KR19980069130A - Rotary heater - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary heater, and an object thereof is to improve the injection port of a nozzle body so that fuel can be widely injected into a vaporization chamber in multiple directions.

In the rotary heater according to the present invention, the fuel injection hole 413 of the nozzle body 410 rotates in the vaporization chamber 321 formed in the burner head 320 to vaporize fuel between the lower body 412 and the upper body 411. Formed to be oblique. Accordingly, when the nozzle body 410 is rotated, fuel is widely injected through the inclined injection hole 413 to the entire vaporization chamber 321, and is discharged to the outside of the burner head 320 in a state where it is evenly mixed with the forced air. Odor and sulfur salt phenomenon does not occur during combustion thereof has the advantage that complete combustion.

Description

Rotary heater

The present invention relates to a rotary heater, and more particularly to a nozzle body of a burner head for vaporizing fuel.

In general, the rotary heater functions to heat the room by supplying the air heated by the combustion of the fuel to the room by the blowing force of the fan.

As shown in FIG. 1, a rotary heater having such a function is provided with a blower 20 for forcibly blowing air on a fuel tank 10 in which fuel is stored, and a combustion device 30 for burning fuel. Blower 20 is composed of a blower motor 21 and the impeller 22, these are covered with a motor cover 23, the air inlet 24 is formed on one side. Therefore, the outside air is sucked through the air suction port 24 by the suction blowing force of the impeller 22 and forcedly blown to the combustion device 30.

The combustion device 30 is installed in a housing 31 having an air flow path therein, and a nozzle pipe for supplying fuel to the burner head 32, the spark plug 34, and the burner head 32, which vaporizes and burns fuel. (33) and the like. On the other hand, in the burner head 32, a vaporization chamber 32a through which fuel is injected is formed, and in the vaporization chamber 32a, an injector 40 for injecting fuel supplied through the nozzle pipe 33 into a spray form. ) Is installed, and its structure is explained in more detail as follows.

The injector 40 is supplied with fuel and is coupled to a nozzle body 41 and a rotating shaft 42 that rotate in the vaporization chamber 32a of the burner head 32 to rotate the combustion motor 41. 43, etc. are provided. As shown in FIG. 2, the nozzle body 41 has a lower body 41b formed in a dish shape so that the rotating shaft 42 penetrates and the fuel is accumulated at the bottom thereof, and the tip portion of the rotating shaft 42 is fixed. The upper body 41a is coupled to each other, and a corresponding portion thereof has a gap, that is, an injection hole 41c, so that fuel is sprayed through the injection hole 41c to the vaporization chamber 32a through the injection hole 41c. Sprayed.

In the rotary heater configured as described above, as the blower motor 21 and the combustion motor 43 operate, the indoor air is blown through the air inlet 24 by the suction blowing force of the impeller 22, and thus, the housing of the combustion device 30. The air is forcedly blown into the part 31, and a part is supplied into the vaporization chamber 32a, and the other part is supplied to the burner head 32 outside. In addition, when the nozzle body 41 of the injector 40 rotates at high speed, the fuel supplied through the nozzle pipe 33 is injected into the vaporization chamber 32a through the injection port 41c. Subsequently, the sprayed fuel is mixed with the air forcedly blown by the blower 20 and discharged to the outside of the burner head 32, which is ignited and burned by the discharge of the spark plug 34. Therefore, the warm air is discharged by the heat of combustion in the room and heating is performed.

However, such a conventional rotary heater is not uniformly mixed with the vaporized fuel and air in the vaporization chamber (32a) of the injector 40 smells during combustion, the yellow tip phenomenon occurs. As shown in FIG. 2, the nozzle body 41 rotating in the vaporization chamber 32a of the burner head 32 is composed of a dish-shaped lower body 41b and an upper body 41a, and is spaced apart from an edge portion. As a result, a collinear injection port 41c is formed. Therefore, the fuel supplied through the nozzle pipe 33 is discharged and vaporized into the vaporization chamber 32a through the injection port 41c on the same line of the lower body 41b and the upper body 41a by the rotational force. Since the nozzle body 41 is made only in the circumferential direction, it is not uniformly mixed with air. That is, the fuel is not evenly injected throughout the vaporization chamber 32a, and is concentrated only at the center portion of the vaporization chamber 32a through the collinear injection port 41c, so that the vaporization rate is lowered, as well as the air supplied. There is a problem that incomplete combustion because it is not uniformly mixed, and thus smell is generated during combustion.

SUMMARY OF THE INVENTION The present invention has been made to solve this problem, and an object thereof is to incline a fuel injection port of a nozzle body that rotates in a vaporization chamber formed in a burner head to vaporize fuel, thereby inclining the fuel body during rotation of the nozzle body. Through the inclined nozzle is widely sprayed throughout the vaporization chamber, it is to provide a rotary heater that is completely burned without the odor and sulfur salt phenomenon occurs during its combustion.

1 is a cross-sectional view schematically showing the overall structure of a typical rotary heater.

Figure 2 is an enlarged cross-sectional view of the portion A of Figure 1, showing a conventional nozzle body.

3 is a schematic view showing the overall structure of a rotary heater according to the present invention.

Figure 4 is an enlarged cross-sectional view of the portion B of Figure 3, showing a nozzle body according to the present invention.

