JPH04222306A - Combustion device of liquid fuel-vaporizing type - Google Patents

Abstract

PURPOSE:To shorten the preheating time of a vaporizer and improve the resistance to poor-quality kerosene. CONSTITUTION:A vaporizer 5 is provided, for its heating, with a silicon nitride heater 21 inside the main body of the vaporizer 5 and with a ceramic heater 6 on the outside of the vaporizer 5. The silicon nitride heater 21 enables shortening the preheating time. After extinguishment, the silicon nitride heater 21 is turned on to remove tar from the inside of the vaporizer 5.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid fuel vaporization combustion apparatus for vaporizing and burning liquid fuel.

0002

[Prior Art] Conventionally, in this type of vaporizer, the vaporizer is equipped with a single heater (sheathed heater, ceramic heater, etc.).
The temperature of the vaporizing element installed inside the vaporizer is 250℃~
It is kept at a high temperature of 400℃ and liquid fuel (kerosene) is placed inside the element.
The kerosene was evaporated and vaporized by passing through it.

FIG. 3 shows the configuration of a liquid fuel vaporization type combustion device such as an oil fan heater.

In this configuration, the kerosene 3 in the fuel tank 2 is sent by the electromagnetic pump 1 to the vaporization chamber in the carburetor main body 5 through the oil feed pipe 4, and is sent to the vaporization chamber in the carburetor control heater 6.
It evaporates through the vaporization element heated to a high temperature by the heat exchanger, is supplied to the burner 9 through the nozzle 8, and is ignited by the ignition device 10 connected to the power source 11 to begin combustion.

[0005] Fuel (kerosene) 3 is supplied into the fuel tank 2 from a cartridge tank 14 to maintain a constant oil level.

The heat transfer body 5a of the vaporizer recovers the heat of combustion in the burner 9, warms the vaporizer main body 5, and reduces the power consumption of the vaporizer control heater 6 externally attached to the vaporizer main body 5. ing. Note that a thermistor 18 is provided to detect the temperature of the vaporizer main body 5, and controls the vaporizer control heater 6.

The carburetor body 5 is also provided with a solenoid valve 12 (solenoid) for controlling the opening and closing of the tip nozzle 8. When the nozzle 8 is closed by the solenoid valve 12, the liquid fuel in the vaporization chamber is filled into the fuel tank 2. A return pipe 19 for returning the water is connected.

[0008]

[Problems to be Solved by the Invention] In the above prior art, the temperature of the vaporizer is controlled by the vaporizer control heater 6 and thermistor 18 attached to the surface of the vaporizer, so the preheating time varies depending on the capacity of the vaporizer, etc. and defect-resistant kerosene.

[0009] Therefore, the object of the present invention is to further shorten the preheating time and improve the resistance to defective kerosene.

0010

[Means for Solving the Problems] (1) The means for solving the problems according to claim 1 of the present invention is as shown in FIG. is provided with a heater 21 for promoting ignition.

(2) The problem solving means according to claim 2 is such that the ignition promoting heater 21 according to claim 1 is also used as a tar removal heater.

(3) A means for solving the problem according to claim 3 is that a silicon nitride heater is used as the ignition promoting heater 21 according to claim 1, and an alumina heater is used as the vaporizer control heater 6.

(4) A means for solving the problem according to claim 4 is that the ignition promoting heater 21 according to claim 1 is also used as a heater for controlling a carburetor.

(5) A means for solving the problem according to claim 5 is to mold the lead portion of the silicon nitride heater 21 according to claim 3 with an insulating material, and to attach the silicon nitride heater mounting fitting 16.
and a vaporizer main body 5 are fixed by brazing or the like after a vaporizing element 7 is inserted into the vaporizer main body.

(6) A means for solving the problem according to claim 6 is to use a porous ceramic material as the vaporizing element 7 according to claim 5.

