KR0133324B1 - Blowing structure of a rotary heater - Google Patents

Abstract

a blowing fan(31) connected to a blowing motor(30) is mounted in a lower part of an air duct(21); and an air intake passage(34) having an intake port(33) controlling air intake by a damper(32) is mounted on one side of the air duct(21); is disclosed. Thereby, it is possible to simplify the structure and to enhance productivity by blowing air for combustion through the air intake passage to the air duct.

Description

Blowing structure of rotary heater

1 is a partial cutaway perspective view of the present invention.

2 is an exploded perspective view showing the installation state of FIG.

Figure 3 is an enlarged cross-sectional view of the main part of the present invention.

4 is a cross-sectional view showing the structure of a vaporizer assembly of a conventional rotary heater.

＊ Explanation of symbols for main parts of drawing

21: Air Doc 30: Blowing motor

31: blower fan 32: damper

33: inlet hole 34: air inlet passage

The present invention relates to a blower structure of a rotary heater, and in more detail, a blower fan connected to a motor is installed at a lower portion of the air duct on which the carburetor of the rotary heater is placed, and an inflow amount of air by a damper to one side of the air duct. It relates to a blower structure of a rotary heater in which a structure is simple by providing an air inflow passage having this controlled inlet hole and the assembly work efficiency can be improved. In general, a combustion apparatus using a liquid fuel such as petroleum, unlike a combustion apparatus using a gas, the fuel used in the liquid state must be vaporized in the liquid phase as a preliminary stage for combustion. The methods used to vaporize the liquid include wicking using capillary phenomena of wick made of glass fiber, evaporation porter type to vaporize the liquid fuel by heating the evaporation porter (dish), and rotating at high speed. There are rotary atomization type which vaporizes liquid fuel by supplying fuel to a diffuser. As shown in FIG. 2, the rotary heater 1 is provided with an operation panel 2 which is equipped with an operation panel for operating functions such as ignition, fire extinguishing, fire control, and the like of the rotary heater 1. The panel 2 is combined with the cabinet 3 in which the burner combustion part etc. which are not shown in figure is built, and forms a body. At the top of the cabinet (3) is provided a guard (4) for protecting the user from the heat generated during the combustion process of the burner combustion unit and the heat generated during the secondary combustion process of the red heat not shown, the guard (4) At the top of is covered by the top plate (5) to prevent heat from being transferred directly to the top. A fuel tank 6, which is separately manufactured, is mounted at the bottom of the cabinet 3 and the operation panel 2 by a tank bracket, and an oil tank for injecting white kerosene, which is a liquid fuel, is provided at the rear of the fuel tank 6. 7) and a flow meter 8 indicating the amount of fuel stored in the fuel tank 6 are provided. Conventionally, a cross-sectional view showing the structure of a carburetor assembly of a rotary heater, as shown in FIG. 4, has an air inlet hole 11 on one side and an air outlet hole 12 on the other side, and interlocks with the blower motor 13. A blower unit 10 having an air blower fan 14 installed therein and an air duct 21 mounted on the air discharge hole 12 of the blower unit 10 are mounted, and the air duct 21 has a diffusion motor in the center. A diffuser 23 interlocked with the 22, and an oil supply pipe 24 for supplying fuel to the diffuser 23 is provided, and a pipe heater 25 is provided around the diffuser 23. The built-in vaporizer 26 is provided, and the burner part 27 is mounted in the upper part of this vaporizer 26, and the frame rod F and the spark plug P are installed in the circumference | surroundings. In this conventional configuration, when the combustion process is briefly described, when the user turns on the operation switch of the operation panel 2 of the rotary heater 1, the vaporizer 26 installed in the air duct 21 is provided. Heater 25 is energized to heat the vaporizer 25, by which the temperature of the vaporizer 25 reaches a constant temperature and at the same time the blower motor 13 and the blower 10 The diffusion motor 22 is driven and at this time, the liquid fuel stored in the fuel tank 6 in the diffusion body 23 rotating in the diffusion motor 22 is passed through the oil supply pipe 24 by an electronic pump (not shown). The diffusion body 23 is supplied. Therefore, since the diffuser 23 rotates at a high speed by the diffusion motor 22, the liquid fuel supplied to the diffuser 23 is instantaneously atomized and ignited by an electrical flame generated by the spark plug P. Combustion will proceed. The combustion air necessary for the combustion process is introduced into the air inlet hole 11 according to the rotation of the blower fan 14 driven by the blower motor 13 of the blower 10, and the inlet air is discharged from the air. It is supplied to the air duct 21 via the ball 12 to further advance combustion. However, since the blower 10 composed of the blower motor 13 and the blower fan 14 is separately installed, the air duct 21 is installed at one side of the blower 10, and thus the work process is not only complicated. There was a problem that the bulky. The present invention has been invented to solve the above problems, integrally installed in the lower part of the air duct on which the carburettor of the rotary heater is mounted, a blower fan interlocked with the blower motor, by a damper to one side of the air duct Rotary structure that improves assembly work efficiency by installing air inflow passage with inlet hole that regulates the inflow rate of air and blowing combustion air directly through the air inflow passage into the air duct. The purpose is to provide a blower structure of the heater. The present invention for achieving the above object is installed in the lower portion of the air duct on which the carburettor of the rotary heater is mounted blower fan interlocked with the inlet, the inflow of the air is controlled by the damper to one side of the air duct Characterized in that the air inlet passage having a ball installed. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The air duct 21 has a diffuser 23 interlocked with a diffusion motor 22 in the center thereof, and an oil supply pipe 24 for supplying fuel to the diffuser 23 is provided, and the diffuser 23 is provided. The vaporizer 26 in which the pipe heater 25 is built is installed in the periphery, and the burner part 27 is mounted on the upper part of the vaporizer 26, and the frame rod F and the spark plug ( P) is installed and configured. An inlet hole in which a blowing fan 31 interlocked with the blowing motor 30 is installed at the lower portion of the air duct 21, and an inflow amount of air is controlled by a damper 32 to one side of the air duct 21; An air inflow passage 34 having a 33 is provided. Referring to the effects of the present invention configured as described above are as follows. When the user turns on the operation switch of the operation panel 2 of the rotary heater 1, the heater 25 of the vaporizer 26 installed in the air duct 21 is energized to heat the vaporizer 25. By this heating, the temperature of the vaporizer 25 reaches a certain temperature and at the same time the blower fan 31 which is linked with the blower motor 30 installed in the lower part of the air duct 21 is driven, At this time, the liquid fuel stored in the fuel tank 6 is supplied to the diffuser 23 through an oil pump 24 through an oil pump not shown in the diffuser 23 that rotates in the diffusion motor 22. do. Therefore, since the diffuser 23 rotates at a high speed by the diffusion motor 22, the liquid fuel supplied to the diffuser 23 is instantaneously atomized and ignited by an electrical flame generated by the spark plug P. Combustion will proceed. In addition, the combustion air required for the combustion process by the blower motor 30 and the blower fan 31 combusted in the air duct 21 is blown fan 31 driven by the blower motor 30. ), The combustion air flowing into the inlet hole 33 of the air inlet passage 34 installed to one side of the air duct 21 is directly supplied to the air duct 21 to further combust the combustion. It is to let. In addition, by the damper 32 installed in the inlet hole 33 it is possible to adjust the inflow amount of the air for combustion. As described above, the present invention integrally installs a blower fan interlocked with the blower motor at the lower portion of the air duct in which the carburetor of the rotary heater is placed, and provides an inlet hole in which air inflow is controlled by a damper to one side of the air duct. Branch has a simple structure by providing an air inlet passage, and by blowing the combustion air directly through the air inlet passage into the air duct has the effect of improving the assembly work efficiency.

Claims (1)

In the center is provided with a diffuser 23 interlocked with the diffusion motor 22, an oil supply pipe 24 for supplying fuel to the diffuser 23 is provided, the pipe heater around the diffuser 23 The vaporizer | carburetor 26 in which 25 was built-in is installed, The burner part 27 is mounted in the upper part of this vaporizer 26, The air which installed the frame rod F and the spark plug P around it is installed. In the rotary heater having a duct 21, a blower fan 31 which is interlocked with the blower motor 30 is provided at the lower portion of the air duct 21, and a damper 32 is provided on one side of the air duct 21. Blowing structure of the rotary heater, characterized in that the air inlet passage (34) having an inlet hole (33) in which the inflow amount of air is adjusted by installing.