KR0121177B1 - Apparatus of liquid-fuel combustion - Google Patents

Abstract

A heat exchanger (19) in which a heat transfer of the vaporizer (1) is conducted around a jet nozzle (6) in order to reduce the ejector noise at a low cost with a simple configuration. Prepared. The heat exchanger 19 is long and is attached to cover the circumference nozzle 6 from the source side, and has a pair of ear parts 19b at the top and a slit 19a at the side, and the ear parts 19b are provided. The bottom of the vaporizer 1 was fixed with a screw 13.

By using such a liquid fuel combustion device, it is possible to mix vaporized gas ejected from the nozzle and heated high temperature primary air in a simple shape, thereby reducing the temperature difference at the time of mixing and reducing the ejector noise.

Description

Liquid Fuel Combustor with Heat Exchanger

1 is a front sectional view showing the construction of a liquid fuel combustion device according to an embodiment of the present invention.

2 is a partially enlarged view showing the configuration of the liquid fuel combustion device of one embodiment of the present invention.

3 is a perspective view of a heat exchanger showing the configuration of the liquid fuel combustion device of one embodiment of the present invention.

4 is a front sectional view showing the configuration of a conventional liquid fuel combustion device.

* Explanation of symbols for the main parts of the drawings

1: carburetor 6: jet nozzle

7 connection pipe 12 support

13: screw 19: heat exchanger

19a: Slit 19b: Ear

The present invention relates to low noise of a liquid fuel combustion device. FIG. 4 is a front sectional view showing a conventional liquid fuel combustion device.

In Fig. 4, reference numeral 1 denotes a vaporizer formed of a member having good thermal conductivity such as aluminum die cast, 2 denotes a vaporization chamber formed in the vaporizer 1, and 3 denotes a wood pipe integrally formed with the vaporizer 1; (4) is a preheating heater disposed inside the vaporizer (1), (5) is an oil supply pipe for supplying liquid fuel such as kerosene into the vaporization chamber (2), (6) a nozzle hole for ejecting vaporized gas The ejection nozzle provided with 6a, 7 is a connection pipe connecting the ejection nozzle 6 of the vaporization chamber 2, and 8 is a needle valve device to open and close the nozzle hole 6a.

(9) is a fuel return pipe for returning fuel to an oil pan (not shown), (10) is a pressing plate for fixing the fuel return pipe (9) and the needle valve device (8). Is fixed to the support 12.

14 is an air inlet for introducing primary air, 15 is a dummyster for detecting the temperature of the vaporizer 1, 16 is a burner head provided to surround the upper part of the wood pipe 3, 17 Is a flame ring provided around the burner head 16, and 18 is a flame.

Next, the operation will be described.

First, the preheating heater 4 is energized and the vaporizer 1 is preheated to a temperature necessary for geometrying the liquid fuel. When preheating of the vaporizer 1 is completed, the dummyster 15 detects this, and operation starts, and an oil supply pump (not shown) is operated so that the liquid fuel can be supplied to the oil supply pipe 5 from the oil dish plate (not shown). It is sent to the vaporization chamber 2 via it, it is heated in the vaporization chamber 2, and it turns into a vaporization gas.

Then, the nozzle hole 6a is opened by the needle valve device 8 so as to shift to the original combustion operation when the vaporization chamber 2 is sufficiently filled with vaporization gas, and at the same time, the fuel return pipe 9 is blocked to close the nozzle. A certain amount of primary air, which is determined in the hole 6a by the pipe diameter of the wood pipe 3, is sucked by the air inlet 14 to be a mixed gas having a constant primary air ratio.

The mixed gas is blown out of the burner head 16, ignited by an ignition source to form a flame 18, and becomes a high temperature combustion gas. During combustion, the heat of the flame 18 is conducted from the flame ring 17 to the vaporizer 1 to heat the vaporization chamber 2, so that the preheating heater 4 is not energized.

For example, this combustion gas is used to heat a room with hot air by mixing with cold air by blowing fan in an oil fan heater.

When the combustion stops, the needle valve device 8 closes the nozzle hole 6a, opens the fuel return pipe 9 side, and drains the liquid fuel remaining in the vaporizer 1 through the liquid fuel return pipe 9. We send back to dish (not shown).

Since the conventional liquid fuel combustion apparatus is comprised as mentioned above, the shroud of 3 KHz vicinity which is especially annoying by the blowing sound of vaporization gas generate | occur | produces the high frequency sound, and has a defect in inferior comfort. It is confirmed that this noise is a blowing noise generated when vaporized gas of about 250 ° C. is ejected into the atmosphere from the nozzle hole 6a during combustion, mixed with the atmosphere, cooled, and condensed. As a method of reducing the blowout noise (hereinafter referred to as ejector noise), a sound absorbing material such as glass wool is attached to the vicinity of the nozzle 6, or the primary air is heated by an electric heater. There is a problem such as a cost increase.

SUMMARY OF THE INVENTION An object of the present invention is to provide a liquid fuel combustion device which can be inexpensively reduced in a simple configuration, which is made to solve the above problems, annoying ejector noise.

The liquid fuel combustion device according to the present invention is provided with a heat exchanger that transfers heat of the vaporizer around the nozzle to heat the primary air, and at the same time, the heat exchanger is formed in a tubular shape so that the heat exchanger is vertically long and the periphery of the nozzle is covered from the source side. The primary air is to pass through the heat exchanger.

