KR101714500B1 - Burner using alcohol-fuel - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a burner which is constructed to be more suitable for liquid fuels, especially alcohol fuels, in which flames are generated with stable and high thermal power, and safety and convenience of use can be ensured. Accordingly, the burner for a liquid fuel such as alcohol according to the present invention includes a fuel injection nozzle in which a vaporized fuel is injected and a flame is generated, and a fuel injection nozzle disposed above the fuel injection nozzle to be heated by a flame generated by the fuel injection nozzle A preheating fuel receiver which is disposed on a lower side of the vaporizing chamber and is disposed at one side or a periphery of the fuel injection nozzle to receive a liquid fuel; An ignition device for igniting the fuel contained in the fuel receiver; and an ignition device for igniting the fuel contained in the fuel receiver so as to ignite the fuel contained in the fuel receiver, A control device for controlling the operation of the device, and a control device for controlling the operation of the device by connecting the vaporization chamber and the fuel injection nozzle, Alcohol fuel by the pressure of the vaporization chamber is characterized in that it comprises a vaporized fuel outlet pipe such that the injection is supplied to the fuel injection nozzle.

Description

BURNER USING ALCOHOL-FUEL "

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a burner for a liquid fuel such as an alcohol, and more particularly, to a burner having a structure capable of ensuring stability of a flame by igniting using a liquid fuel such as alcohol.

Existing alcohol burners require alcohol fuel to be poured directly into the alcohol receptacle for preheating, or, if there is a preheating fuel supply, open the corresponding valve to fill the alcohol receiver (ignition or preheating fuel window) with a certain amount of fuel.

Thereafter, the fuel supply valve was locked or opened, and the fuel was directly ignited through another ignition device such as a lighter.

Such a conventional alcohol burner is shown in Fig.

1, a container body 3 in which an injection port 1 is formed on an upper part and a wick cover 2 is formed on a central upper surface thereof and a wick 5 which is vertically adjusted by a one- And has a conventional structure in which the unit pedestal 6 of the three sides is coupled with the container body 3.

However, such a conventional burner structure causes the alcohol to flow over the storage space and flows to the vicinity of the injection port 1, so that the risk of fire in ignition is extremely high, and accidental burning with a flame occurs frequently.

Particularly, there is an inconvenience that a separate ignition device must be used because the ignition device is not built in, and firepower due to the core (5) is not high enough to be used for everyday use at home, There was also a problem that the flame easily disappeared as a factor.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a burner having a structure in which a flame is stable and a high thermal power is generated so that it is more suitable for an alcohol fuel, .

Accordingly, the burner for a liquid fuel such as alcohol according to the present invention includes a fuel injection nozzle in which a vaporized fuel is injected and a flame is generated, and a fuel injection nozzle disposed above the fuel injection nozzle to be heated by a flame generated by the fuel injection nozzle A preheating fuel receiver which is disposed on a lower side of the vaporizing chamber and is disposed at one side or a periphery of the fuel injection nozzle to receive a liquid fuel; An ignition device for igniting the fuel contained in the fuel receiver; and an ignition device for igniting the fuel contained in the fuel receiver so as to ignite the fuel contained in the fuel receiver, A control device for controlling the operation of the device, and a control device for controlling the operation of the device by connecting the vaporization chamber and the fuel injection nozzle, The charge by the pressure of the vaporization chamber is characterized in that it comprises a vaporized fuel outlet pipe such that the injection is supplied to the fuel injection nozzle.

Further, the present invention is characterized in that the vaporizing chamber is annularly arranged on the upper side of the fuel injection nozzle with a flame generated by the fuel injection nozzle as a center, and a through space is formed in the center of the fuel injection nozzle so that the flame rises, And is formed in an annular shape around the fuel injection nozzle.

According to another aspect of the present invention, there is further provided a heat collecting plate which is heated by the flame above the fuel injection nozzle and is connected to the vaporizing chamber to transfer heat to the vaporizing chamber.

Further, in the present invention, the ignition device includes a pulse generator controlled by the regulating device, and an ignition plug for generating a spark in the fuel received by the fuel receiver by the pulse generator, And an open closure body connected to the fuel supply pipe, the fuel inlet pipe and the ignition device, coupled to the lever and opening / closing the flow of fuel to the fuel supply pipe and the fuel inlet pipe, And the ignition device is operated to ignite the fuel contained in the fuel receiver by controlling the inflow of fuel into the fuel supply pipe and the fuel inflow pipe by the rotational operation of the lever.

