KR100279831B1 - Flue for Condensing Gas Boiler - Google Patents

Abstract

The present invention relates to a condensing gas boiler communication in which rain water is discharged after being mixed with condensed water through an exhaust port by providing a constant inclination when installing a communication in a boiler, the first pipe being connected to the discharge side of the combustion unit, In the flue of the gas boiler which consists of the 2nd pipe connected horizontally using the elbow to the end of a 1st pipe, and the air supply pipe fixed parallel to a predetermined space in the middle of the 2nd pipe, the 3rd pipe 300 The fourth pipe 310 provided inside of is fixed to have a predetermined inclination (θ).

Description

Flue for Condensing Gas Boiler

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a condensing gas boiler communication, and more particularly, to a condensing gas boiler communication in which rainwater is discharged after being mixed with condensate through an exhaust port by having a constant slope when installing the communication in a boiler.

In general, to maintain a constant temperature in a certain space to increase the efficiency of work is called an air conditioner, the artificial means used at this time is called an air conditioner.

This air conditioner has a heating device to increase the room temperature, which is divided into an oil boiler, a gas boiler and a hot air heater. Oil boilers and gas boilers use the heat generated by the oxidation of oil and gas to heat the fluid and circulate the heated fluid, thereby increasing the temperature of the room and using hot water. Gas boilers come in both non-condensing and condensing types.

FIG. 1 is a block diagram illustrating a non-condensing type. The gas boiler 100 includes a cabinet 110, a combustion unit 120 installed in the cabinet 110, a main heat exchanger 130 and a hot water supply unit 140 adjacent to the combustion unit 120, and Consists of a control unit 150.

Here, the combustion unit 120 is to adjust the amount of gas supplied from the gas tank not shown by the solenoid valve 122, the manifold 124 having a plurality of burners 124 at the end thereof It is fixed. On both sides of the burner 124, an ignition transformer 127 for enabling initial combustion and a flame detector 127a for detecting whether a flame has occurred after being ignited are provided. A blower 129 is provided below the manifold 124 for supplying air for ignition and combustion.

The main heat exchanger 130 causes heat exchange with heat generated from the burner 124 while water pressurized by the pump 132 is transferred into the pipe by pressure, and a pipe 126 having a constant diameter is wound up. A plurality of heat absorbing plates 126a are vertically provided between the pipes 126. One side of the pipe 126 is provided with an overheat prevention sensor 128 and a temperature detection sensor 128a to maintain a proper level of water temperature.

The hot water supply unit 140 stores the heat exchanged water while passing through the main heat exchanger 130, and selectively uses the stored water as heating or hot water. The water supply storage tank 142 and the water supply line It is composed of a supplemental water valve 144 for blocking or passing the water flowing through, and a filter 146 for removing the foreign matter contained in the water passed through the supplemental water valve 144. The water supply is supplied to the hot water heat exchanger 147 through the flow switch 145 installed before the replenishment water valve 144, and the heating return water passing through the filter 146 is supplied.

The water supply and the heating return water supplied into the hot water heat exchanger 147 are supplied to the hot water and the heating by the three-way valve 148 in the reheated state. The three-way valve 148 may supply hot water filled in the water supply storage tank 142 by heating according to its operating state, and directly use only hot water. In addition, the control of the hot water and heating is adjustable through the control 150 and the room cone 151.

On the other hand, the condensing boiler not shown is installed so that the heat exchanger is divided into a blood donor absorbing unit and a latent heat absorbing unit to perform heat exchange, and the condensate generated in the latent heat absorbing unit is collected into an exhaust hood provided at the lower portion and discharged to the outside. have.

FIG. 2 is a block diagram showing the inside of a general condensing boiler. In the illustrated gas boiler 2, a blower 10 and a burner 12 are disposed above the combustor 4. As shown in FIG. The upper part of the combustor 4 is provided with the burner 12 which combusts 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 in turn, 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 supplied is ignited and combusted by a spark delivered through the ignition transformer 42 and the ignition rod, and the series of combustion processes the controller 40 which receives an input signal from an indoor temperature controller 38 operated by a user. Controlled by

3 is a configuration diagram showing the installation state of a general condensing gas boiler, the flue 200 installed in the boiler 100 is the first pipe 210 connected to the discharge side of the combustion unit 120, and the first The second pipe 230 is connected horizontally using the elbow 220 at the end of the pipe 210, and the air supply pipe 240 fixed in the middle of the second pipe 230.

