JPS63101605A - Liquid fuel combustion apparatus - Google Patents

Abstract

PURPOSE:To facilitate a discharging of cleaning liquid within a gasification chamber by a method wherein an upper end opening of an outer fuel supplying member is attached to he gasification chamber wall in such a condition as it is located to the same position or a little lower position as or than that of a bottom wall surface of the gasification chamber. CONSTITUTION:A fuel supplying part 30 is made to have a double structure formed by an inner fuel supplying inlet pipe 25 through which fuel is passed and an outer fuel supplying member 24 supporting the fuel supplying inlet pipe 25. The fuel supplying member 24 and the fuel supplying inlet pipe 25 are made separate and at the same time an upper opening 24' of the fuel supplying member 24 is positioned in such a way as it may not project out of a surface of a bottom wall 7 of the gasification chamber, thereby liquid is prevented from being accumulated within the gasification chamber 50 or some foreign materials such as dusts from filling within the gasification chamber. With this arrangement, for example, in case that dusts which might be present in the device during a manufacturing step or an assembling step are to be removed by cleaning operation, the dusts can be removed positively together with the cleaning liquid.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] This invention relates to a liquid fuel combustion device for vaporizing and burning liquid fuel such as kerosene, and particularly to improvements in the vicinity of the liquid fuel supply section to the vaporization chamber.

[Prior Art] FIG. 2 shows an example of the configuration of a liquid fuel combustion device that uses, for example, kerosene as fuel.

In the figure, (1) is an oil tray in which liquid fuel such as kerosene is stored.

(2) is an oil supply pump, which is attached to the upper surface of the oil pan (1).

(3) is an oil supply pipe, the base end of which is connected to the oil supply pump (2).

(4) is an oil supply member. This fuel supply member (4) forms the main part of the fuel supply section (30) to the vaporization chamber (50), and is formed in a pipe shape. The tip of the oil supply pipe (3) is inserted into the lower end opening and connected, and this connected state is fixed by a cap nut (5). Further, the upper end opening (4') is positioned to protrude from the bottom wall (7) surface of the vaporization wall (6).

(8) is a nozzle portion, which is formed in the same body as the vaporization chamber (6). A small hole (11) is formed in this nozzle portion (8). One end of the small hole (11) is communicated with the nozzle small hole (9) via the needle pipe (10), and the other end is communicated with the vaporization chamber (50).

(12) is a throat portion, which is disposed coaxially inside the vaporization chamber (50) and is formed integrally with the vaporization wall (6). The main part of this throat part (12) consists of a cylindrical throat (15). This throat (15
) is located at the lower end of the nozzle hole (9), and an air intake port (13) is formed around the nozzle hole (9). Furthermore, a throat outlet (14) with an open opening is formed at the upper end of the throat (15).

(16) is the lid, which includes the vaporization wall (6) and the throat part (
12) to seal the vaporization chamber (50) from above. This lid (16) has a heat recovery surface (17
) are integrally formed.

(18) is a flame hole plate, which is installed inside the heat recovery surface (17) and so as to cover the throat outlet (15). This flame hole plate (18) forms the main part of the burner head.

(19) is a needle, and the needle pipe (10)
Together, it constitutes a needle valve that opens and closes the nozzle small hole (9).

(20) is an electromagnetic solenoid, and has a plunger that is electromagnetically driven in the vertical direction. The upper end of this plunger is connected to the needle (19).

(21) is an on-off valve, which is disposed above the oil pan (1). This on-off valve (21) is driven to open and close by the plunger of the electromagnetic solenoid (20) in a complementary manner to the needle valve.

(22) is a temperature sensor (thermistor), which is inserted into the nozzle part (8) with a screw.

(23) is a heater, which is cast into the vaporization wall (6) of the vaporization chamber (50).

Here, the material of the vaporization chamber (50) is generally as follows:
Aluminum-based metal die-cast products are used from the viewpoint of cost and good thermal conductivity. However, if even the fuel supply section (30) is formed integrally with this material, repeated use of the combustion device will cause the vaporization chamber (
Cap nut (5) that connects and fixes the fuel supply pipe (3) to the fuel supply member (4) forming the fuel supply section (30) to 50)
loosening is likely to occur. Therefore, the fuel supply section (3
0) In particular, the material of the oil supply member (4) needs to be not a die-cast product of aluminum-based metal, but a material that is more heat resistant. Therefore, the oil supply member (4) is formed separately from a heat-resistant material and integrated into the vaporization chamber (50) by insert molding.

