KR200151102Y1 - Expansion tank of gas boiler - Google Patents

Abstract

The present invention relates to a gas boiler expansion tank, and more particularly, to prevent the hassle of operating water boiler to stop or replenish the insufficient heating water from the outflow due to the sudden expansion of the heating water. It relates to an expansion tank of a gas boiler.

The present invention is an expansion tank of a gas boiler in which a heating return inlet (2) and a heating outlet (3), a water level sensor (4), an overflow pipe (5), and a bypass pipe (6) are connected, A heating water circulation unit 100 to which the heating return inlet 2 and the heating export port 3 are connected, and an inner upper portion thereof to which the water level sensor 4 and the bypass pipe 6 are connected; An expansion receiving part 200 for discharging bubbles to the outside through the overflow pipe 5 while accommodating heating water overflowed by the overflow pipe 5 is located therein: the heating water circulation part 100 It provides an expansion tank of the gas boiler, characterized in that consisting of an expansion passage (300) connecting between the expansion and receiving portion (200).

Description

Expansion tank of gas boiler

1 is a connection state of the expansion tank of the conventional gas boiler and its surroundings.

2 is a connection state of the expansion tank and its periphery of the gas boiler according to the present invention.

* Explanation of symbols for main parts of the drawings

1: expansion tank 2: heating return inlet

3: heating outlet 4: water level detection switch

5: overflow pipe 6: bypass pipe

7: heating water pipe 8: supplemental water pipe

9: supplementary water valve 100: heating water circulation

200: expansion receiving portion 300: expansion passage

310: first bulkhead 311: entrance

320: second bulkhead 321: exit

The present invention relates to an expansion tank of a gas boiler, and more particularly, it is possible to prevent the hassle of having to stop the gas boiler in operation or to replenish insufficient heating water due to a sudden expansion of the heating water. To an expansion tank of a gas boiler.

1 is a view illustrating a connection state of the periphery of the conventional expansion tank of a gas boiler. The bottom of the expansion tank 1, which is a housing, includes a heating return inlet 2 and an expansion tank 1 through which returning heating water flows. There is a heating outlet 3 which is the starting point where the returned heating water is circulated again by the circulation pump (not shown). In addition, the inner upper part of the expansion tank (1) has a water level sensor (4) for checking the water level of the heating water, and on one side of the bottom surface of the air bubbles generated during the circulation process to expand due to the volume, such as heating There is an overflow pipe (5) for inducing water overflowed by the pressure, and one side of the upper portion is a bubble generated in the process of heating the heating water moved by a circulation pump (not shown) in the heat exchanger (not shown) There is a bypass tube 6 for removal.

On the other hand, the heating outlet 3 is connected to the circulating pump and the heating water pipe 7, which is connected to the supplementary water pipe 8 on the heating water pipe 7 so that it can be replenished when the heating water is insufficient. . Further, on the refill water pipe 8, a refill water valve 9 for intermittent movement is mounted.

The expansion tank of the conventional gas boiler having such a configuration absorbs the volume expansion caused by the rise of the temperature of the heating water during the circulation of the heating water, and overflows when the pressure is increased due to bubbles contained in the heating water and instantaneous overheating and boiling. It discharges the flowing water to the outside through the overflow pipe (5) is responsible for the function to allow the heating water to circulate smoothly.

At this time, if the bubbles grown in the heating water are stagnated in one place without circulating with the heating water and then expand at a time or if the heating water suddenly overheats or boils, the pressure of the heating water suddenly increases in the expansion tank (1). As it rises, the phenomenon that the heating water rather than the gas flows out through the overflow pipe (5) occurs. As a result, the heating water is insufficient, and the water level sensor 4 that recognizes this sends a signal to the microcomputer that adjusts the gas boiler as a whole.

The microcomputer receives a signal that the heating water is insufficient and changes its operation depending on whether the supplemental water valve 9 is automatic or manual. When the supplemental water valve 9 is automatic, the microcomputer opens the supplemental water valve 9 to make it insufficient. Heating water is supplied to the expansion tank (1) through the supplemental water pipe (8). On the other hand, when the make-up water valve 9 is manual, the microcomputer receiving the signal that the heating water is insufficient stops the operation of the gas boiler. Therefore, the user is in a stopped state until the user opens the make-up water valve 9 to supply insufficient heating water to the expansion tank 1.

When the replenishment water valve 9 is automatic, the heating water can be replenished immediately even if the heating water is leaked to the outside, thereby preventing the gas boiler from stopping. However, the heating water is located inside the replenishment water valve 9. The non-return valve (not shown) which prevents the backflow to the supplemental water pipe 8 becomes inoperable due to the sticking of foreign substances contained in the heating water, and the heating water flows back to the supplemental water pipe 8.

Therefore, in the gas boiler, although the user needs to open and close the supplemental water valve 9 directly, the manual supplementary water valve 9 is typically used.

The present invention is to remove the inconvenience that the gas boiler stops by discharging the heating water through the overflow pipe by the abnormal pressure rise, when the manual supplementary water valve is used, the object of the present invention is to expand the heating water to the outside It is to provide an expansion tank of a gas boiler that can absorb the expansion force while preventing leakage.

In order to achieve the above object, the present invention in the expansion tank of the gas boiler is connected to the heating return inlet and the heating export outlet, the water level sensor, the overflow pipe, the bypass pipe, the bottom surface of the heating return inlet and heating water An outlet is connected to the inner upper part and the heating water circulation unit is connected to the water level sensor and the bypass pipe: The overflow tube is located inside to accommodate the heating water overflow due to the expansion while the air bubbles through the overflow tube Expansion receiving portion to discharge to; It provides an expansion tank of the gas boiler, characterized in that the expansion passage for connecting between the heating water circulation portion and the expansion receiving portion.

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

2 is a view illustrating a connection state of an expansion tank and a peripheral portion of the gas boiler according to the present invention, and the expansion tank 1 of the gas boiler according to the present invention is a heating water circulation part 100 in which heating water circulating is temporarily stored. And it is divided into an expansion passage 300 for connecting between the expansion receiving portion 200, the heating water circulation unit 100 and the expansion receiving portion 200 to accommodate the heating water and bubbles to expand.

On the bottom surface of the heating water circulation unit 100 is a heating point of the heating water recirculated along the heating water pipe (7) by the heating return inlet (2) and the circulating pump (not shown) in which the heating water is returned after the heating is carried out The export port 3 is connected. In addition, the inner upper portion is connected to the water level sensor 4 for detecting the water level of the heating water and the bypass pipe 6 for guiding the discharge of the bubbles expanded by heating in the heat exchanger (not shown).

The expansion tube 200 is connected to the overflow pipe (5). The overflow pipe 5 penetrates the bottom surface of the expansion receiving part 200 and is connected in a state where the upper end thereof is located inside the upper side of the expansion receiving part 200.

The expansion passage 300 is positioned between the heating water circulation unit 100 and the expansion receiving portion 200, which refers to a gap formed by the first partition 310 and the second partition 320.

The lower end and the side end of the first partition 310 are attached to the inner bottom and the inner surface of the expansion tank 1 and the upper end is spaced apart from the inner upper surface of the expansion tank 1 to become the inlet 311 of the expansion passage 300. .

The inlet 311 of the expansion passage 300 is positioned to be higher than the full water level, which is the highest level of heating water.

The second partition 320 is located between the first partition 310 and the expansion accommodating part 200. The upper end and the side end of the second partition wall 320 are attached to the inner upper surface and the inner surface of the expansion tank 1 and the lower end is spaced apart from the inner lower surface of the expansion tank 1 to become the outlet 321 of the expansion passage 300. .

On the other hand, the heating outlet 3 is connected to the heating water pipe (7), which is connected to the supplemental water pipe (8) is equipped with a supplemental water valve (9).