The burner according to the present invention is adapted to a liquid fuel, especially an alcohol fuel. By turning the lever of the regulating device, the ignition of the fuel, the vaporization and the ejection of the fuel can be performed by a series of operations, Safety and convenience can be secured.

Particularly, the burner according to the present invention can solve the problem of ignition and stability of flame in a conventional alcohol burner, and the ignition of the fuel injection nozzle can be automatically performed by the fuel receiver and the vaporization chamber, Continuous ejection of vaporized fuel makes it possible to maintain a strong and stable firepower.

1 is a structural explanatory view showing the configuration of a conventional burner using alcohol
2 is a perspective view showing the appearance of the burner according to the embodiment of the present invention.
3 is a bottom plan view showing the configuration of the bottom surface of the burner according to the embodiment of the present invention
4 is a structural explanatory view showing the constitution of a fuel injection nozzle, a fuel receiver, a vaporizing chamber, etc. in the burner according to the embodiment of the present invention
5 is a structural explanatory view showing the configuration of the regulating device in the burner according to the embodiment of the present invention
FIG. 6 is an explanatory view showing a state in which a whole open loop of a regulating device in a burner according to an embodiment of the present invention connects a flow path;
FIGS. 7 to 9 are explanatory views for sequentially explaining the operating process of the burner according to the embodiment of the present invention.

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

2 to 4, the burner 10 for a liquid fuel such as an alcohol according to the embodiment of the present invention is protected by the outer case 11, and includes a fuel injection valve A fuel injection nozzle 20 and a fuel injection nozzle 20 disposed in the upper portion of the fuel injection nozzle 20 so as to be heated by a flame generated by the fuel injection nozzle 20, A preheating fuel receiver 40 located below the vaporizing chamber 30 and formed at one side or periphery of the fuel injection nozzle 20 to receive liquid fuel; A fuel supply pipe 35 for supplying a liquid fuel to the vaporization chamber 30 and an ignition device for igniting the fuel contained in the fuel supply 40 (50) for igniting the fuel contained in the fuel receiver (40) The fuel vaporized in the vaporizing chamber 30 is connected to the fuel injection nozzle 20 by the pressure of the vaporization chamber 30 by connecting the vaporizing chamber 30 and the fuel injection nozzle 20, And a gasified fuel discharge pipe 25 for injecting the gasified fuel.

The fuel injection nozzle 20 is vaporized in the vaporization chamber 30 and injected through the fuel injection nozzle 20, such as alcohol, which is supplied through the fuel supply pipe 35. The fuel injection nozzle 20 is located at the center of the burner 10 and is disposed at an upper side of the fuel injection nozzle 20 around the flame generated by the fuel injection nozzle 20, The fuel receiver 40 is located on the lower side of the vaporizing chamber 30 and is formed annularly around the fuel injection nozzle 20.

The fuel receiver 40 has a concave valley shape and is annularly formed around the fuel injection nozzle 20 to receive a predetermined amount of liquid fuel. The fuel receiver 40 is disposed in contact with the fuel injection nozzle 20, The ignition plug 51 of the ignition device 50 installed in the ignition plug 51 ignites the fuel 91 contained in the liquid.

The vaporization chamber 30 is disposed above the fuel injection nozzle 20 so as to be heated by a flame generated by the fuel injection nozzle 20. [ However, the vaporizing chamber 30 is not disposed directly on the fuel injection nozzle 20 but is formed in a donut-shaped annular shape so that a through space 36 in which the flame rises is formed on the upper side of the fuel injection nozzle 20 And is provided around the perforation space 36.

As a result, the flame rises to serve as a heating device, and the vaporizing chamber 30 is disposed around the flame and heated by the flame, so that the liquid fuel in the vaporizing chamber 30 can be vaporized.

