KR20000009889U - Gas Boiler Water Tank - Google Patents

Abstract

The present invention relates to a water tank of the gas boiler for circulating the heating water, in the water tank 10 for storing the heating water in the gas boiler, the cover 11 and the main body 12 is composed of the cover 11 ) Is formed with a heating water inlet 111 for returning the heating water passing through the heating pipe and to form a prevention jaw 112 to one side inside, the main body 12, the water supply port 121 for supplying the supplemental water to the upper portion The discharge port 122 is formed at the lower part of the position line of the prevention jaw 112 of the cover 11 so as to discharge the heating water that overflows. Forming and forming the bubble preventing plate 124 on the inner surface of the cover 11 in the position line of the heating water inlet 111, to prevent the inflow into the drain of the water droplets generated by the heating water as well as the body Bubbles formed inside By preventing plate in the Pho suppressing bubbling due to that it can increase the efficiency of use of longer life, and at the same time the boiler of the boiler to suppress the air bubbles flowing to the heating pipe.

Description

A water tank of gas boiler

The present invention relates to a water tank of a gas boiler for circulating heating water, and specifically, inside the cover of the water tank, water droplets generated by the heating water supplied to the water tank flow through the inner wall of the cover and are discharged to the drain. The prevention jaw is formed so as to prevent it from being made, and at the bottom, the bubble prevention plate is formed to suppress the generation of bubbles of the heating water falling through the heating water inlet, thereby preventing the inflow of bubbles into the heating pipe to increase the efficiency of the boiler. will be.

In general, a gas boiler burns liquefied petroleum gas (LPG), liquefied natural gas (LNG), or city gas inside, heats water using combustion heat generated during the combustion process, and then heats the circulated pump. It is a device that circulates through the heating pipe in the room and heats the room or supplies it to the bathroom or kitchen.

2 is a partial cross-sectional view showing the internal configuration of the gas boiler operating as described above, the combustion chamber 20 for heating the heating water using the combustion heat of the gas is formed inside the boiler body 100, this combustion chamber The bottom of the 20 is equipped with a burner 21 for burning the incoming gas, and the top of the burner 21 is equipped with a main heat exchanger 22 for heating the heating water by using the combustion heat generated when the gas is burned. It is.

On the other hand, the upper portion of the boiler main body 100 is provided with an air supply port 101 for sucking the air required for combustion of the gas and an exhaust port 102 for exhausting the exhaust gas of the combustion chamber 20 to the outside, respectively, Air sucked through the 101 is supplied into the combustion chamber 20 by the blowing fan 30.

In addition, an ignition transformer 40 generating a high voltage necessary for igniting the gas supplied to the burner 21 is fixed to the inner rear surface of the main body 100. The high voltage generated in the ignition transformer 40 is a combustion chamber ( It is supplied to the spark plug 41 fixed to one side of the 20.

In addition, a predetermined portion of the gas supply pipe 107 for supplying external gas to the burner 21 is equipped with a gas valve 50 for controlling the amount of supplied gas, and the heating water heated in the main heat exchanger 22 is It is supplied to the auxiliary heat exchanger (60). The auxiliary heat exchanger 60 converts the direct water flowing through the direct water supply pipe 105 into hot water.

In addition, the heating water and the direct water supplied to the auxiliary heat exchanger 60 is supplied to the heating pipe of the room through the heating water supply pipe 103 or heat exchanged according to the driving of the circulating pump 70, and is heated through the hot water supply pipe 104. In addition, the heating water supplied to the kitchen and passed through the heating pipe in the room is returned to the water tank 10 through the heating water return pipe 106, and all these operations are controlled by the control circuit unit 80.

The water tank 10 for returning the heating water passing through the indoor heating pipe is composed of a main body 12 and a cover 11, as shown in Figure 3, the bottom surface of the water tank main body 12 to recover the heating water The inlet 111 through which the heating water returned through the pipe 106 is introduced and the discharge port 123 for supplying the stored heating water to the heating pipe in the room through the heating water supply pipe 103 are respectively formed.

In addition, the upper portion of the water tank body 12 is formed with a water supply port 121 for supplying replenishment water and a drain hole 122 for discharging the overflowed heating water, respectively, and is circulated inside the water tank body 12. A strainer 13 for filtering foreign substances contained in the heating water is partitioned and mounted.

In the conventional water tank configured as described above, water droplets are formed in the upper part of the main body 12 by the inflow of heated heating water, and the water droplets flow to the inner wall of the cover 11 to discharge the heating water when overflowing. There was a problem that is discharged to (122).

