it can be easily replaced even if tar is generated according to the viscosity of animal and vegetable oils.

Next, the heating pipe 322 and the diffusion pipe 323 of the pipe-type combustion device according to the present invention will be described in more detail.

FIG. 4 is a perspective view showing a state of a heating pipe in the internal combustor in FIG. 3 , and FIG. 5 is a perspective view illustrating a diffusion pipe in the internal combustor in FIG. 3 .

Referring to FIG. 4, the heating pipe 322 according to the present invention includes a coupling means 322d coupled to the diffusion pipe 323, and a heating portion having a fuel therein by spirally extending in one direction from the coupling means 322d. 322c, an angle 322b that is angled downward from one end of the heating part 322c, and a fuel connection part extending downward from the angle 322b and connected to the body 100 to receive fuel (322a) may be provided.

The coupling means 322d may be connected such that one end is coupled to the coupling hole 323a of the diffusion pipe 323 so that the fuel introduced into the heating pipe 322 is introduced up to the diffusion pipe 323 .

The coupling means 322d can be removed from the coupling hole 323a of the diffusion pipe 323 at any time and replaced with a new diffusion pipe 323 .

The heating portion 322c is a portion extending in a spiral shape of the heating pipe 322 , and as the heat of the ceramic mat 312 is transferred to the heating portion 322c, the introduced fuel may reach the flash point. At this time, the heating part 322c may be provided with a space separated by a predetermined distance so as not to come into contact with the combustion chamber 310 , and may have a space separated by a predetermined distance so that the lower portion does not come into contact with the floor of the combustion chamber 310 .

The angle 322b may be adjusted so that the heating pipe 322 passes through the combustion chamber 310 and is connected to the body portion 100 . At this time, the angle 322b may be provided integrally with the heating part 322c or provided in a coupling manner in the heating part 322c to adjust the angle.

The fuel connection part 322a is penetrated by the internal combustor 300 and protrudes downwardly, and one end of the protruding extension comes into contact with the fuel storage box 110 of the body part 100 to supply fuel to the heating pipe 322. have.

The fuel connection portion 322a may be connected to the pump 220 in the middle to raise the fuel up to the diffusion pipe 323 by the pump 220 .

The heating pipe 322 is inserted from the open surface on the upper part of the combustion chamber 310 so that the fuel connection part 322a is penetrated through the pipe hole 311, and the heating part 200 is penetrated through the hole provided in the air container 330 as well. ) can be placed on

The heating pipe 322 can be spaced apart by a predetermined distance without touching the lower floor by the fixture 321 provided in advance in the combustion chamber 310, and the fixture 321 is a heating pipe ( 322) can be fixed.

Referring to FIG. 5, the diffusion pipe 323 according to the present invention has a coupling hole 323a having one end coupled to the heating pipe 322, and a non-exposed section 323c that maintains the pipe shape from one end to a predetermined distance, and, A portion of the other end of the diffusion pipe 323 may be cut so that the fuel introduced therein is exposed to the outside, and a pyrolysis section 323b in which the exposed fuel is heated to reach a flash point and combusted may be provided.

The coupler 323a may be coupled to the coupling means 322d provided in the heating pipe 322 to allow fuel to be introduced into the diffusion pipe 323 .

The coupler 323a may be replaced with a new diffusion pipe 323 by removing it from the coupling means 322d of the heating pipe 322 when the life of the diffusion pipe 323 is over due to tar.

The non-exposed section 323c occupies one-third of the diffusion pipe 323 , and fuel can be delivered to the end of the diffusion pipe 323 while maintaining the pipe shape. Due to the non-exposed section 323c, only a portion of the fuel is exposed, and the fuel introduced into the non-exposed section 323c is not exposed and thus may not be combusted.

The pyrolysis section 323b occupies two-thirds of the diffusion pipe 323 , and a part of the pipe may be cut to expose the fuel introduced therein. In this case, in the pyrolysis section 323b, the fuel reaching the flash point from the heating pipe 322 is burned by radiant heat to perform a deep division.

Due to the pyrolysis section 323b, the heating pipe 322 is continuously heated, and the pump 220 supplies fuel from the bottom and the exposed fuel is burned, but continuous injection may be possible.

