KR20000008523U - Exhaust hood of condensing boiler - Google Patents

Abstract

The present invention heats the heating water while passing through the latent heat exchanger, and then sends the exhaust gas discharged to the exhaust duct, and at the same time, forms an exhaust hood inclined at a predetermined angle to collect the condensed water discharged from the latent heat exchanger. The exhaust hood of the condensing boiler that can induce condensate to fall naturally, the condensing boiler is discharged to the outside and the intake duct (6) to suck the outside air in accordance with the operation of the blower (10) An airtight main body 2 provided with an exhaust duct 20; Heat exchanger between the burner 12 combusting the mixture of the gas sucked by the blower 10 and the sensible heat exchanger 14 for heating the heating water, and the exhaust gas passing through the sensible heat exchanger 14. A combustor 4 in which a latent heat exchanger 16 for heating heating water is integrally assembled; A hot water heat exchanger 34 for heating the water supply by the heated heating water while passing through the sensible heat exchanger 14; A circulation pump 22 for supplying the heating water passing through the heating water filter 24 and the water separator 26 to the latent heat exchanger 16; It includes an expansion tank 48 for storing a portion of the heating water flows in accordance with the operation of the three-way valve 28 and the overpressure check valve 32, it is disposed at the lower end of the latent heat portion heat exchanger (16) to condensate The lower end of the exhaust hood 18 to be collected is inclined at a predetermined angle.

Description

Exhaust hood of condensing boiler

The present invention relates to an exhaust hood of a condensing boiler. More specifically, the heating water is heated while passing through a latent heat exchanger, and then exhaust gas is discharged to the exhaust duct, and condensate discharged from the latent heat exchanger is carried out. The present invention relates to an exhaust hood of a condensing boiler capable of inducing condensate to fall naturally by forming an exhaust hood to be inclined at a predetermined angle.

Boilers commonly used for heating and hot water supply in homes can be divided into oil boilers and gas boilers, depending on the fuel used. Gas boilers use liquefied petroleum gas (LPG) as a raw material, but since they contain little sulfur compared to diesel or kerosene, most LNG is used as a clean fuel to minimize air pollution.

In addition, the gas boiler can be divided into various types according to the control method or the sealed state, and can be divided into condensing and non-condensing types according to the heat source for heating the heating water. Among them, the condensing boiler has a sensible heat exchanger that directly heats the heating water by using the heat burned by the burner, and a latent heat exchanger that heats the heating water by using latent heat of exhaust gas passing through the sensible heat exchanger. In addition, the non-condensing boiler is equipped only with a sensible heat exchanger.

In the conventional condensing boiler, since the structure of the exhaust hood has a generally flat shape, there are many difficulties in collecting condensate discharged from the latent heat exchanger.

The present invention devised to solve such a problem is formed by an inclined structure for inducing condensate to fall naturally, it is possible to properly collect the condensate discharged from the latent heat exchanger, while installing the boiler at the time of installation It is an object to provide an exhaust hood of a condensing boiler that causes condensate to fall naturally when installed parallel to the ground or slightly inclined.

1 is a configuration diagram showing a condensing boiler according to the present invention,

2 is a front view showing an exhaust hood of the condensing boiler according to the present invention,

Figure 3 is a perspective view showing an exhaust hood of the condensing boiler according to the present invention.

♣ Explanation of symbols for main part of drawing ♣

10: Blower 12; Burner

14: sensible heat exchanger 16: latent heat exchanger

18: exhaust hood 20: exhaust duct

22: circulating pump 24: heating water filter

26: water separator 34: hot water heat exchanger

38: room temperature controller 40: controller

44: gas valve 70, 72: bracket

An object of the present invention described above is an enclosed body having an intake duct for sucking external air and an exhaust duct for discharging the burned exhaust gas to the outside according to the operation of the blower; The burner and the sensible heat exchanger for heating the heating water and the latent heat exchanger for heating the heating water through heat exchange with the exhaust gas passing through the sensible heat exchanger are integrally integrated. A combustor assembled; A hot water heat exchanger for heating the water supply by the heated heating water while passing through the sensible heat exchanger; A circulation pump for supplying heating water passing through a heating water filter and a water separator to the latent heat exchanger; In the condensing boiler comprising an expansion tank for storing a part of the heating water flowing in accordance with the operation of the three-way valve and the overpressure check valve, the lower end of the exhaust hood disposed at the lower end of the latent heat exchanger to collect condensate It is achieved by the exhaust hood of the condensing boiler, characterized in that formed inclined at an angle of.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the exhaust hood of the condensing boiler according to a preferred embodiment of the present invention, the same parts as the conventional structure described in Figure 1 are denoted by the same reference numerals.

1 is a configuration diagram showing a condensing boiler according to the present invention, Figure 2 is a front view showing an exhaust hood of the condensing boiler according to the present invention, Figure 3 is a perspective view showing an exhaust hood of the condensing boiler according to the present invention.