Next, the operation will be explained.

First, when the heater (23) is energized, the vaporization wall (
6) and the nozzle part (8) are heated.

When the temperature of the vaporization wall (6) and the nozzle part (8) reaches about 200 to 300°C due to this heating, this is detected by the temperature sensor (22). Upon this detection, the fuel pump (2) is operated so that the liquid fuel in the oil pan (1) is supplied into the vaporization chamber (50) through the fuel pipe (3) and the fuel supply member (4). Become.

The liquid fuel supplied into the vaporization chamber (50) passes through the vaporization wall (6).
It mainly drops onto the bottom wall (7), where it is heated and evaporated to become a vaporized gas.

At the same time, the electromagnetic solenoid (20) is excited and driven based on the detection by the temperature sensor (22), and the excited and driven electromagnetic solenoid (20) causes the needle (
19) is driven down to open the nozzle small hole (9).

When the nozzle hole (9) is opened, vaporized gas is vigorously ejected from the nozzle hole (9). At this time, air is sucked into the throat (15) from the air intake port (13) by the kinetic energy generated by the ejection of the vaporized gas, and this sucked air is entrained with the vaporized gas in the throat (15). to form a premixture.

This premixture is then combusted on the surface of the flame hole plate (18) to form a flame.

A portion of the heat from the flame from the flame hole plate (18) is recovered to the vaporization wall (6) through the heat recovery wall (17). This causes vaporization! The temperature of (6) can be maintained at the temperature necessary for sustained combustion by energizing the heater (23) and recovering heat, or by not energizing the heater (23) and using only the recovered heat. .

[Problem 1 to be solved by the invention In the conventional liquid fuel combustion device configured as above,
The upper end opening (4') of the oil supply member (4) is connected to the vaporization bottom wall (7).
Because it protrudes further into the vaporizing chamber (50) than the surface of the vaporizing chamber (50), it is easy for liquid to accumulate around the opening (4'').As a result, for example, during the manufacturing process of a vaporizer,
When a cleaning liquid is used to remove dust left behind in the vaporization chamber (50), there is a problem in that it is very difficult to completely drain the cleaning liquid.

In addition, during combustion, the vaporization wall (6) and the vaporization chamber (5
The fuel supply member (4) forming the fuel supply section (30) to the fuel tank 0) is also heated to a temperature close to that of the vaporization wall (6). Therefore, fuel evaporates in the fuel supply member (4) as well, albeit to some extent.

As a result, the tar that remains as an unevaporated component of the fuel also accumulates in the oil supply member (4), and this accumulated tar blocks the inside of the oil supply member (4), causing a so-called pipe clogging. There was a problem.

This invention was made to solve these problems, and it facilitates the discharge of the cleaning liquid used in the vaporization chamber to remove dust, etc., and also prevents tar clogging in the fuel supply section to the vaporization chamber. The purpose is to obtain a liquid fuel combustion device that is difficult to use.

[Means for Solving the Problems] The liquid fuel combustion device according to the present invention includes a fuel supply section that supplies liquid fuel to a vaporization chamber, and a small nozzle hole that ejects fuel gas vaporized in the vaporization chamber. , a throat section that entrains air with the fuel gas ejected from the nozzle small hole by its kinetic energy to form a mixture, and a burner head section that burns the mixture; It is formed into a double structure by an inner refueling inlet pipe through which the fuel inlet pipe passes, and an outer refueling member that supports this refueling inlet pipe, and the upper end opening of the refueling member is located at the same position as the bottom wall surface of the vaporization chamber or at a position close to the bottom wall surface of the vaporization chamber. It is attached to the evaporation wall so that it is lower than the evaporation wall.

