KR20000044719A - Ventilating fan of gas boiler - Google Patents

Abstract

PURPOSE: A ventilating fan of a gas boiler is provided to reduce manufacturing costs by injection-molding a ventilating fan with many blades and to enhance combustion efficiency of a gas boiler by supplying the desired quantity of wind. CONSTITUTION: A ventilating fan(10) rotates and blowing air to the open portion of a blade unit(14) by driving a motor. The air is discharged between blades(14a) and supplied to a desired position along a feed line. The blades are formed approximately 30-36 to make the lager amount of air flow into the ventilating fan. That is, the noise is reduced and the sufficient amount of wind is supplied by limiting the number of blades up to 32.

Description

A blower fan of gas boiler.

The present invention relates to a blower fan of a gas boiler, and more particularly, to reduce the manufacturing cost by injection molding the blower fan for supplying the air sucked through the air supply to the combustion chamber to form more wings than the blower fan made of conventional steel In addition, the present invention relates to a blower fan of a gas boiler that can supply a large amount of air required to improve the combustion efficiency of the gas boiler.

In general, a gas boiler burns liquefied petroleum gas (LPG), liquefied natural gas (LNG), or city gas inside, heats water using combustion heat generated during the combustion process, and then circulates the heated water. Refers to a device that circulates a heating pipe in a room through a pump and heats the room or supplies it to a bathroom or a kitchen.

Referring to the gas boiler used as described above in more detail with reference to the accompanying drawings Figure 3 is a schematic diagram showing the configuration of a gas boiler generally used, the heating water using the combustion heat of the gas inside the main body 100 A combustion chamber 110 capable of heating the gas is formed, and a combustion unit 111 in which a burner or the like for burning the gas introduced therein is installed below the combustion chamber 110, and an upper portion of the combustion unit 111 is provided. The main heat exchanger 112 which heats the heating water by using the combustion heat generated at the time of combustion is provided.

The upper part of the main body 100 is provided with an air supply port 101 for sucking the air necessary for the combustion of the gas, and an exhaust port 102 for discharging the exhaust gas of the combustion chamber 110 to the outside, respectively. Air sucked through the mechanism 101 is supplied into the combustion chamber 110 by a blowing fan 150 through a supply path (not shown).

The ignition transformer 120 for generating a high voltage necessary to ignite the gas supplied to the combustion unit 111 is fixed to the inner back of the main body 100, the high voltage generated in the ignition transformer 120 is a combustion chamber ( It is supplied to the spark plug 121 is fixed to one side of the 110.

On the other hand, a gas valve 140 for controlling the amount of gas supplied is installed at a predetermined portion of the gas supply pipe 107 for supplying the gas supplied from the outside to the combustion unit 111, the main heat exchanger 112 The heated heating water is supplied to the auxiliary heat exchanger 170.

The auxiliary heat exchanger 170 serves to heat the direct water introduced through the direct water supply pipe 105 to be converted into hot water.

The heating water and the direct water supplied to the subsidiary heat exchanger 170 are supplied to the heating pipe of the room through the heating water supply pipe 103 according to the driving of the circulation pump 160, or heat exchanged to provide the hot water supply pipe 104. Is supplied to the bathroom or kitchen through, the heating water circulated through the heating pipe of the room is recovered to the water tank 180 through the heating water recovery pipe 106, all the above operation is the control circuit unit 130 It is controlled by.

When driving the gas boiler configured as described above, first, the blowing fan 150 rotates at a high speed for a predetermined time to ventilate the inside of the combustion chamber 110 in which unburned gas generated after the combustion is left, and then at a low speed. At the same time as the gas valve 140 is rotated, the gas is supplied to the combustion unit 111, and the gas supplied to the combustion unit 111 burns while being ignited by the high-pressure discharge of the spark plug 121. The heating or hot water heated or heat-exchanged in the main heat exchanger 112 or the auxiliary heat exchanger 170 is circulated through the heating pipe in the room, or the hot water is supplied to the bathroom or the kitchen.

The conventional blower fan 150 for ventilating the inside of the combustion chamber 110 or supplying combustion air for combustion is made of a metallic material, as shown in FIGS. In other words, the blocking plate 154 to which the coupling hole 152 is formed to be coupled to the motor shaft is pressed, and a plurality of wings 156a are formed to be pressed again to the blocking plate 154. It is composed of a wing member 156 is formed by pressing.

Blowing fan 150 of the conventional steel material configured as described above is composed of a number of parts, that is, the coupling sphere 152, the blocking plate 154 and the wing member 156, each of which is divided into a machining operation is pressed again As a result, not only is the processing work cumbersome, but the manufacturing cost increases accordingly.

In addition, the process of pressing the plurality of wings 156a in the wing member 156 is not only difficult, but is limited to approximately 25, which is a constant number of wings 156a formed by the press work. Due to the problem that the amount of air required in the combustion chamber 110 is not smoothly supplied, a problem of lowering the combustion efficiency of the gas boiler has been caused.

Accordingly, the present invention has been made to solve the above problems, injection molding to reduce the manufacturing cost by forming a blower fan for supplying air sucked through the air supply to the combustion chamber than the blower fan made of conventional steel The purpose is to improve the combustion efficiency of the gas boiler by supplying a large amount of air required.

