KR200184830Y1 - Open to upper atmospheric type gas boiler - Google Patents

Abstract

The present invention is a bottom-up gas boiler in which the heating pipe is installed higher than the boiler installation position, even though the pinhole is generated in the heating pipe installed above the boiler position, the heating water does not leak through the overflow pipe due to the siphon action. The present invention relates to a bottom-up atmospheric open gas boiler that allows heating pipes to be installed in a bottom-up manner even when the water is open to the atmosphere.

The gas boiler of the present invention is a bottom-up atmospheric open gas boiler in which the heating pipe is installed higher than the boiler installation position and the heating water is open to the atmosphere, and a check valve installed on the heating water supply pipe to prevent backflow, and a boiler It includes an on-off valve installed to block the heating water flow of the heating return pipe when the operation is not activated.

Description

Bottom-up Atmospheric Open Gas Boiler

The present invention relates to a gas boiler that circulates heating water to warm a room and supplies hot water to a bathroom and a sink. More specifically, the bottom of the boiler is a bottom-up gas boiler in which a heating pipe is installed above a boiler installation position. Bottom-up atmosphere that prevents the water from leaking through the overflow pipe due to the siphon action even if a pinhole occurs in the heating pipe installed above the position. The present invention relates to an open gas boiler.

A general gas boiler burns gas using fuel, heats water using heat generated during the combustion process, and circulates the heated water to a heating pipe in a room by a circulation pump for heating, or a bathroom. It is a device that supplies hot water to the sink.

There are several known types of such gas boilers, which can be broadly classified into air open type and air sealed type.

The open air gas boiler is exposed to the atmosphere through the overflow pipe connected to the water tank to cope with the volume change according to the temperature change of the heating water. The air sealed gas boiler is blocked from the air and the expansion tank This is to cope with the volume change caused by the temperature change of the heating water.

Figure 1 schematically shows the configuration of an atmospheric open gas boiler of one conventional embodiment.

The illustrated open air gas boiler has a gas inlet pipe 1 through which external gas is introduced, a gas valve 2 installed on the gas inlet pipe 1, and a gas valve 2 for adjusting the pressure of the gas introduced therein. 1) a burner (3) that mixes and combusts the gas introduced through air, an ignition plug (4) that ignites the gas injected from the burner (3) when ignited, and a flame detector (5) to detect whether ignition and combustion ), A flue 6 through which burned exhaust gas is discharged, an exhaust fan 7 for sucking air through the burner 3 and forcibly discharging the exhaust gas inside the flue 6, and the exhaust fan 7 And a main controller 9 for controlling the whole of the apparatus, including a rotational speed sensing unit 8 that detects the number of rotations and outputs a signal corresponding thereto, a microprocessor, and various control devices.

In addition, the gas boiler is a water tank for temporarily storing the heating water returned as installed on the heating return pipe 10, the heating return pipe 10, the heating water is returned from the heating pipe (not shown) in the room to be heated. (11), three-way valve (12) for changing the flow of heating water when using hot water, circulating pump (13) for circulating heating water, heat exchanger (14) for heating the heating water, heated in the heat exchanger (14) Heating water supply pipe (15) for supplying the heating pipe in the room, water replenishment pipe (16) to replenish the heating water, cold water pipe (17) for supplying cold water when using hot water, heat exchange with the heating water in the heat exchanger (14) Hot water pipe (18) for discharging hot water heated by the flow, the flow valve (19) for detecting the flow of cold water during hot water, and the temperature sensor for sensing the temperature of the heating water to apply an electrical signal to the main control section (9) 20 is provided.

In the air open gas boiler as described above, when the temperature of the heating water is greatly increased and the volume is greatly expanded, when the water tank 11 has a certain level or more, some heating water is discharged to the outside through the overflow pipe 21. have.

On the other hand, for example, when the boiler is not operated in the case of the so-called bottom-up, in which the gas boiler is disposed underground and the heating pipe 22 is installed on the first and second floors higher than the position of the gas boiler as shown in FIG. Since negative pressure is applied to 22, the heating water does not flow down through the overflow pipe 21 without the heating water of the heating pipe descending.

However, if a pinhole is formed in the heating pipe 22, air is introduced into the heating pipe 22 through the pinhole, so that the heating water of the heating pipe descends to the bottom and is located at the upper part through the overflow pipe 21. The amount of heating water is discharged. Of course, when the circulating pump 13 is operated and the heating water is operated, even though a pinhole is formed in the upper heating pipe, air is not introduced through the pinhole by the pressure of the heating water, but when the circulating pump 13 is not operated, Air is introduced into the heating pipe through which the heating water is discharged through the overflow pipe.

As described above, when the air-opening gas boiler is installed with a bottom up heating pipe, if a pinhole occurs in the heating pipe, a large amount of heating water is discharged through the overflow pipe 21, so that the boiler cannot be used unless the pinhole is blocked. In addition, the discharged heating water has the inconvenience of moistening the surroundings of the boiler and draining the water.

Therefore, conventionally, in the case of an atmospheric open gas boiler, there is a problem in that the heating pipe cannot be disposed upward.

The present invention was devised to solve the above-mentioned problems of the prior art, and even in the case of an open air gas boiler, the heating water of the upper part is lowered even if a pinhole occurs in the upper heating pipe so that the heating pipe can be arranged upward. It is an object of the present invention to provide a bottom-up open air gas boiler which can be installed in the case of an atmospheric open gas boiler so that heating water is not discharged through the overflow pipe so as not to come.

The bottom-up atmospheric open gas boiler of the present invention for achieving the above object is a check valve installed on the heating water supply pipe to prevent backflow, and an on-off valve installed to block the heating water flow of the heating return pipe when the boiler is not operated. Characterized in that it comprises a.

1 is a schematic configuration diagram of a conventional atmospheric open gas boiler,

Figure 2 is a heating pipe installation state of the general bottom-up gas boiler,

3 is a schematic configuration diagram of a bottom-up atmospheric open gas boiler according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: gas inlet pipe 2: gas valve

3: burner 4: spark plug

5: flame detector 6: year

7: Exhaust fan 8: Rotation speed detection part

9: main fisherman 10: heating return pipe

11: water tank 12: three-way valve

13: circulation pump 14: heat exchanger

15: heating water supply pipe 16: water supply pipe

17: cold water pipe 18: hot water pipe

19: flow valve 20: temperature sensor

21: overflow pipe 22: heating piping

30: check valve 40: on-off valve

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

3 is a schematic configuration diagram of a bottom-up atmospheric open gas boiler according to the present invention.

The present invention is not only applied to the atmospheric open gas boiler as shown, but also to other types of atmospheric open gas boilers. In FIG. 3, since the internal structure of the boiler is the same as that of FIG. 1, detailed description thereof will be omitted.

As shown in the present invention, the check valve 30 installed on the heating water supply pipe 15 to prevent backflow, and the opening and closing installed to block the heating water flow of the heating return pipe 10 when the boiler is not operated. The valve 40 is included.

The check valve 30 installed in the heating water supply pipe 15 supplies the heating water to the upper heating pipe 22 when the boiler is in operation, and the boiler from the upper heating pipe 22 when the boiler is not in operation. This prevents the heating water backflow.

The on-off valve 40 installed on the heating return pipe 10 is automatically opened when the boiler is in operation so that the heating water can be returned to the boiler and is automatically closed when the boiler is not in operation, thereby heating from the heating pipe 22. This prevents water from flowing to the boiler. The on-off valve 40 is automatically controlled by the main control unit 9, in order to strongly block the heating water flow, it is preferable to use the one configured by using a synchronous motor and a ball valve.

The check valve 30 and the on-off valve 40 is installed in the boiler or near the boiler.

Bottom-up open air gas boiler of the present invention configured as described above acts as follows.

When the boiler is in operation, the heating water flows through the check valve 30 to the upper heating pipe 22 and the on / off valve 40 is opened so that the heating water is returned from the heating pipe 22 to the boiler.

In a state in which the boiler does not operate, the heating water of the heating pipe 22 is blocked from flowing to the boiler through the heating water supply pipe 15 by the check valve 30, and the heating and return pipe 10 is opened by the on / off valve 40. To prevent flow through the boiler.

Therefore, even if a pinhole is generated in the heating pipe 22, the heating water of the heating pipe 22 does not come down, and the heating water is not discharged through the overflow pipe 21 of the water tank 11.

As such, the present invention configures the check valve 30 and the open / close valve 40 in the heating water supply pipe 15 and the heating return pipe 10, respectively, so that the heating water is over even if a pinhole is generated in the heating pipe 22 at the upper portion. It is to be discharged through the flow pipe 21, so that even in the case of the open air gas boiler it is possible to install the heating pipe upwards.

The bottom-up atmospheric open-type gas boiler of the present invention does not discharge the heating water through the overflow pipe because the heating water of the upper part does not flow down even if a pinhole occurs in the upper heating pipe when the heating pipe is disposed upward. Therefore, even in the case of an atmospheric open gas boiler, the heating pipe can be installed from the bottom up.

The present invention is not limited to the embodiments described, it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the utility model registration claims of the present invention.

Claims (3)

In the bottom-up atmospheric open gas boiler where the heating pipe is installed higher than the boiler installation position and the heating water is open to the atmosphere, A check valve 30 installed on the heating water supply pipe 15 to prevent backflow, Bottom-up open air gas boiler characterized in that it comprises an on-off valve 40 installed to block the heating water flow of the heating return pipe 10 when the boiler is not operating. The bottom open air gas boiler according to claim 1, wherein the on-off valve (40) is configured using a synchronous motor and a ball valve. The bottom-up atmospheric open gas boiler according to claim 1, wherein the check valve (30) and the open / close valve (40) are installed at a position inside or near the boiler.