[Operation] According to the above means, the oil supply pipe is connected to the oil supply member by being attached to the vaporization wall in such a manner that the upper end opening of the outer oil supply member is at the same position as or below the bottom wall surface of the vaporization chamber. This prevents liquid from accumulating in the vaporization chamber or foreign matter such as dirt and dust from clogging when the vaporizer is not inserted into the vaporizer. With this, for example, when cleaning is performed to remove dirt and dust that may have gotten mixed in during the manufacturing and assembly process, it becomes possible to reliably remove the dirt and dust together with the cleaning liquid.

In addition, since the fuel supply section to the vaporization chamber is formed in a double structure, the amount of heat transferred from the vaporization chamber to the fuel passing section of the fuel supply section is reduced, preventing fuel evaporation in that section. Becomes suppressed.

This reduces the amount of tar generated in the fuel supply section, making it less likely that the fuel will become clogged.

[Embodiments] Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

In the figures, the same reference numerals indicate the same or equivalent parts.

FIG. 1 is a sectional view showing an embodiment of a liquid fuel combustion apparatus according to the present invention.

The liquid fuel combustion apparatus shown in FIG. 1 is basically the same as that described above, and includes a fuel supply section (30) that supplies liquid fuel to the vaporization chamber (50), and a fuel supply section (30) that supplies liquid fuel to the vaporization chamber (50). A small nozzle hole (9) for ejecting vaporized fuel gas, and a throat section (12) for forming an air-fuel mixture by entraining air into the fuel gas ejected from the small nozzle hole (9) using its kinetic energy. and a burner head section that burns the air-fuel mixture.

Here, in the liquid fuel combustion device of the embodiment, in addition to the above-described configuration, the fuel supply section (30) includes an inner refueling inlet pipe (25) through which fuel passes, and this refueling inlet pipe (25). It is formed into a double structure with a supporting outer oil supply member (24). Along with this, a small gap (51) is formed in an annular shape between the inner oil supply inlet pipe (25) and the outer oil supply member (24).

In this case, as shown partially enlarged in FIG. 2, the oil supply member (24) and the oil supply inlet pipe (25) are formed separately, and the oil supply member (24) has the oil supply inlet pipe (25). The tip of the oil supply pipe (3) is inserted into the lower end of this oil supply inlet pipe (25). This connected state is fixed by a cap nut (5). The oil supply member (24) and the oil supply inlet pipe (25) are
It is constructed using materials such as stainless steel, which has low thermal conductivity.

In addition, the upper end of the oil supply inlet pipe (25) is connected to the oil supply member (2
4) through the upper opening (24”) and enter the vaporization chamber (50”).
) is projected upwardly from the surface of the bottom wall (7).

On the other hand, the upper opening (24'') of the oil supply member (24) is arranged so as not to protrude from the surface of the bottom wall (7) of the vaporizing chamber (50).
They are placed on the same plane or slightly set back.

Next, the operation will be explained.

First, when the heater (23) is energized, the vaporization wall (
6) and the nozzle part (8) are heated.

When the temperature of the vaporization wall (6) and the nozzle part (8) reaches about 200 to 300°C due to this heating, this is detected by the temperature sensor (22). Upon this detection, the refueling pump (2) is operated, and the liquid fuel in the oil pan (1) passes through the refueling pipe (3) and the refueling inlet pipe (25) of the fuel supply section (30) to the vaporization chamber (50). ).

The liquid fuel supplied into the vaporization chamber (50) passes through the vaporization wall (6).
It mainly drops onto the bottom wall (7), where it is heated and evaporated to become a vaporized gas.

At the same time, the electromagnetic solenoid (20) is excited and driven based on the detection by the temperature sensor (22), and the excited and driven electromagnetic solenoid (20) causes the needle (
19) is driven down to open the nozzle small hole (9).

When the nozzle hole (9) is opened, vaporized gas is vigorously ejected from the nozzle hole (9). At this time, air is sucked into the throat (15) from the air intake port (13) due to the kinetic energy generated by the ejection of the vaporized gas. This sucked air is entrained with the vaporized gas in the throat (15) to form a premixed gas. This premixture is then combusted on the surface of the flame hole plate (18) to form a flame.

