KR200234370Y1 - The Air Removal Apparatus for A Gas Boiler - Google Patents

Abstract

The present invention relates to a gas boiler air removing apparatus, and more particularly, to improve the heating circulation by separating and discharging the heating water and air (bubble) introduced through the heating return during use of the gas boiler, In the separator for separating and discharging the water and air introduced into the heating return pipe 10 of the gas boiler, the air discharge pipe extending from one side so that the air separated and discharged from the water separator 20 can be transferred ( 22); An air vent (30) for introducing and discharging the air transferred along the air discharge pipe (22); An air vent pipe 32 which is located at the bottom of the air vent 30 and is connected between the expansion tank 40 to absorb and suppress the volume increase of the heating water; An air discharge pipe 22 extending from one side of the separator 20 is connected to the middle of the side of the air vent pipe 22, and the expansion tank 40 has a heating water inlet 42 at its upper surface. It is formed in, by preventing and removing the air occupy the capacity of the rubber membrane formed inside the expansion tank provides a smooth heating circulation and thereby the heating efficiency is increased.

Description

The Air Removal Apparatus for A Gas Boiler}

The present invention relates to a gas boiler air removing apparatus, and more particularly, to improve the heating circulation by separating and discharging the heating water and air (bubble) introduced through the heating return during use of the gas boiler.

In general, the gas boiler is configured to perform the heating / hot water mode and the hot water mode by the user's selection.

In the heating / hot water mode, during the heating operation, as the circulation pump of the gas boiler is driven, the heating water in the heating circuit passes through the main heat exchanger heated by the main burner, and heat exchange is performed. The heating and heating water exchanger, the heating water supply pipe, and the heating pipe are repeatedly subjected to the normal heating operation, and then reheated while being returned to the main heat exchanger by a circulation pump to form a heating circuit.

When the hot water is used in the heating operation state as described above, if the cold water (direct water) is supplied into the direct water pipe constituting the hot water circuit, the inlet of the heating water supply pipe is blocked by the three-way valve operated according to the output signal of the equipment control unit. The heated heating water is composed of a three-way hot water heat exchanger and a hot water pipe on the hot water side, and constitutes a circuit that is directly returned to the main heat exchanger by a circulation pump and reheated. Heat exchange action with heating water in the coil part accommodated in the hot water heat exchanger is supplied to the hot water through the hot water supply pipe.

In addition, in order to smoothly flow the heating water of the gas boiler operated as described above, air in the water and air (bubble) flowing into the heating return pipe 10 as shown in FIG. 1 may inhibit the heating circulation. As a means for separation, the water separated by using the separator 20 to circulate to the heating water through the circulation pump (P), the separated air is moved to the air vent (AIR VENT) 30 to discharge the air By removing the heating water to circulate smoothly.

On the other hand, the water and air in the water separated and discharged from the water separator as described above should be completely discharged by moving to the air vent 30, some air passes through the heating water inlet 42 formed on the bottom of the expansion tank (40) Some air flows into the rubber film 44 formed therein.

The rubber membrane 44 formed in the expansion tank 40 has a reduced form of the rubber membrane 44 before the boiler is operated. However, when the boiler is operated, the heating water temperature increases to increase the volume of the rubber membrane 44. And, the heating water is introduced into the rubber membrane 44 is expanded, which serves to absorb the increase in the volume of the heating water, in the heating water flowing into the rubber membrane 44 inside the expansion tank (40). Since the air is mixed, the air occupies a part of the capacity of the rubber membrane 44 in the expansion tank 40, and also does not discharge, there is a problem that inhibits the heating circulation.

The present invention is to solve the above problems, the water is separated and discharged through the water separator and the separated water in the air to continue to circulate through the circulation pump, the separated air does not flow into the expansion tank air directly into the air vent It is an object of the present invention to provide a gas boiler air removing device that can move the air, and can remove the air mixed in the heating water flowing into the rubber film formed inside the expansion tank.

1 is a schematic view showing a state in which a conventional water separator is applied to a gas boiler.

Figure 2 is a configuration diagram showing a state in which the separator is applied to the gas boiler according to the present invention.

Figure 3a is a sectional view showing a state before the boiler operation of the expansion tank according to the present invention.

Figure 3b is a sectional view showing a state in which the operation of the boiler operation of the expansion tank according to the present invention.

Explanation of symbols on the main parts of the drawings

10: heating return pipe 20: separator

22: air discharge pipe 24: heating water piping

30: air vent 32: air vent piping

40: expansion tank 42: heating water inlet

44: rubber film P: circulation pump

The present invention, in order to achieve the above object, in more detail in the separator for separating and discharging the water and air flowing into the heating return pipe of a conventional gas boiler, the air separated and discharged from the water separator is to be transported An air discharge pipe extending from one side of the air discharge pipe; An air vent for introducing and discharging air transferred along the air discharge pipe; An air vent pipe connected to an expansion tank positioned at a bottom surface of the air vent and configured to absorb and suppress a volume increase of heating water; An air discharge pipe extending from one side of the separator is connected to the middle of the side of the air vent pipe, and the expansion tank provides a gas boiler air removing device having a heating water inlet formed on an upper surface thereof.

(Example)

The configuration and operation of the air removal device of the gas boiler according to the present invention will be described in detail through one embodiment of the present invention.

1 is a schematic view showing a state in which a conventional water separator is applied to a gas boiler, and FIG. 2 is a block diagram showing a state in which a water separator according to the present invention is applied to a gas boiler, and FIG. 3A. Is a cross-sectional view showing a state before the boiler operation of the expansion tank according to the present invention, Figure 3B is a cross-sectional view showing a state in which the operation of the boiler operation of the expansion tank according to the present invention.

The configuration of the gas boiler according to the present invention, in the water separator 20 for separating and discharging water and air introduced into the heating return pipe 10 of the conventional gas boiler, the water separator 20 The air discharge pipe 22 extending from one side is formed so that the air discharged from the separation) can be transported and discharged.

And, the air discharge pipe 22 is air in the middle side of the air vent pipe 32 connected between the air vent 30 for discharging the conveyed air and the expansion tank 40 to absorb and suppress the volume increase of the heating water The discharge pipe 22 is connected.

In addition, the heating water inlet 32 is formed on the upper surface so that some remaining air may be discharged from the heating water flowing into the rubber membrane 44 inside the expansion tank 40.

On the other hand, the operation of the separator 20 and the expansion tank 40 made as described above, by installing the separator 20 between the heating return pipe 10 and the circulation pump (P) and the air vent (30) Water introduced from the heating return pipe 10 and air mixed therein are introduced into the separator 20 and are separated into water and air and discharged.

Then, the water and air separated and discharged by the water separator 20 are respectively discharged from the heating water pipe 24 and the air discharge pipe 22 extended to one side of the water separator 20 to the heating. The water pipe 24 is circulated to the heating water through the circulation pump P, and the discharged air is transferred to the air discharge pipe 22.

In addition, the air transferred to the air discharge pipe 22 is introduced into the air vent (Air Vent) 30 to discharge the air, the air vent 30 is an air vent pipe 32 extending from the bottom surface It is connected to the heating water inlet 42 formed on the upper surface of the expansion tank 40, the air discharge pipe 22 extending from the side of the separator 20 is connected to the middle side of the air vent pipe (32).

Meanwhile, as described above, the air discharge pipe 22 extending from one side of the separator 20 is not directly connected to the expansion tank 40 and the heating water inlet 42 but is directly connected to the middle side of the air vent pipe 32. The reason is that, as mentioned in the prior art, the air discharge pipe 22 extending from the side of the separator 20 is first connected to the heating water inlet 42 formed at the bottom of the expansion tank 40, and then the air is integrally extended. The discharge pipe 22 is directly connected to the bottom surface of the air vent 30 and is formed in a structure in which air is discharged, which is separated from the water separator 20, and the discharged air is transferred to the air discharge pipe 22, and then the expansion tank 40 The air discharge pipe 22 is connected to the heating water inlet 42 formed at the bottom of the bottom portion, so that some air flows into the rubber membrane 44 formed in the expansion tank 40, thereby increasing the internal capacity of the rubber membrane 44. To prevent some Intended.

The reason why the air should not flow into the rubber membrane 44 formed in the expansion tank 40 is that the expansion tank 40 has a role in which the rubber membrane 44 is reduced before the boiler is operated as shown in FIG. 3A. However, as shown in FIG. 3B, after the boiler is operated, the heating water temperature rises, and the heating water flows into the rubber membrane 44 to expand, which absorbs the increase in the heating water volume. In this way, the air is mixed in the heating water flowing into the rubber membrane 44 inside the expansion tank 40, so that the air occupies a part of the capacity of the expansion tank and is not discharged. This is because the air remains in the pipe due to this problem occurs that inhibits the heating circulation.

On the other hand, unlike the conventional reason for forming the heating water inlet 42 on the upper surface of the expansion tank 40 to solve the above problems, the air vent pipe 32 to the bottom surface of the air vent 30 for discharging air A rubber film formed inside the expansion tank 40 by being heated to the air discharge pipe 22 connected to the heating water inlet 42 formed on the upper surface of the expansion tank 40 and connected to the middle of the air vent pipe 32. 44) Even though the heating water mixed with air is introduced into the air, the air is lighter than the heating water, and thus the air is discharged along the air vent pipe 32 to discharge the air through the air vent 30.

Gas boiler air removing device according to the present invention made as described above,

The air discharge pipe extending from the side of the separator is not connected to the heating water inlet formed on the bottom surface of the existing expansion tank, but the heating water inlet is formed on the upper surface so that the air vent pipe extending from this is directly connected to the bottom of the air vent. As the air discharge pipe is connected to the side, the heating water and air from the air flowing into the rubber membrane formed inside the expansion tank are transported along the air vent pipe and flowed into the air vent to be discharged to form the inside of the rubber membrane. By removing the air occupy the capacity of the air circulation can be improved and thereby increase the heating efficiency, and also, the air is extended to one side of the separator separated from the air vent pipe is directly connected to the air outlet connected to the air vent air vent In and out of the gas This prevents air from remaining in the pipe because it is not connected.

Claims (2)

In the water separator to separate and discharge the water and air flowing into the heating return pipe 10 of the conventional gas boiler, An air discharge pipe 22 extending from one side thereof so that air separated and discharged from the water separator 20 can be transferred; An air vent (30) for introducing and discharging the air transferred along the air discharge pipe (22); An air vent pipe 32 which is located at the bottom of the air vent 30 and is connected between the expansion tank 40 to absorb and suppress the volume increase of the heating water; Gas boiler air removal apparatus, characterized in that the air discharge pipe (22) extending from one side of the separator 20 is connected to the middle of the side of the air vent pipe (22). The method of claim 1, The expansion tank 40 is a gas boiler air removing device, characterized in that the heating water inlet 42 is formed on the upper surface.