1 is a schematic main front view showing a blowing fan of the present invention,

2 is a longitudinal sectional view of the main part according to FIG. 1;

3 is a schematic view showing the configuration of a gas boiler generally used;

Figure 4a is a schematic main front view showing a blowing fan used in a conventional gas boiler,

4B is a longitudinal sectional view of the main part according to FIG. 4A.

Explanation of Signs of Major Parts of Drawings

10 blower fan 12 fixed shaft

12a: fastening hole 14: wing

14a: wings

The present invention for achieving the above object is in the blower fan of the gas boiler which is installed to supply the combustion air necessary for ventilation or combustion of the combustion chamber through the air supply formed on the upper portion of the main body, the fastening hole is formed in the center As the fixed shaft is formed, one side is closed and the other side is opened to provide a blower fan of the gas boiler, characterized in that the wing portion is formed integrally injection molding approximately 30 to 36 wings to the outer periphery, such as You can achieve your purpose.

When the blade is formed to be limited to 32 blades, the noise is less and has the most ideal conditions for supplying the air volume required for combustion.

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

Figure 1 is a schematic main front view showing a blower fan of the present invention, Figure 2 is a longitudinal sectional view of the main part according to Figure 1, a fixed shaft 12 is formed with a fastening hole 12a to be coupled to the motor shaft in the center It is formed to be supported by a plurality of support ribs, one side is closed and the other side is open, the blower of the gas boiler is integrally injection-molded wing portion 14 is formed in the outer periphery approximately 30 to 36 wings (14a) The fan 10 is shown in figure.

If the wings 14a of the wing portion 14 is formed to be limited to 32, the noise is low and the most ideal condition for supplying the amount of air required for combustion is obtained.

Referring to the working relationship of the present invention configured as described above in more detail with reference to the accompanying drawings as follows.

First, after fastening using a fastening hole 12a formed in the fixed shaft 12 as a motor shaft, and then driving the motor, the blower fan 10 rotates while the open portion of the wing portion 14 due to the rotational force. As air is introduced into the furnace, air is supplied between the wing 14a and the wing 14a to be discharged between the wing 14a and the wing 14a.

Since the wings 14a formed on the wing 14 are formed in approximately 30 to 36, the air flows in a large amount of air flowing in when the blower fan 10 is rotated. It can be.

In addition, if the wing 14a of the wing 14 is formed to be limited to 32, the noise is low and the most ideal condition that can sufficiently supply the amount of air required for combustion.

Compare the numerical values calculated by experimenting the conditions that can blow more air volume than the blowing fan made of synthetic resin so that the blades are formed as described above more than the blowing fan made of conventional steel materials One example is as follows.

table.

division sample Voltage (V) Current (A) RPM (RPM) Fluid velocity (m / s) Air volume (m³ / h) Number of wings Steel 25 220 0.38 2526 28.05 126.09 Synthetic Resin Material 30 220 0.41 2570 30.17 135.61 Synthetic Resin Material32 220 0.40 2310 30.18 135.64 Synthetic Resin Material 34 220 0.43 2591 30.70 138.01 Synthetic resin 36 220 0.42 2367 30.74 138.17

As shown in the above table, the blades 14a of the blower fan 10a in which the blades 14a are injection molded to 30 to 36 with synthetic resin materials, compared to the conventional blower fan 150 having 25 blades 156a of steel material. It can be seen that the amount of wind generated in the can occur a lot.

Particularly, if the blades 14a of the wing portion 14 are limited to 32, the rotational speed and the fluid velocity of the blower fan 10 are the least noise, and the most ideal condition that can sufficiently supply the amount of air required for combustion. If it is higher than that, as shown in the table, as the speed of rotation increases, the speed of the fluid increases as the speed of the fluid increases, but in general, the speed of the fluid increases by physical action, resulting in noise and rotation. The mechanical noise of the motor is to be caused is caused.

As described above, by using the blower fan 10 made of a synthetic resin material formed so that the wings 14a of the wings 14 are formed more than in the related art, a smooth combustion can be achieved by supplying sufficient air for combustion. .

As described above, the present invention has been described with reference to one embodiment shown in the drawings, but this is merely exemplary, and various modifications and equivalent other embodiments may be made by those skilled in the art. Will understand.

As described above, the present invention injection molding the blowing fan for supplying the air sucked through the air supply from the gas boiler to the combustion chamber so that more blades are formed than the conventional blowing fan of steel, so that more air volume can be supplied in the combustion chamber, It is a preferred invention that can reduce the production cost due to the supply of necessary combustion air to increase the combustion efficiency as well as the blower fan is formed of a synthetic resin material.

Claims (2)

In the blower fan of the gas boiler installed to supply the combustion air required for ventilation or combustion of the combustion chamber through the air supply formed in the upper portion of the main body, a fixed shaft 12 having a fastening hole 12a is formed in the center And one side is closed and the other side is opened, and the wing portion 14 of which approximately 30 to 36 wings 14a are formed at the outer circumference thereof is integrally injection molded. The blowing fan of the gas boiler according to claim 1, wherein the vane (14a) of the vane portion (14) is limited to 32.