[0016]

[Operation] In the above problem solving means, a silicon nitride heater 21 for promoting ignition is provided inside the carburetor, and when this silicon nitride heater 21 is turned on at the time of starting, the vaporization element 7 inside the carburetor is heated and the temperature suddenly rises. Rise. Therefore, the preheating time is shortened and ignition can be performed in seconds.

When a constant combustion state is reached after ignition, the ceramic (alumina) heater 6 and thermistor 18 for controlling the carburetor are activated.
The vaporizer is controlled by

After extinguishing the fire, the temperature inside the vaporizer is raised again by the silicon nitride heater 21 for removing tar to burn off carbides such as tar.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be explained in detail below based on embodiments shown in the drawings.

The overall configuration is similar to the general combustion apparatus shown in FIG. 3, so the present invention will be explained using this.

FIG. 1 is a partially cutaway sectional view of a vaporizer of a liquid fuel combustion device showing an embodiment of the present invention, in which kerosene in a fuel tank 2 is passed through an oil pipe 4 by an electromagnetic pump 1 to the inside of the vaporizer. Here, the silicon nitride heater 21 raises the temperature to a high temperature (200 to 300° C.) in a short time (approximately 10 seconds), and the gas is instantaneously gasified in the vaporization element 7. At the same time, the solenoid 12 is turned off, vaporized gas is ejected from the nozzle 8 into the burner 9, and is ignited by the ignition heater 10 above the burner 9 to continue combustion.

As shown in FIG. 1, the vaporizer main body 5 is integrally formed with a heat transfer member 5a on the burner 9 side that transmits the radiant heat of the burner 9, and the vaporizer main body 5 is equipped with a vaporizing element 7 and a silicon nitride heater 21. Decorated.

The vaporization element 7 is made of porous ceramic material molded into a cylindrical shape, and the silicon nitride heater 2
The vaporizing element 7 is inserted into the carburetor main body 5, and the upper fitting 16 of the silicon nitride heater 21 and the vaporizer main body 5 are fixed by brazing. Note that the lead portion 21a of the silicon nitride heater 21 is molded with an insulating material.

Further, a heater 6 for controlling the carburetor is attached to the surface of the carburetor main body 5. Further, the carburetor main body 5 includes a needle 23 for opening and closing the nozzle 8, and a needle 23 for opening and closing the nozzle 8.
A solenoid 12 for opening and closing is provided, and a return pipe 19 is provided in the middle thereof.

Furthermore, 18 is a thermistor (negative characteristic thermistor) for detecting the temperature of the vaporizer main body 5,
The heater 6 for controlling the vaporizer is controlled based on the temperature signal from the thermistor 18.

Next, the operation of the present invention will be explained based on the flowchart shown in FIG.

First, when the power switch is turned on, the silicon nitride heater 21, the ignition heater 10, and the solenoid 12 are energized, and when the timer 1 (5 seconds) is completed, the vaporizer control heater 6 is energized, and the vaporizer element 7 is energized. And the vaporizer main body 5 is in a preheated state.

When the timer 2 (10 seconds) is completed, the electromagnetic pump 1 is turned on, and when the timer 3 (15 seconds) is completed, the solenoid 12 is turned off, and the temperature is rapidly increased by the silicon nitride heater 21. Oil is fed into the vaporization element 7, is instantaneously gasified, and is injected into the burner 9 from the nozzle 8. The oil is ignited by the ignition heater 10 above the energized burner 9, and combustion begins. (Flame detection device) 24 confirms ignition, and if it is above the detection level, combustion continues. Further, if the detection level is below, the engine returns to the initial state and repeats the same sequence once again.If the detection level is above, the combustion continues, and if the detection level is below, the combustion is stopped as a misfire determination.

Furthermore, after the combustion continues, when the preheating completion temperature is reached by the thermistor 18, the silicon nitride heater 21 is turned off to O.
After that, the thermistor 18 performs heater control according to the combustion amount, and the carburetor control heater 6 performs heater control to continue combustion.