The heat generated by the flame may not be sufficient because the vaporization chamber 30 is disposed at a position deviated from the side directly above the flame and therefore the heat collecting plate 32 is provided in the through space 36 so that heat can be more sufficiently supplied by the flame. Respectively. The heat collecting plate 32 is coupled to the vaporizing chamber 30 by a plurality of soft conductive plates 32a and the vaporizing chamber 30 and the softening plate 32a and the heat collecting plate 32 are both formed of a metal material, The heat received from the flame can be transferred to the vaporization chamber 30.

The heat collecting plate 32 may be directly heated by a flame by being disposed on a disc having a small diameter right above the flame. The flame may hit the heat collecting plate 32 and dispersed around the heat collecting plate 32, ).

Therefore, the heat collecting plate 32 is not only adapted to transfer the heat of the flame to the vaporizing chamber 30, but also to heat the container or the like put on the burner by raising the concentrated flame Change it to a flame.

The vaporized fuel discharge pipe 25 connects the vaporizing chamber 30 and the fuel injection nozzle 20 so that fuel vaporized in the vaporizing chamber 30 is supplied to the fuel injection nozzle 20 To be sprayed.

Therefore, when the pressure of the liquid fuel in the vaporization chamber 30 is changed to the gas phase by heating, the pressure of the fuel flows from the vaporization chamber 30 to the vaporization fuel discharge pipe 25 by the pressure of the vaporized fuel, (20). ≪ / RTI >

The fuel receiver 40 is disposed at a lower side of the vaporizing chamber 30 and is installed at one side of the fuel injection nozzle 20 or annularly formed around the fuel receiving part 20 to receive the liquid fuel.

The fuel receiver 40 temporarily heats and warms the vaporization chamber 30 by the stored liquid fuel. When the vaporized fuel is injected from the fuel injection nozzle 20, the flame of the fuel receiver 40 is transferred And is responsible for ignition. An air hole (43) is formed in the side wall of the fuel receiver (40) to receive oxygen for combustion.

Although the fuel receiver 40 is formed annularly around the fuel injection nozzle 20 in the present embodiment, the fuel receiver 40 may be provided only on one side of the fuel injection nozzle 20 to temporarily heat the vaporization chamber 30 It is also possible.

The fuel inlet 40 is connected to the fuel inlet pipe 45 so that the liquid fuel temporarily flows into the fuel receiver 40 by the operation of the lever 62 of the regulating device 60, The spark is generated in the spark plug 51 of the ignition plug 51 so that the contained fuel is ignited.

Thereafter, when the vaporized fuel generated in the vaporization chamber 30 is supplied to the fuel injection nozzle 20 through the vaporized fuel discharge pipe 25 by heating the vaporization chamber 30 located above the flame of the fuel receiver 40, Since the fuel injection nozzle 40 is adjacent to the fuel injection nozzle 20, the vaporized fuel injected from the fuel injection nozzle 20 may also ignite to generate a flame.

The fuel inlet pipe 45 is a passage through which the fuel is supplied to the fuel receiver 40 through a fuel reservoir 70 and a regulating device 60. [

The fuel reservoir 70 is disposed in the outer case 11 in the form of a square frame while maintaining a distance from the fuel injection nozzle 20, the fuel receiver 40, etc., (10).

The fuel supply pipe 35 is a passage for supplying liquid fuel to the vaporization chamber 30 and is connected to the fuel storage tank 70 and the supply and supply amount thereof is controlled by a regulating device 60 installed in the middle . A check valve is preferably provided in the middle of the fuel supply pipe 35 so that the liquid fuel or the gaseous fuel does not flow back in the vaporizing chamber 30 and the fuel is supplied from the fuel storage tank 70 to the fuel supply pipe 35, It is also possible to increase the height of the reservoir 70 and supply it by a height difference, or to use a pump.

The ignition device 50 includes a pulse generator 53 controlled by a regulating device 60 and an ignition plug 51 for generating a spark in the fuel received by the fuel receiver 40 by the pulse generator 53. [ .

The pulse generator 53 is connected to the power source 54 so as to generate a pulse power so that a spark may be generated in the spark plug 51 when the lever 62 is operated and the spark plug 51 is connected to the fuel receiver 40 It is possible to ignite the contained fuel by generating a spark from the inside to the bottom thereof.

The ignition plug 51 is installed inside the fuel receiver 40 and is directly heated by the flame. Therefore, the ignition plug 51 is made of a metallic material covered with the ceramic material 51a, And its end is formed into an acicular shape so as to facilitate the generation of sparks.

An opening and closing switch is built in the adjusting device 60 so that the power source 54 and the pulse generator 53 are connected at a time point when the lever 62 and the open close circuit 64 are rotated, The power source and the pulse generator 53 are temporarily connected to cause a spark to occur in the spark plug 51.

The control device 60 controls the operation of the ignition device 50 so that the fuel contained in the fuel receiver 40 is ignited and the fuel is supplied to the fuel supply pipe 35 and the fuel inflow pipe 45 .

5, the adjusting device 60 includes a lever 62 for rotating the user, and is connected to the fuel supply pipe 35, the fuel inflow pipe 45 and the ignition device 50, And an open closure body (64) coupled to the lever (62) and opening / closing the flow of fuel to the fuel supply pipe (35) and the fuel inflow pipe (45).

The central opening 64d of the open closures 64 is connected to the tubular body 71 of the fuel reservoir 70 to form a flow passage. And the passage 64a and the second passage 64b are formed laterally.

The first passage 64a temporarily communicates with the fuel inlet pipe 45 during the rotation of the open closure member 64 according to the rotation of the lever 62 so that a predetermined amount of the liquid fuel flows to the fuel receiver 40 And the second passage 64b is formed so that the fuel can be supplied to the fuel supply pipe 35 through the passage.

An adjusting passage 64c is formed at the end of the second passage 64b so as to be narrowed along the outer circumferential surface of the open closet 64 as the distance from the second passage 64b increases. So that the amount of liquid fuel that can flow into the fuel supply pipe 35 through the adjustment passage 64c can be adjusted.

Hereinafter, the operation of the burner according to the embodiment of the present invention will be described in detail with reference to the drawings.

First, when the user rotates the lever 62 of the regulating device 60, the open closure body 64 coupled with the lever 62 is rotated, and in the course of its rotation, as shown in FIG. 6 (a) The first passage 64a and the fuel inlet pipe 45 are communicated with each other so that the liquid fuel in the fuel storage tank 70 is communicated with the center hole 64d of the open closet assembly 64 and the first passage 64a and the fuel inlet pipe 45, A predetermined amount is introduced into the fuel receiver 40. [ Since the first passage 64a and the fuel inflow pipe 45 are temporarily communicated with each other in the middle of rotating the lever 62, the inflow amount thereof becomes small.

6 (b), the center hole 64d and the fuel supply pipe 35 are connected to each other through the second passage 64b and the regulation passage 64c, The fuel can be introduced into the fuel supply pipe 35.

The amount of the fuel flowing into the vaporizing chamber 30 through the fuel supply pipe 35 according to the amount of adjustment of the open closet 64 is increased because the area of the adjusting passage 64c is changed according to the distance in the second passage 64b. Can be adjusted.

7, when the lever 62 and the opening-closing body 64 are rotated, the built-in opening / closing switch connects the power generator and the pulse generator 53, , And the pulse power is applied so that the spark plug 51 generates a spark.

When a spark occurs in the spark plug 51, as shown in FIG. 8, a predetermined amount of fuel stored in the fuel receiver 40 is ignited to generate a flame, and the flame heats the vaporization chamber 30 located on the upper side. Since the amount of fuel contained in the fuel receiver 40 is small, a flame is generated until the fuel is exhausted.

In the vaporizing chamber 30, the liquid fuel supplied through the fuel supply pipe 35 is vaporized while the internal temperature rises due to the heating of the fuel receiver 40, and the pressure of the vaporizing chamber 30 is raised by the vaporized liquid fuel The vaporized fuel is blown out through the vaporized fuel discharge pipe 25 to the fuel injection nozzle 20.

The gas phase fuel injected into the fuel injection nozzle 20 is burned in the fuel receiver 40 located around the fuel injection nozzle 20 so that the vapor fuel of the fuel injection nozzle 20 is also ignited Lt; / RTI >

Accordingly, as shown in FIG. 9, a flame is generated by the gaseous fuel continuously sprayed from the fuel injection nozzle 20 and can be used as a burner for heating the container and the like.