A portion of the heat from the flame from the flame hole plate (18) is recovered to the vaporization wall (6) through the heat recovery wall (17). As a result, the temperature of the vaporization wall (6) can be adjusted to the temperature necessary for sustaining combustion by energizing the heater (23) and recovering heat, or by only recovering heat without energizing the heater (23). will be maintained.

At this time, the fuel supply section (30) to the vaporization chamber (50) is formed into a double structure, and a small gap (5) is formed between the double structure.
1), the fuel passage part of the fuel supply part (30) from the vaporization chamber (50), that is, the fuel supply inlet pipe (2
5) The amount of heat transferred to the Thereby, evaporation of fuel in the fuel passing portion is suppressed. As a result, the generation of tar in the fuel supply section (30) is reduced, and tar clogging in that section is prevented.

In addition, in the embodiment, the oil supply member (24) and the oil supply inlet pipe (25) are separated, and the upper opening (24'') of the oil supply member (24) is opened from the surface of the bottom wall (7) of the vaporization chamber. By positioning it so that it does not protrude, the oil supply pipe (25
) is not inserted into the oil supply member (24) and the vaporization chamber (50) is prevented from accumulating liquid or being clogged with foreign matter such as dirt or dust. With this, for example, when cleaning is performed to remove dirt and dust that may have gotten mixed in during the manufacturing and assembly process, it becomes possible to reliably remove the dirt and dust together with the cleaning liquid.

In addition, in the above-mentioned embodiment, whether the refueling inlet pipe (25) is formed separately from the refueling pipe (3) or the refueling pipe (
3) may be extended to form the oil supply inlet pipe (25). Further, the small gap (51) may be filled with a heat insulating material or the like.

[Effects of the Invention] As explained above, the present invention has a fuel supply section that supplies liquid fuel to the vaporization chamber with a double structure consisting of a fuel supply inlet pipe through which fuel passes and a fuel supply member that supports this fuel supply inlet pipe. At the same time, by attaching the oil supply member to the vaporization wall with the upper end opening at the same position as the bottom wall of the vaporization chamber or below it, the cleaning liquid used to remove dust etc. in the vaporization chamber can be discharged. In addition to facilitating
It is possible to suppress the evaporation of fuel in the fuel supply section and reduce the generation of tar, which has the effect of making tar clogging less likely to occur.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing an embodiment of a liquid fuel combustion device according to the present invention, and FIG. 2 is a sectional view showing the configuration of a liquid fuel combustion device studied prior to this invention. In the figure, (1) is the oil pan, (2) is the oil supply pump, (
3) is the oil supply pipe, (4) is the oil supply member, (4') is the upper end opening, (5) is the cap nut, (6) is the vaporization wall, (7) is the bottom wall, (8) is the nozzle part, (9) is the nozzle small hole, (10
) is the needle pipe, (11) is the small hole, (12) is the throat part, (13) is the air intake, (14) is the throat outlet, (15) is the throat, (16) is the lid, (17) is Heat recovery surface, (18) is flame hole plate, (19) is needle, (
20) is an electromagnetic solenoid, (21) is an on-off valve, (22)
is a temperature sensor (thermistor), (23) is a heater,
(24) is the oil supply member, (25) is the oil supply inlet pipe, (3
0) is a fuel supply part, (5o) is a vaporization chamber, and (51) is a small gap. In addition, in the figures, the same reference numerals indicate the same or equivalent parts. Agent Patent attorney Masuo Oiwa (and 2 others) Fig. 1 2-Refueling pump 3: Refueling pipe 4': Upper wall 7: Bottom wall 8: Nozzle section 12-Throat section

Claims (1)

[Claims] (1) A fuel supply unit that supplies liquid fuel to the vaporization chamber, a small nozzle hole that ejects the fuel gas vaporized in the vaporization chamber, and a small nozzle that uses the kinetic energy of the fuel gas ejected from the small nozzle hole to generate air. A liquid fuel combustion device is provided with a throat section that entrains fuel to form an air-fuel mixture, and a burner head section that burns the air-fuel mixture. It consists of an outer refueling member that supports the refueling inlet pipe, and the refueling member is attached to the vaporization wall so that its upper end opening is at the same position as or below the bottom wall surface of the vaporization chamber. A liquid fuel combustion device characterized by: