KR20000010840U - Bypass device of gas boiler - Google Patents

Abstract

The present invention relates to a bypass device for a gas boiler, the control unit 10 is connected to the temperature control unit 11, and performs the overall control function of the boiler;

A primary heat exchanger (20) having a combustion section (21) located at a bottom thereof so as to circulate heating water or hot water;

A heating water moving pipe (30) formed to have a predetermined length so that the heating water can be moved to the primary heat exchanger (20);

Located on one side of the heating water moving pipe 30, and three-way valve (40) for selectively controlling the moving direction of the heating water;

A secondary heat exchanger (50) having different paths for circulation of the hot and cold water;

A circulation pump 60 formed such that the heating water can be circulated through the primary heat exchanger 20 through the heating water moving pipe 30;

Located on one side of the circulation pump 60, it is installed to remove the bubbles generated in the heating water in the heating water moving pipe 30, the top of the separator 70 is formed with an air discharge pipe 71 and ;

Located in the upper portion of the separator (70), the lower surface of the air discharge pipe 71 is fixed, the inner side is provided with an overflow hose (81) 80;

When resistance occurs in the heating water moving pipe 30, the bypass pipe 90 is connected to the water separator 70 and the heating water moving pipe 30 to separate the water and air so that the heating water can be moved smoothly. Since the resistance is generated in the heating water moving pipe (30), the air in the heating water moving pipe (30) is introduced into the separator (70) through the return or bypass pipe (90), the cistern ( 80 is discharged, and the heating water is moved through the circulation pump 60, it is possible to increase the heating or hot water capacity.

In addition, during the initial ignition, a low temperature of the cistern 80 may be introduced into the separator 70 to prevent an increase in fuel costs.

Therefore, it is a very useful design that can improve the merchandise and convenience.

Description

Bypass device of gas boiler

The present invention relates to a gas boiler bypass system, and more particularly, in an open air gas boiler, a bypass pipe connected to a heating inlet side is connected to a separator separated from air and water in a pipe, When resistance occurs, the air in the pipe can be discharged smoothly, and it is designed to reduce the heating effect and unnecessary heat consumption.

In general, the gas boiler is configured to heat the heat exchanger with the combustion heat of the burner so that the primary heat exchange is performed, mainly to circulate the heating water, and to obtain hot water by selectively heat-exchanging with the external direct water. have.

In general, the atmospheric open gas boiler is a bypass pipe is located at the inner top of the heat exchanger, and is connected to an open expansion tank called a cistern.

On the other hand, in the atmospheric open gas boiler, the operation of the boiler during heating is formed in such a configuration that the heating is carried out in the process of circulating the primary heat exchanger, usually by moving the heating water through the pump.

When the resistance to the heating pipe is selectively generated in the atmospheric open gas boiler, the heating water flows into the cistern through the bypass pipe, and the heating water introduced into the cister is moved to the separator, where air The air is discharged back to the cisterns through the air discharge pipe, the water is configured to be moved to the pump and circulated again.

As described above, the conventional atmospheric open-type boiler branches the bypass pipe to the outlet side of the primary heat exchanger, and serves to move the air discharge and the heating water to the open system, but the normal operation or the return side When the valve and the valve on the heating water supply side are selectively shut off, the expanded heating water can be circulated to the bypass pipe → cistern → air discharge pipe → separator / pump, but the structure of the separator separates the air and heating water. Since it serves to discharge to the cistern through the air discharge pipe, there was a problem that the air and heating water collide with the flow of the heating water as well as the discharge of the air is not smooth.

In addition, there was a closed end where the temperature of the crest was unnecessarily increased, that is, the low temperature of the initial cisterce was introduced into the separator and the fuel consumption of the boiler was unnecessarily increased.

The purpose of the present invention is to open a gas boiler of the atmosphere open type, by connecting a bypass pipe connected to the heating inlet side to a radiator separating the air and water in the pipe, to smoothly discharge the air in the pipe when resistance to the heating pipe occurs It is possible to provide a bypass device for a gas boiler which can reduce heating effects and unnecessary consumption of heat.

Another object of the present invention is to provide a bypass device of a gas boiler to improve the commerciality and convenience.

1 is a configuration diagram to which the bypass device of the present invention gas boiler is applied.

Figure 2 is a schematic diagram showing the internal configuration of a conventional gas boiler.

Explanation of symbols on the main parts of the drawings

10-Control Unit 11-Temperature Control Unit

20-primary heat exchanger 21-combustion section

30-Heating water moving pipe 35-Control valve

40-three-way valve 50-secondary heat exchanger

60-Circulating Pump 70-Separator

80-Cistern 90-Bypass Tube

An object of the present invention is connected to the temperature control unit 11, the control unit 10 for performing the overall control function of the boiler;

A primary heat exchanger (20) having a combustion section (21) located at a bottom thereof so as to circulate heating water or hot water;

A heating water moving pipe (30) formed to have a predetermined length so that the heating water can be moved to the primary heat exchanger (20);

Located on one side of the heating water moving pipe 30, and three-way valve (40) for selectively controlling the moving direction of the heating water;

A secondary heat exchanger (50) having different paths for circulation of the hot and cold water;

A circulation pump 60 formed such that the heating water can be circulated through the primary heat exchanger 20 through the heating water moving pipe 30;

Located on one side of the circulation pump 60, it is installed to remove the bubbles generated in the heating water in the heating water moving pipe 30, the top of the separator 70 is formed with an air discharge pipe 71 and ;

Located in the upper portion of the separator (70), the lower surface of the air discharge pipe 71 is fixed, the inner side is provided with an overflow hose (81) 80;

When resistance occurs in the heating water moving pipe 30, the bypass pipe 90 is connected to the water separator 70 and the heating water moving pipe 30 to separate the water and air so that the heating water can be moved smoothly. Is achieved by

Accordingly, since the bypass pipe 90 is not connected to the cistern 80 like the conventional gas boiler, and the bypass pipe 90 is connected to the water separator 70, air and water of the heating water collide with each other. It is possible to prevent the excessive heating or hot water capacity and unnecessary consumption of fuel generated.

Therefore, the merchandise and convenience can be improved.

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

1 is a configuration diagram to which a bypass device of a gas boiler according to the present invention is applied.

2 schematically shows the internal configuration of a conventional gas boiler.

That is, the bypass device of the gas boiler of the present invention as shown in Figures 1 to 2 separates the air and water generated in the heating water moving pipe 30 to move, the separator 70 and heating. A bypass pipe 90 is installed between the male movable pipes 30.

The water separator 70 is located on one side of the circulation pump 60, is installed to remove the bubbles generated from the heating water in the heating water moving pipe 30, the upper air discharge pipe 71 is formed do.

In addition, the upper portion of the separator 70, the air discharge pipe 71 is fixed to the bottom, the inside of the cistern 80 is provided with an overflow hose 81.

In addition, a three-way valve 40 for selectively controlling the moving direction of the heating water is located at one side of the heating water moving pipe (30).

On the other hand, the opening and closing control valve 35 is installed on the supply side and the return side of the heating water moving pipe 30 to control the flow of the heating water.

That is, while the heating water is moved in the heating water moving pipe 30 by the circulation pump 60, when the resistance is selectively generated in the heating water moving pipe 30, the air is returned or bypass pipe 90 Is introduced into the separator 70, the air and the heating water is separated and the air is moved to the cistern 80 through the air discharge pipe 71 formed on the top of the separator (70).

In addition, when the open / close control valve 35 is blocked at the supply side and the return side of the heating water moving pipe 30, the heating water may naturally be minimally circulated through the bypass pipe 90. The air of the will be able to easily discharge the cistern 80 through the separator (70).

Therefore, the heating water in the atmospheric open boiler is a bypass pipe 90 is connected between the heating water moving pipe 30 and the water separator 70 supplied to the room through the three-way valve 40, heating water moving pipe When the resistance 30 is generated, the heating water and the air are introduced into the separator 70 through the bypass pipe 90, and the separated air is moved to the cistern 80 through the air discharge pipe 71. It is discharged and the heating water can be moved by the circulation pump 60 again.

Therefore, since the bypass pipe 90 is connected to the cister 80 as in the related art, a large amount of heating water or hot water is discharged through the bypass pipe 90 due to the resistance of the heating water moving pipe 30. However, the heating or hot water capacity is reduced and also the initial low temperature of the cistern 80 is introduced into the separator 70 can be prevented from excessive consumption of fuel.

According to the present invention as described above, since the bypass pipe 90 is branched from the heating water moving pipe 30 is connected to the water separator 70, when the resistance is generated in the heating water moving pipe 30, the heating water Air in the moving pipe 30 is introduced into the separator 70 through the return or bypass pipe 90, is discharged to the cistern 80, the heating water is moved through the circulation pump 60, heating Or to increase the hot water capacity.

In addition, during the initial ignition, a low temperature of the cistern 80 may be introduced into the separator 70 to prevent an increase in fuel costs.

Therefore, it is a very useful design that can improve the merchandise and convenience.

Claims (1)

A control unit 10 connected to the temperature control unit 11 to perform an overall control function of the boiler; A primary heat exchanger (20) having a combustion section (21) located at a bottom thereof so as to circulate heating water or hot water; A heating water moving pipe (30) formed to have a predetermined length so that the heating water can be moved to the primary heat exchanger (20); Located on one side of the heating water moving pipe 30, and three-way valve (40) for selectively controlling the moving direction of the heating water; A secondary heat exchanger (50) having different paths for circulation of the hot and cold water; A circulation pump 60 formed such that the heating water can be circulated through the primary heat exchanger 20 through the heating water moving pipe 30; Located on one side of the circulation pump 60, it is installed to remove the bubbles generated in the heating water in the heating water moving pipe 30, the top of the separator 70 is formed with an air discharge pipe 71 and ; Located in the upper portion of the separator (70), the lower surface of the air discharge pipe 71 is fixed, the inner side is provided with an overflow hose (81) 80; When resistance occurs in the heating water moving pipe 30, the bypass pipe 90 is connected to the water separator 70 and the heating water moving pipe 30 to separate the water and air so that the heating water can be moved smoothly. Bypass device of the gas boiler, characterized in that consisting of.