KR200173251Y1 - Feed fan structure of a gas boiler - Google Patents

Abstract

The present invention relates to an air supply fan structure for an all-day combustion gas boiler, and in particular, a fan body screwed with a fan cover and having an impeller for sucking and amplifying and discharging the mixed gas and air therein, and a drive wrapped outside by a case. Provide an air supply fan consisting of a fixing ring for fixing the motor and the impeller, the streamlined wing structure formed in the impeller influences the load pressure of the air supply fan and in the axial direction the inner portion of the load in the air supply starting from the forward direction Increasing the pressure, the outer portion is formed in the rear direction inclined to the rear portion rather than the rotation direction to increase the air volume, so that the high load and high air volume generated by the air supply fan during use, mixing all the air necessary for complete combustion into the primary air So that it can be burned.

Description

Feed fan structure of a gas boiler

The present invention relates to an air supply fan structure for an all-day combustion gas boiler. In particular, after installing a high load and a high air flow rate fan in the gas boiler, all of the air required for complete combustion is transferred to the primary air by the air supply fan. It relates to an air supply fan structure for a gas boiler which can be mixed and combusted.

The conventional gas boiler has a structure for controlling gas and air separately, and consists of a semi-bunsen boiler. The gas boiler is operated after a certain amount of air is applied to the fan and the spark plug is operated. When power is applied to the gas valve, the gas valve is turned on and ignited.

However, these gas boilers are limited to intake combustion secondary air by operating the gas volume of the gas valve and the supply fan, and because the gas is supplied to the combustion chamber separately through the gas valve, the primary pressure, wind pressure, and flue are blocked. In addition, the carbon monoxide is excessively discharged due to incomplete combustion as well as crushing, and when the LPG barrel is used, the combustion is not normally performed due to a fatal effect on the air pressure and temperature, and the residual gas remains on the bottom.

Therefore, the object of the present invention was devised in view of the above-described conventional problems, and after installing a high-load and high-air air supply fan in the gas boiler, all of the air required for complete combustion by the air supply fan is discharged from the primary air. It is to provide an air supply fan structure for a gas boiler that can be mixed by combustion.

1 is a configuration diagram of a gas boiler according to the present invention,

Figure 2 is a cross-sectional view of the air supply fan according to the present invention,

Figure 3 is a cross-sectional view of the impeller according to the present invention.

(Explanation of symbols for the main parts of the drawing)

100; Air supply fan 110; Inlet 120; outlet

130; Impeller 131; Wings 140; Drive motor

200; Gas outlet 300; Burner 400; Gas valve

410; Atmospheric pressure section 420; First solenoid valve 430; Second solenoid valve

440; Nozzle 500; Air damper

The present invention as a means for achieving the above object, the fan body is screwed to the fan cover and has a fan body having an impeller for suction amplification and discharge of the mixed gas and air therein, the drive motor and the impeller wrapped outside the case Prepare an air supply fan consisting of a fixing ring for fixing the

The streamlined wing structure formed on the impeller influences the load pressure of the air supply fan, and in the axial direction, the inner portion increases the load pressure supplied by the wings starting from the front direction, and the outer portion is formed in the rearward direction inclined to the rear portion rather than the rotational direction. It is a basic characteristic in the technical structure that it is comprised so that the air volume may increase.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a gas boiler according to the present invention, Figure 2 is a cross-sectional view of the air supply fan according to the present invention, Figure 3 is a cross-sectional view of the impeller of the air supply fan according to the present invention.

1 and 3, the gas boiler 10 has an inlet 110 connected to the gas pipe 200, and burns the gas and air sucked through the inlet 110. The air outlet fan 120 is formed to discharge to the side and forms a negative pressure of high load during operation, and when the air supply fan 100 is operated, the first solenoid valve in the state in which the atmospheric pressure part 410 is opened The second solenoid valve 430 is sequentially opened at the same time as the 420 is opened, and the gas valve 400 allowing the discharged gas to be sucked into the air supply fan 100 through the nozzle 440 and the gas pipe 200. And, when the gas is discharged from the gas valve 400, the air damper 500 for supplying to the burner 300 side by mixing the gas and the outside air in a 1: 1 ratio is basically configured.

An air supply fan 100 for forcibly inhaling air and gas 1: 1 is installed in the gas boiler 10. The inlet 110 of the air supply fan 100 has a streamlined shape to increase the intake air flow rate and reduce vibration and noise. It is formed to the impeller 130 and its suction port 110 is installed to match. In addition, the inlet 110 is connected to the gas pipe 200 connected to the gas valve 400 and the air damper 500 is mixed with the gas and air is applied to the negative pressure, the outlet 120 is a gas mixed with air It is configured to be respectively connected to the burner 300 side which is burned and ignited by the high-pressure discharge of the igniter.

The air supply fan 100 is screwed with the fan cover 101 and the fan body 102 having an impeller 130 for sucking and amplifying and discharging the mixed gas and air therein, and the outside is surrounded by the case 103 It consists of a fixed ring 104 for fixing the drive motor 140 and the impeller (130).

The streamlined blade 131 structure formed in the impeller 130 influences the load pressure of the air supply fan 100, and in the axial direction, the inner part increases the load pressure supplied by the wing starting from the front direction, and the outer part rotates in the direction of rotation. It is formed in the rearward direction inclined to the rear portion is configured to increase the air volume.

When the power supply is applied to the air supply fan 100 in a state in which the atmospheric pressure unit 410 is opened as described above, the air supply fan 100 is operated by the driving motor 140 while the blade 130 of the impeller 130 is operated. The negative pressure of the high load is formed, and the negative pressure generates negative pressure on the gas valve 400, the nozzle 440, the gas pipe 200, and the air damper 500.

At this time, while the first solenoid valve 420 of the gas valve 400 is opened and the second solenoid valve 430 is sequentially opened, the gas is discharged, and the discharged gas is a nozzle 440, the gas pipe 200, the suction port. The air is forced into the air supply fan 100 through the 110, and the outside air is forced into the air supply fan 100 through the air damper 500 at the same time, so that the gas and the air are inside the air supply fan 100. The air and gas sucked at 1: 1 and sucked are amplified and discharged toward the burner 300 through the outlet 120 in a pre-mixed state, and ignition is performed by the igniter.

As described above, according to the present invention, since an air fan having a high load and a high air volume is installed in the gas boiler, it can be combusted by mixing all of the air required for complete combustion with the primary air during use. As a result, incomplete combustion is suppressed as much as possible to prevent excessive emission of carbon monoxide, as well as the combustion is normally performed regardless of atmospheric pressure and temperature change when using the LPG barrel, and the remaining gas can be used completely.

And while the present invention as described above has been described through a representative embodiment, the present invention is not necessarily limited to the embodiment thereof, and if it is provided with the configuration requirements of the present invention to achieve the purpose and expect the effect of action within a variety of ranges It can be done.

Claims (1)

In the first-generation combustion gas boiler, the fan body 102 is screwed to the fan cover 101 and the fan body 102 having an impeller 130 for sucking and amplifying and discharging the mixed gas and air therein, and the case 103. While providing an air supply fan 100 made of a driving motor 140 is wrapped and the fixing ring 104 for fixing the impeller 130, The streamlined blade 131 structure formed in the impeller 130 influences the load pressure of the air supply fan 100, and in the axial direction, the inner part increases the load pressure supplied by the wing starting from the front direction, and the outer part rotates in the direction of rotation. Air supply fan structure for a gas boiler, characterized in that configured to increase the amount of air is formed in the rear direction inclined to the rear portion.