* Description of symbols on the main parts of the drawings *

100..Fuel tank 200. Blower

300. Combustion unit 310. Housing

320. Burner head 321. Vaporization chamber

330 nozzle nozzle ignition plug

400 .. Injection unit 410. Nozzle body

411 Upper Body 412 Lower Body

413..Injector sphere 420..Rotary shaft

430 .. Combustion motor

In order to achieve the above object, the present invention provides a rotary heater having a burner head in which a vaporized fuel is combusted and a vaporization chamber formed therein, and a nozzle body rotating in a vaporization chamber to vaporize fuel, wherein the nozzle body has fuel in the vaporization chamber. It characterized in that the inclined injection port is provided to be widely sprayed on.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. 3 is a schematic cross-sectional view showing the overall structure of a rotary heater according to the present invention, Figure 4 is an excerpt cross-sectional view showing a nozzle body according to the present invention.

The rotary heater according to the present invention, as shown in the fuel tank 100, the fuel is stored and the combustion device 300 is supplied with the fuel to burn and the blowing device to suck the indoor air and blow to the combustion device 300 It consists largely of 200.

Blower 200 is formed on the top of the fuel tank 100 is composed of a motor cover 230, the air inlet 240 is formed to surround the blower motor 210 and the impeller 220, the blower motor 210 When the) is operated, the impeller 220 is axially coupled thereto and the indoor air is sucked through the air inlet 240 to be forcedly blown into the combustion device 300.

In addition, the combustion device 300 to which the outside air is supplied has a housing 310 having an air flow path therein, a burner head 320 and a spark plug 340, a burner head (320) installed in the inside thereof to vaporize and burn fuel. And a nozzle pipe 330 for supplying fuel to 320. The interior of the burner head 320 is hollowed out to constitute a vaporization chamber 321, and an injector 400 for injecting fuel into a vaporized state of a spray is installed therein. The injector 400 is installed in the vaporization chamber 321 and the combustion motor for rotating the nozzle body 410 via the nozzle body 410, the rotating shaft 420 is supplied with fuel through the nozzle pipe 330 430.

On the other hand, the nozzle body 410 is a characteristic element of the present invention is formed so that the injection port 413 inclined along the outer surface is configured to be widely sprayed fuel throughout the vaporization chamber 321, with reference to Figure 4 Explain. As shown therein, the nozzle body 410 is fixedly coupled to the front end of the lower body 412 and the rotating shaft 420, the upper portion of which is inclinedly open, the rotating shaft 420 penetrates, and has a plate shape such that fuel is accumulated at the bottom. And the lower end is composed of the upper body 411 is inclined open to correspond to the opening of the lower body 412. At this time, the upper body 411 is coupled to the lower portion is spaced apart from the upper portion of the lower body 412 by a predetermined distance to form an injection hole 413 therebetween, such an injection hole formed on the edge of the nozzle body 410 413 is made up of high and low parts with clearly different heights in the axial direction. Therefore, fuel is widely injected through the inclined injection hole 413 to the entire vaporization chamber 321.

Next, the operation of the rotary heater according to the present invention configured as described above will be described. First, as the brower motor 210 and the combustion motor 430 operate, the indoor air is forcedly blown into the housing 310 through the air inlet 240 of the motor cover 230, and a part of the air is blown into the vaporization chamber 321. , The remaining part is supplied to the burner head 320 outside. And the nozzle body 410 of the injector 400 by the combustion motor 430 rotates at a high speed, the fuel supplied through the nozzle pipe 330 to the vaporization chamber 321 through the injection hole 413 formed inclined thereto. It is mixed with the injected and forced air, and is continuously discharged to the burner head 320. Therefore, the mixed fuel is ignited and burned by the spark plug 340, so that the warm air is discharged by the heat of combustion in the room to perform heating.

In this case, since the injection hole 413 formed in the nozzle body 410 is inclined so as to clearly distinguish the highest part and the lowest part with respect to the axial direction as shown in FIG. Through the injection hole 413 is widely sprayed to the vaporization chamber 321. Therefore, the vaporized fuel is discharged in a state in which it is evenly mixed with the air forcedly supplied to the vaporization chamber 321, so that no odor or sulfur salt occurs during combustion outside the burner head 320, and is completely combusted.

As described above in detail, the rotary heater according to the present invention is formed inclined between the lower body and the lower body of the fuel injection port of the nozzle body for vaporizing the fuel by rotating in the vaporization chamber formed in the burner head. Therefore, when the nozzle body is rotated, fuel is widely injected through the inclined injection hole through the vaporization chamber, and is discharged to the outside of the burner head evenly mixed with the forced air, and does not generate odor and sulfur salt phenomenon during combustion. There is an advantage that combustion takes place.

Claims (2)

In the rotary heater having a burner head 320, a vaporization fuel is burned and a vaporization chamber 321 is formed therein, and a nozzle body 410 rotating in the vaporization chamber 321 to vaporize the fuel. 410, the rotary heater, characterized in that the inclined injection port 413 is provided so that fuel is widely injected into the vaporization chamber (321). According to claim 1, wherein the nozzle body 410 is the lower body 412, the upper portion is inclined open, the lower end is opened to correspond to the opening of the lower body 412 is constant with the upper portion of the lower body 412 A rotary heater characterized by having an upper body (411) coupled to be spaced apart from each other to form the injection hole (413) therebetween.