1 is a block diagram illustrating a condensing gas boiler. The gas boiler 2 exemplified herein is an air proportional control method in which a certain amount of air is always supplied by adjusting an air amount according to a change in temperature of the outside air, and the blower 10 and the burner 12 include the combustor 4. It is arranged at the top of the. The upper part of the combustor 4 is provided with the burner 12 which burns the air supply and gas sucked in through the intake duct 6 according to the operation of the blower 10, and below the burner 12, the sensible heat part The heat exchanger 14 and the latent heat exchanger 16 are arranged. The sensible heat exchanger (14) heats the heating water in the process of exchanging heat by directly contacting the sensible heat generated from the burner, and the latent heat exchanger (16) uses latent heat generated during thermal contact with the exhaust gas. To heat the heating water.

The exhaust gas passing through the latent heat exchanger 16 is discharged to the outside through the exhaust duct 20, and the condensed water generated in the heat exchange process is collected in the exhaust hood 18 and then discharged to the outside.

In the lower left of the boiler, a circulation pump 22 for circulating the heating water is disposed. When the circulation pump 22 is operated, the heating water which has finished heating in the room flows into the heating water filter 24 through the line L1. The heating water filter 24 removes impurities contained in the heating water, and the filtered heating water is sent to the upper water separator 26. The water separator 26 is for discharging air contained in the heating water, and discharges the air through the upper air vent.

An overpressure preventing valve 32 is provided between the heating water filter 24 and the water separator 26 to prevent the pressure of the heating water from being excessively raised, and sends a portion of the heating water to the expansion tank 48 to supply pressure. Will be adjusted. The heating water passing through the water separator 24 is supplied to the latent heat exchanger 16 through the line L2 by the operation of the circulation pump 22, and then heated while passing through the sensible heat exchanger 14. Discharged to (L3). Heating water discharged through the line (L3) is supplied to the room according to the operation of the three-way valve (28).

In the middle of the boiler is shown a heat exchanger that uses hot water for heating to obtain hot water. In accordance with the operation of the hot water flow switch 36, the cold water introduced through the line (L6) is heated in the process of passing through the hot water heat exchanger 34, and then discharged through the line (L7).

In the lower right part of the boiler, a gas supply device is installed. According to the operation of the gas valve 44, the gas introduced through the line L8 is supplied to the nozzle 8 above the combustor 4 through the line L9. At this time, the supply amount of gas is varied according to the operation of the air proportional control solenoid valve 46 to compensate for the supply amount according to the change of the outside air. The gas thus supplied is ignited and combusted by the spark delivered through the ignition transformer 42 and the ignition rod. This series of combustion processes the controller 40 receiving the input signal from the room temperature controller 38 operated by the user. Controlled by

In the condensing boiler of such a configuration, in order to collect the condensed water discharged from the latent heat portion heat exchanger 16, in the preferred embodiment of the present invention by forming the exhaust hood 18 to be inclined at a predetermined angle, the exhaust hood ( Condensate collected in 18) was induced to fall naturally through the condensate discharge pipe. Here, the exhaust hood 18 is made of aluminum and is integrally formed without a seam.

2, the upper end of the exhaust hood 18 is coupled to the lower end of the latent heat exchanger 16 through the upper flange 18a, and the left end is coupled to the exhaust duct 20 through the side flange 18b. do. In addition, brackets 70 and 72 for coupling with the boiler body 2 are formed, and fastening holes 70a and 72a are formed in these brackets 70 and 72.

As can be seen in FIG. 3, a fastening hole 80 for coupling with the latent heat exchanger 16 is formed in the upper flange 18a of the exhaust hood 18, and the exhaust duct is provided in the side flange 18b. A fastening hole 82 for coupling with the 20 is formed.

According to the present invention described above, an exhaust hood for collecting the condensate discharged from the latent heat exchanger while the exhaust gas is discharged to the exhaust duct after heating the heating water while passing through the latent heat exchanger. It can be inclined at an angle to induce condensate to fall naturally, there is an advantage that can quickly discharge the condensate.

Claims (2)

An enclosed main body 2 having an intake duct 6 for sucking external air according to the operation of the blower 10 and an exhaust duct 20 for discharging the burned exhaust gas to the outside; Heat exchanger between the burner 12 combusting the mixture of the gas sucked by the blower 10 and the sensible heat exchanger 14 for heating the heating water, and the exhaust gas passing through the sensible heat exchanger 14. A combustor 4 in which a latent heat exchanger 16 for heating heating water is integrally assembled; A hot water heat exchanger 34 for heating the water supply by the heated heating water while passing through the sensible heat exchanger 14; A circulation pump 22 for supplying the heating water passing through the heating water filter 24 and the water separator 26 to the latent heat exchanger 16; In the condensing boiler comprising an expansion tank 48 for storing a part of the heating water flowing in accordance with the operation of the three-way valve 28 and the overpressure check valve 32, An exhaust hood of the condensing boiler, characterized in that the lower end of the exhaust hood 18 disposed at the lower end of the latent heat exchanger 16 to collect condensate is inclined at a predetermined angle. 2. The exhaust hood of a condensing boiler according to claim 1, wherein said exhaust hood (18) is made of aluminum and formed integrally.