Here, in the pyrolysis section 323b, the fuel that has reached the flash point is exposed and combusted, but in the non-exposed section 323c and the heating pipe 322, combustion (gasification) cannot be made because the fuel is not exposed.

Through this, in the pipe-type combustion device 10 according to the present invention, the heating pipe 322 is heated in the combustion chamber 310 to reach the incoming fuel to the flash point, and is exposed to the pyrolysis section 323b of the diffusion pipe 323 . The fuel is burned (gasified) to replace the wick in the internal combustion device (300).

Accordingly, animal and vegetable oils having a high flash point may be heated in advance to reach the flash point, and only a portion may be exposed and burned using the pipe 320 .

In addition, since the heating pipe 322 and the diffusion pipe 323 are provided with a coupling means 322d and a coupling hole 323a, respectively, even if tar is generated from animal and vegetable oils with high viscosity, the diffusion pipe 323 is separated as a coupling site. can be replaced by

In addition, in the heating pipe 322, the heating pipe 322 is heated while first burning the ceramic mat 312 of the combustion chamber 310. Since the fuel introduced into the heating pipe 322 is not exposed to the outside, the heating pipe 322 ) is not combusted, and combustion can occur only in the pyrolysis section 323b of the diffusion pipe 323 to which the fuel is exposed.

In the above, the pipe-type combustion device according to the embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiment presented herein. And, those skilled in the art who understand the spirit of the present invention will be able to easily suggest other embodiments by adding, changing, deleting, adding, etc. components within the scope of the same spirit, but this is also within the scope of the present invention. will say it costs

10: pipe type combustion device 100: body part
110: fuel storage box 200: heating unit
210: blower 220: pump
300: internal combustion device 310: combustion chamber
311: pipe hole 312: ceramic mat
313: air hole 320: pipe
321: fixture 322: heating pipe
322a: fuel connection part 322b: angle
322c: heating part 322d: coupling means
323: diffusion pipe 323a: coupler
323b: pyrolysis section 323c: non-exposed section
330: air tank 331: ventilation hole
332: step

Claims (9)

a body portion for storing fuel therein;
a heating unit coupled to the upper portion of the body; and
An air container seated inside the heating unit to inject air, a combustion chamber provided in the air container to receive fuel stored therein and combusted, and a pipe heated by the combustion chamber to heat the fuel to a flash point and burn the fuel at one end and an internal combustion device comprising:
The pipe includes a fixture fixed to the combustion chamber, a heating pipe connected to the fixture, having a space spaced apart from the combustion chamber by a certain distance, and having fuel therein while extending in a spiral shape, and one end of the heating pipe is coupled to the A pipe-type combustion device comprising a diffusion pipe for exposing fuel introduced into the heating pipe to the outside for combustion. delete The method of claim 1,
The diffusion pipe includes a coupler having one end coupled to the heating pipe,
and a pyrolysis section in which the other end of the diffusion pipe is partially cut so that the fuel introduced therein is exposed to the outside, and the exposed fuel is heated to reach a flash point and combusted. 4. The method of claim 3,
The heating pipe includes a coupling means coupled to the diffusion pipe;
A heating portion extending spirally in one direction from the coupling means and having fuel therein;
and a fuel connection part extending in one direction from the heating part and connected to the body part to receive fuel. 5. The method of claim 4,
In the pipe, the heat generated by the internal combustor is transferred to the fuel introduced into the heating part to be heated, and the fuel that has reached the flash point is exposed and burned in the pyrolysis section, but the fuel is not burned in the heating pipe pipe type combustion device. 6. The method of claim 5,
The combustion chamber includes a pipe hole for accommodating the pipe;
and a ceramic mat provided on the inner floor of the combustion chamber to receive fuel and heat the heating portion while being burned. 7. The method of claim 6,
The ceramic mat is a pipe-type combustion device, characterized in that the fuel is put in in advance, or a part of the fuel exposed to the diffusion pipe is supplied and burned. 8. The method of claim 7,
A blower coupled to the lower portion of the heating unit and injecting air into the air container;
A pipe-type combustion device, which is provided under the heating part and includes a pump for supplying fuel to the pipe. 9. The method of claim 8,
The body portion is a pipe-type combustion device, characterized in that the fuel is stored therein comprising a fuel storage box for supplying fuel to the pump.

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