Here, the air supply pipe 240 is installed in the middle portion of the second pipe 230, it is provided to penetrate the wall surface using a large diameter pipe to have a predetermined distance from the outer surface of the second pipe 230. do. One end of the air supply pipe 240 is provided with an air supply fixing tool 242 so as to be connected to the air supply side of the boiler 100 by a flexible pipe 250.

A plurality of holes 244 and 232 are formed at the ends of the air supply pipe 240 and the second pipe 230 to discharge the gas generated from the combustion unit 120, and to raise the outside air temperature to be sucked in.

In the non-condensing type of the gas boiler installed as described above, the boiler 200 is fixed to a wall, and then a hole 262 is formed in the adjacent side wall 260, and the flue 200 connected to the combustion unit 120 is connected to the hole 262. To be inclined at an angle to the outside (outside). The condensing type is installed so as to be inclined toward the combustion unit 120.

In this state, the boiler 100 is operated and at the same time, the solenoid valve 122 installed in the cabinet 110 is opened by a signal from the control unit 150, and the burner having gas provided in the manifold 124. At the same time as the injection through 124, the air required for combustion is supplied through the blower 129 installed at the lower end thereof, and is ignited by the ignition transformer 127.

When the ignition heat is discharged through the heat absorbing plate (126a) is exchanged with the water flowing through the centrally provided pipe 126, the temperature of the water is fixed to one side of the pipe 126 The overheat prevention sensor 128 and the temperature sensor 128a maintains a constant temperature. The heat exchanged water is stored in the hot water supply unit 140, and used as heating or hot water according to the operation of the three-way valve 148.

The length of the flame generated by the burner 124 is sensed by the flame detector 127a, and the opening degree of the solenoid valve 122 is adjusted by the controller 150, so that the heat absorbing plate 126a is overheated. To prevent oxidation.

In addition, the combustion gas is discharged into the atmosphere through the first and second pipes 210 and 230 connected to the torch side of the combustion unit 120, and the outside air is supplied to the air supply pipe 240 provided outside the second pipe 230. Heated to a higher than the atmospheric temperature through the) is supplied through the blower (129).

At this time, when the flue of the non-condensing boiler is inclined toward the combustion unit side, the condensed water and rain water generated when the combustion gas is in contact with the atmosphere flows to the inside to flow into the heat exchange unit, thereby inhibiting combustion. It is discharged to the outside through an exhaust hood provided under the latent heat absorption unit.

However, when the flue is installed in the condensing boiler inclined inward, the inclination of the flue causes the operator's mistake to displace the condensed water generated in the process of contacting the exhaust gas with the atmosphere to the outside, which hinders the surrounding aesthetics. There is a problem.

Therefore, the present invention has been made to solve such a problem, it is installed so as to have a constant slope when installing the communication in the boiler to prevent the water flowing out of the axial water, and rain water to the bottom of the heat exchanger through the exhaust port The purpose is to provide a communication of gas boilers that are collected and discharged.

1 is a configuration diagram showing the inside of a typical gas boiler,

2 is a block diagram showing the interior of a typical condensing boiler,

3 is a configuration diagram showing an installation state of a general condensing gas boiler,

4 is a configuration diagram showing an installation state of the condensing gas boiler according to the present invention,

Figure 5 is a longitudinal sectional view of the communication portion of the condensing gas boiler according to the present invention.

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

10; third pipe 20; fourth pipe

θ;

The present invention for achieving the above object has a first pipe connected to the discharge side of the combustion section, a second pipe horizontally connected using an elbow at the end of the first pipe, and a predetermined interval in the middle of the second pipe In the flue of the gas boiler consisting of the air supply pipe fixed in parallel so as to achieve, it is achieved to provide a communication for the condensing gas boiler characterized in that the first pipe provided inside the second pipe is fixed to have a predetermined slope. .

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

4 is a configuration diagram showing an installation state of the condensing gas boiler according to the present invention, Figure 5 is a longitudinal sectional view of the communication unit of the condensing gas boiler according to the present invention, the same reference numerals are used for the same configuration as the conventional configuration.

Before describing this embodiment, the gas boiler 100 includes a cabinet 110, a combustion unit 120 installed in the cabinet 110, as illustrated in FIGS. 1 and 2, The main heat exchanger 130 and the hot water supply 140, and the control unit 150 in close proximity to the combustion unit 120.

The combustion unit 120 is configured to adjust the amount of gas supplied by the solenoid valve 122, and a manifold 124 having a burner 124 at its end is fixed. On both sides of the burner 124, an ignition transformer 127 for initial combustion and a flame detector 127a for detecting whether a flame is generated after ignition are installed. A blower 129 is provided below the manifold 124 for supplying air for ignition and combustion.

The main heat exchanger 130 causes heat exchange with heat generated from the burner 124 while water is transferred into the pipe by the pump 132. A pipe 126 having a constant diameter is wound and the pipe 126 A plurality of heat absorbing plates 126a are vertically provided between the two electrodes. One side of the pipe 126 is provided with an overheat prevention sensor 128 and a temperature detection sensor 128a to maintain a proper level of water temperature.

The hot water supply unit 140 includes a water storage tank 142, a supplemental water valve 144 for blocking or passing water introduced through the water supply line, and the substance contained in the water passing through the supplemental water valve 144. It consists of a filter 146 to remove. The water supply is supplied to the hot water heat exchanger 147 through the hot water flow switch 145 installed before the replenishment water valve 144, and the heating and return water passing through the filter 146 is supplied.

The water supply and heating return water supplied into the hot water heat exchanger 147 is supplied to the hot water and the heating by the three-way valve 148 in the reheated state. The three-way valve 148 may supply hot water filled in the water supply storage tank 142 by heating according to its operating state, and directly use only hot water.

In addition, the flue 200 installed in the boiler 100 uses the elbow 220 at the end of the first pipe 210 and the first pipe 210 connected to the discharge side of the combustion unit 120. The second pipe 230 is connected horizontally and the air supply pipe 240 fixed in the middle of the second pipe 230.

In the gas boiler having such a configuration, the combustion gas discharged after the heat exchange is discharged into the atmosphere through the second pipe 230 connected to the first pipe 210 connected to the combustion unit 120, and the air supply pipe The outside air heated while passing through 240 is used for combustion through the blower 129.

As such, the inclination of the flue is inclined to the outside in the process of installing the flue, so that the third pipe 300 in the present invention is prevented from flowing out of the condensate generated by the contact between the gas discharged after combustion and the atmosphere. When the fourth pipe 310 is manufactured, the fourth pipe 310 provided therein is installed to have a predetermined inclination θ.

That is, the third pipe 300 is inserted in parallel to the hole 262 formed in the sidewall 260 to be inserted so that the fourth pipe 310 has a constant inclination θ.

It is preferable that the inclination θ be approximately 1 ° to 5 ° from the center of the third pipe 300 and the outer side is directed upward.

In this way, the flue installed in the gas boiler is manufactured to have a slope that rises to the outside, and inserted into parallel to the hole formed in the side wall to which the boiler is fixed, the installation work of the flue is finished, due to the gas discharged after combustion The generated condensate and rainwater flowing into the year during the rain flow into the boiler and collect under the heat exchanger.

As a result, condensed water and rainwater generated in the process of exhausting the combustion gas are discharged without affecting the combustion.

As described above, in the present invention, the flue that is installed in the gas boiler is manufactured to have a constant slope of the first pipe inserted into the second pipe provided on the outside, so that the condensed water falls out due to a mistake of the operator. And prevents rain water from being collected under the heat exchanger to be discharged.

Claims (2)

Condensing consisting of a first pipe connected to the discharge side of the combustion section, a second pipe connected horizontally using an elbow at the end of the first pipe, and an air supply pipe fixed in parallel with a predetermined distance in the middle of the second pipe. In the year of the gas boiler, The fourth pipe 310 provided inside the third pipe 300 is fixed so as to have a predetermined inclination (θ), the communication for condensing gas boiler. The communication for condensing gas boilers according to claim 1, wherein the inclination θ is comprised between 1 ° and 5 °.