In the liquid fuel combustion device configured as described above, the heated primary air can be mixed with the vaporized gas ejected from the nozzle hole, so that the temperature difference at the time of mixing becomes small, and the ejector noise generated when mixing is reduced.

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment of this invention is described according to drawing.

FIG. 1 is a front sectional view showing the aqueous phase of one embodiment of the liquid fuel combustion device according to the present invention, which corresponds to FIG. 4 showing a conventional device.

In FIG. 1, the same code | symbol as FIG. 4 shows the same part, and 19 is a heat exchanger. The heat exchanger 19 is formed of a long cylindrical shape with a good thermal conductivity and is attached to the bottom of the vaporizer 1 so as to cover the periphery of the jet nozzle 6.

2 is a partially enlarged view showing a state in which the heat exchanger 19 is attached to the support 12 at the same time as the vaporizer 1 with the screw 13 at the bottom of the vaporizer 1. FIG. 3 is a perspective view showing the shape of the heat exchanger 19. A pair of ear portions 19b are provided at the upper end and slits 19a are provided at one side in the longitudinal direction.

Next, the operation will be described.

Since the operation from the start of combustion to the stop of combustion is the same as the conventional apparatus shown in FIG. 4, the description thereof is omitted here.

Generally, since the vaporizer | carburetor 1 is formed from aluminum die-cast, brass, etc. with a material with good thermal conductivity, the temperature of the bottom part is about 300 degreeC by the heat received by the flame 18 during combustion.

Therefore, the temperature of the heat exchanger 19 with the ear 19b attached to the bottom of the vaporizer 1 becomes 250 ° C or more by the heat conduction at the bottom of the vaporizer 1. And when primary air enters as shown by the arrow shown in FIG. 2, this primary air is heated by the heat exchanger 19, and it rises to about 150 degreeC.

It has been experimentally found that the ejector noise value is proportional to about 1.86 power of the temperature of the primary air. The ejector noise value is increased by raising the temperature of the primary air to 50 ° C to 150 ° C in the absence of the heat exchanger 19. It is effective to reduce about 2-3dB from 38dB to 41dB at 41dB.

In addition, the high frequency sound in the vicinity of 3 KHz, which is particularly annoying, is reduced by 3 to 5 dB. In addition, as shown in FIG. 2, since the heat exchanger 19 extends from the source side of the nozzle 6 to the bottom of the needle valve device 8 so as to cover the periphery of the nozzle 6, the heat exchanger 19 is negative. Less leakage results in better sound insulation and eliminates the need for shock, resulting in a simple structure.

In addition, as shown in FIG. 3, the heat exchanger 19 is provided with a slit 19a in the longitudinal direction, and as shown in FIG. 1, a connection for connecting the vaporization chamber 2 and the jet nozzle 6 to each other. Since the pipe 7 is sandwiched between the slits 19a, it is not necessary to pull out the dummyster wire to the heat exchanger 19 by attaching the dummyster 15, thereby significantly improving the assembly workability. .

In addition, the slit 19a has a margin in the primary air passage, so that the primary air inlet 14 also has a margin for dust accumulation. It has been experimentally confirmed that the sound insulation effect is also at the same level as when there is no slit 19a.

As shown in FIG. 3, the heat exchanger 19 has a pair of ear portions 19b. As shown in FIG. 2, the vaporizer 1 and the heat exchanger 19 are screwed. By being fixed to the support 12 at the same time, an extra screw is also unnecessary and can be assembled in almost the same process as when there is no heat exchanger 19, which is very inexpensive.

In the present invention, since the primary air can be heated by transferring heat of the vaporizer with a simple configuration as described above, this vector noise can be reduced and noise reduction can be achieved. Since it is formed into a cylindrical shape, heating of primary air can be performed efficiently, and the sound insulation effect can also be acquired simultaneously.

In addition, by providing a slit on one side of the heat exchanger and inserting a connecting pipe connecting the nozzle and the vaporization chamber from the slit, the dummyster can be taken out from the heat exchanger and the passage of primary air can be increased. It can improve the load bearing capacity.

Moreover, by providing an ear part in a heat exchanger and fixing this ear part to a vaporizer, the effect which can improve assembly property and heat conduction favorable can be acquired.

Claims (3)

The liquid fuel is supplied to a heated vaporizer 1 to be a vaporized gas. The vaporized gas is ejected from the nozzle 6, mixed with primary air by an ejector effect, and sent to a fuel container for combustion. 18. A liquid fuel combustion apparatus for recovering heat of 18) to heat a vaporizer, comprising: providing a heat exchanger 19 for transferring the heat of the vaporizer 1 around the nozzle 6 to heat the primary air; At the same time, the heat exchanger 19 is vertically long and is formed in a cylindrical shape so as to cover the periphery of the nozzle 6 from the source side so that the primary air passes through the heat exchanger 19. Combustion device. The connection pipe (7) according to claim 1, wherein a longitudinal slit (19a) is provided on the side surface of the heat exchanger (19), and the nozzle (6) is connected to the vaporization chamber (2) in the slit (19a). Liquid fuel combustion device characterized in that it is embedded. The liquid fuel combustion device according to claim 1, wherein said heat exchanger (19) is provided with an ear portion (19b) which is collectively fixed to the bottom of the vaporizer (1).