It describes the operation and effect of the present invention having the configuration as described above.

When the heating water normally circulates, the heating water that has been heated in a predetermined place is returned to the heating water circulation unit 100 through the heating return inlet 2. The returned heating water moves along the heating water pipe 7 through the heating outlet 3 through the action of the circulation pump (not shown) and flows into the heat exchanger (not shown). The heating water is reheated by receiving combustion heat from the heat exchanger, and a part of the bubbles growing in the reheating process is sent to the heating water circulation part 100 through the bypass pipe 6 and removed.

If bubbles in the heating water circulating normally cause rapid expansion in the pipe due to instantaneous overheating or boiling of the heating water itself, the heating water in the heating water circulation unit 100 may fluctuate due to the pressure of the expanding bubbles. do. As a result, bubbles together with the heating water are led to the expansion receiving part 200 through the outlet 302 of the expansion passage 300 via the expansion passage 300 through the inlet 310 of the expansion passage 300. The heating water thus induced is stored in the expansion accommodating part 200, while the air bubbles are discharged to the outside of the gas boiler through the overflow pipe 5. As a result, the pressure rise which occurred in the heating water circulation part 100 is removed.

Thereafter, the flow of the heating water occurs to fill the volume of the bubbles discharged to the outside, whereby the pressure in the heating water circulation unit 100 is lowered below atmospheric pressure. Therefore, the heating water circulation part 100 sucks the heating water moved to the expansion receiving part 200 when the heating water is expanded through the expansion passage 300. Here, the heating water on the expansion receiving part 200 side is not sucked when it is less than the height of the outlet 321 of the expansion passage 300, but the air entering through the overflow pipe 5 is sucked and the heating water circulation part 100 is sucked. ) To a stable state.

As can be seen through the above series of processes, when the heating water is expanded, a part of the heating water is moved to the expansion receiving part 200 through the expansion passage 300 from the heating water circulation part 100, and when the expansion ends, the pressure Due to the drop, it is returned to the heating water circulation unit 100 via the expansion passage 300 from the expansion receiving portion 200. Therefore, when properly designing the volume of the expansion receiving portion 200, except for a special case, such as during the trial run of the boiler, the heating water to expand as in the prior art does not flow out through the overflow pipe (5) The lack of water does not cause the gas boiler to stop.

As described above, the expansion tank of the present invention is composed of a heating water circulation portion, an expansion receiving portion, and an expansion passage, thereby preventing a heating water shortage caused by sudden expansion of the heating water.

Claims (3)

In the expansion tank of the gas boiler to which the heating return inlet (2), the heating export outlet (3), the water level sensor (4), the overflow pipe (5), and the bypass pipe (6) are connected, the bottom of the heating return A heating water circulation unit 100 connected to an inlet 2 and a heating export outlet 3 and connected to an inner upper portion thereof with the water level sensor 4 and a bypass pipe 6 connected thereto; An expansion receiving part 200 for discharging bubbles to the outside through the overflow pipe 5 while accommodating heating water overflowed by the overflow pipe 5 is located therein: the heating water circulation part 100 ) And expansion tank of the gas boiler, characterized in that consisting of an expansion passage (300) connecting between the expansion receiving portion (200). The inlet (311) of the expansion passage (300) according to claim 1, wherein the expansion passage (300) has a lower end and a side end attached to an inner bottom surface and an inner surface of the expansion tank (1), and an upper end thereof is spaced apart from the inner upper surface. The first bulkhead 310 and the upper end and the side end forming the upper end are attached to the inner upper surface and the inner side of the expansion tank 1 and the lower end is spaced apart from the inner bottom to form the outlet 321 of the expansion passage 300. Expansion tank of the gas boiler, characterized in that positioned between the second partition wall (320). The expansion tank of the gas boiler according to claim 2, wherein the inlet (311) of the expansion passage (300) is positioned above the full water level of the heating water of the heating water circulation unit (100).