Next, for a certain period of time after extinguishing the fire, the silicon nitride heater 21 is kept at a higher temperature than during combustion to burn off the tar deposited during combustion.

It should be noted that the present invention is not limited to the above embodiments, and it goes without saying that many modifications and changes can be made to the above embodiments within the scope of the present invention.

For example, in the above embodiment, the silicon nitride heater 21 was energized from the initial stage until the completion of preheating, but in order to further stabilize the combustion, full-wave control was applied until the completion of preheating, and then half-wave control was applied for a certain period of time. It is used together with the vaporizer control heater 6 while performing wave control, and then the silicon nitride heater 21 is turned off.
After F, it is also possible to perform control using the carburetor control heater 6 to continue combustion.

Furthermore, the heater for ignition promotion and tar removal does not have to be a silicon nitride heater as in the above embodiment, but may be used in conjunction with a heater that has the characteristics of very rapid temperature rise and small heat capacity. The effect is great.

[0034]

As is clear from the above description, according to claims 1, 3, and 4 of the present invention, a silicon nitride heater for ignition promotion and a silicon nitride heater for controlling the vaporizer are used as a heater for heating the main body of the vaporizer that vaporizes liquid fuel. By using a heater in combination, the time it takes to ignite in this type of combustion equipment, which used to be as fast as 30 seconds to about 3 minutes, can be shortened to 15 seconds, making it possible to heat the room more quickly. .

Further, according to claims 2 and 5, the vaporizer can be heated from inside the main body to a high temperature, and little tar is generated, and even if tar is generated, the internal tar removal heater prevents combustion. It also has the effect of removing tar by raising the temperature to a certain level by energizing it for a certain period of time during or after extinguishing the fire.

Furthermore, according to claim 5, since the silicon nitride heater is inserted into the vaporization chamber, it is possible to downsize the vaporizer.

Furthermore, according to claim 6, since a porous ceramic material is used as the vaporizing element, there is an effect that the fuel can be vaporized quickly and efficiently.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway sectional view of a carburetor of the present invention.

FIG. 2 is a flowchart showing the operation details of the present invention.

FIG. 3 is a schematic diagram showing the configuration of a liquid fuel vaporization type combustion device.

[Explanation of symbols]

1 Electromagnetic pump 2 Fuel tank 3 Fuel (kerosene) 4 Oil pipe 5. Vaporizer 6 Heater for vaporizer control 7 Vaporization element 8 Nozzle 9 Burner 10 Ignition heater 11 Power supply 12 Solenoid 13 Return pipe 14 Cartridge tank 16　　　　Attachment 17 Needle 18 Thermistor 21 Silicon nitride heater 24 Frame sensor

Claims (6)

[Claims] 1. A liquid fuel vaporization type combustion apparatus, characterized in that a vaporization type combustion apparatus is provided with a heater for controlling the vaporizer outside the vaporizer, and an ignition promoting heater provided inside the vaporizer. 2. A liquid fuel vaporization type combustion apparatus characterized in that the ignition promoting heater according to claim 1 is also used as a tar removal heater. 3. A liquid fuel vaporization type combustion apparatus, characterized in that a silicon nitride heater is used as the ignition promoting heater according to claim 1, and an alumina heater is used as the vaporizer control heater. 4. A liquid fuel vaporization combustion apparatus characterized in that the ignition promoting heater according to claim 1 is also used as a vaporizer control heater. 5. The lead portion of the silicon nitride heater according to claim 3 is molded with an insulating material, and the silicon nitride heater mounting bracket and the vaporizer main body are fixed after the vaporization element is inserted into the vaporizer main body. A liquid fuel vaporization type combustion device featuring: 6. A liquid fuel vaporization type combustion apparatus characterized in that a porous ceramic material is used as the vaporization element according to claim 5.