The flame of the fuel injection nozzle 20 heats the vaporization chamber 30 and heats the heat collection plate 32 even after the fuel contained in the fuel receiver 40 is burned and exhausted. The liquid fuel in the vaporization chamber 30 can be continuously vaporized together with the heat transferred to the firebox 30 and directly transmitted from the flame of the fuel injection nozzle 20. [

The vaporized liquid fuel is continuously supplied to the fuel injection nozzle 20 through the vaporizing fuel discharge pipe 25 so that the lever 62 of the regulating device 60 is regulated to the position where the fuel is supplied through the fuel supply pipe 35 The flame generated in the fuel injection nozzle 20 can be stably maintained while the liquid fuel is continuously supplied to the vaporizing chamber 30. [

The fuel to be used in the present invention is preferably an alcohol fuel in which a liquid alcohol is suitable and a slight mixture of water is injected so as to be injected into the fuel injection nozzle 20 with a strong pressure while being vaporized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular embodiments set forth herein. It goes without saying that other modified embodiments are possible.

10; Burner 20; Fuel injection nozzle
25; Vaporized fuel discharge pipe 30; A vaporizing chamber
32; A heat collecting plate 32a; Heat conduction plate
35; A fuel supply pipe 36; Through space
40; Fuel receiver 45; Fuel inlet pipe
50; An ignition device 51; Spark plug
51a; Ceramic material 53; Pulse generator
60; Regulator 62; lever
64; Full closing 64a; The first passage
64b; A second passage 64c; Control passage
64d; Center hole 70; Fuel storage tank
91; Liquid fuel

Claims (4)

A fuel injection nozzle 20 in which a vaporized fuel is injected to generate a flame,
A vaporizing chamber 30 disposed above the fuel injection nozzle 20 so as to be heated by a flame generated by the fuel injection nozzle 20 and disposed at a position deviated from a position directly above the fuel injection nozzle 20;
A preheating fuel receiver 40 located below the vaporizing chamber 30 and formed at one side or periphery of the fuel injection nozzle 20 to receive a liquid fuel for heating the vaporizing chamber 30,
A fuel inlet pipe 45 through which the preheating fuel flows into the fuel receiver 40,
A fuel supply pipe 35 for supplying liquid fuel to the vaporization chamber 30,
An ignition device 50 for igniting the fuel contained in the fuel receiver 40,
(60) for controlling the operation of the ignition device (50) so that the fuel contained in the fuel receiver (40) is ignited,
And a vaporizing fuel discharge pipe (25) connecting the vaporizing chamber (30) and the fuel spraying nozzle (20)
As the fuel in the fuel receiver 40 is heated, the fuel is vaporized in the vaporizing chamber 30 to raise the pressure in the vaporizing chamber 30, and the vaporized fuel is supplied to the vaporizing chamber 30, Is injected into the fuel injection nozzle (20) through the vaporized fuel discharge pipe (25). The burner The method according to claim 1,
The vaporizing chamber 30 is annularly arranged on the upper side of the fuel injection nozzle 20 with the flame generated by the fuel injection nozzle 20 as a center and a through space 36 in which a flame rises is formed at the center thereof ,
The fuel receiver (40)
Characterized in that the burner is located at a lower side of the vaporizing chamber (30) and is formed in an annular shape about the fuel injection nozzle (20) 3. The method according to claim 1 or 2,
And a heat collecting plate 32 connected to the vaporizing chamber 30 and transmitting heat to the vaporizing chamber 30 is further provided on the upper side of the fuel injection nozzle 20, burner 3. The method according to claim 1 or 2,
The ignition device (50)
A pulse generator 53 controlled by the controller 60,
And an ignition plug (51) for generating a spark in the fuel accommodated by the fuel receiver (40) by the pulse generator (53)
The regulating device 60
A fuel supply pipe 35 connected to the fuel supply pipe 45 and the ignition device 50 and coupled with the lever 62 and connected to the fuel supply pipe 35, ) And the open ended body (64) for opening and closing the flow of fuel to the fuel inlet pipe (45)
By the rotational operation of the lever 62,
The flow of fuel into the fuel supply pipe 35 and the fuel inflow pipe 45 is controlled,
Characterized in that the igniter (50) is operated to ignite the fuel contained in the fuel receiver (40)

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