In addition, in the water tank 10 of another configuration mounted to the conventional gas boiler, as shown in Figure 4 is composed of a main body 12 and the cover 11, the cover 11 is a heating water return pipe (not shown) An inlet 111 through which the heated water returned through the inlet 111 is formed, and an upper portion of the main body 12 is connected to the direct water supply outlet 121 for supplying supplemental water and a drain outlet for discharging the heating water during overflow ( 122 is formed, and at the bottom of the main body 12, a discharge port 123 for supplying the stored heating water to the heating pipe in the room through the heating water supply pipe (not shown) is formed. And connected to the discharge port 123 is a strainer (not shown) is installed to collect the foreign matter contained in the heating water supplied to the heating pipe in the room.

However, even in the conventional water tank configured as described above, the water droplets generated by the supply of the heating water are discharged through the inner wall of the cover 11 to the drain hole 122, and the heating is returned through the heating water return pipe. Bubbles are generated as the water flows into the main body 12 while falling from the upper portion through the inlet 111, and the generated bubbles are circulated to the heating pipe through the discharge port 123, thereby reducing the efficiency of the boiler. There was a problem.

The present invention is designed to solve the above problems, to prevent the water droplets generated by the heating water to flow into the drain, and to prevent the inflow of air bubbles into the heating pipe to extend the life of the boiler as well as increase the efficiency. It is an object of the present invention to provide a water tank of a gas boiler.

In order to achieve the above object, the present invention, in the water tank for storing the heating water in the gas boiler, the heating water inlet for returning the heating water passing through the heating pipe is formed and the cover formed with a jaw to one side inside; The upper part of the main body is formed with a discharge port for supplying the heating water to the heating pipe of the room on the bottom side of the water supply port for supplying the replenishment water to the upper portion and the bottom of the position line of the prevention jaw of the cover to discharge the heating water overflowed It characterized in that the bubble-proof partition is formed on the inner surface of the heating water inlet of the cover on the position line.

1 is an exploded perspective view of a water tank mounted to the gas boiler according to the present invention

2 is a partial cross-sectional view showing the internal structure of a typical gas boiler

3 is a partially cutaway perspective view of a water tank mounted on a conventional gas boiler

Figure 4 is an exploded perspective view of another water tank mounted on a conventional gas boiler

Explanation of symbols for main parts of the drawings

10: water tank 11: cover

12: main body 111: inlet

112: jaw 121: water supply port

122: drain port 123: discharge port

124: bubble prevention plate

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

1 is a view showing a water tank of the gas boiler according to the present invention, the cover 11 is mounted on the upper portion of the water tank body 12, the water of the air-blocking gas boiler to block the water tank 10 from the atmosphere As showing the tank 10, it will be described with reference to the general configuration of the boiler shown in FIG.

The cover 11 has an inlet 111 through which the heating water circulated through the heating pipe is introduced through the heating water return pipe 106 to one side, and the inner side of the cover 11 causes the heating water introduced into the water tank body 12. When the water vapor generated as it rises and flows through the inner surface of the cover 11, a stopper 112 is formed to prevent direct entry into the drain hole 122 formed in the upper portion of the main body 12.

The main body 12 has an inlet 111 formed at the bottom of the cover 11 and a discharge port 123 for discharging the heating water stored in the main body 12 in a diagonal direction to the heating pipe. The bubble prevention plate 124 is formed at the position of the inlet 111. In addition, the upper portion of the main body 12 is formed with a water supply port 121 for supplying supplemental water and a drain hole 122 for discharging the overflowed heating water, respectively.

The water tank of the gas boiler of the present invention configured as described above has the heating water heated through the heat exchanger 22 or the heating water circulating through the heating pipe flowing into the inlet 111 formed at the top of the cover 11. Fall inside. At this time, the bubble prevention plate 124 is formed in the interior of the main body 12 at the position of the inlet 111 formed in the cover 11 so that the heating water dropped to the inside of the bubble prevention plate 124 to prevent bubbles. Bubbles generated in the process of falling through the diaphragm 124 to fall and hit the object to be splashed against the bubble blocking wall 124 is received back into the bubble prevention plate 124 so that no bubbles are formed. Will be.

In addition, the water vapor generated due to the difference between the temperature of the heating water and the external temperature of the water tank rises inside the main body 12 and remains on the inner surface of the cover 11, and the water droplets generated at this time The inner surface flows outward. At this time, the prevention jaw 112 is formed on the cover 11 to the position of the drain hole 122 which is formed in the upper portion of the main body 12 to discharge the heating water in the overflow, so that the generated water drops due to the prevention jaw 112 It does not flow into the drain hole 122 and falls into the body 12.

As described above, the present invention, as well as preventing the inflow into the drain of the water droplets generated by the heating water as well as by suppressing the generation of bubbles in the bubble prevention plate of the bubble formed inside the main body of the boiler by suppressing the flow of bubbles into the heating pipe. In addition to extending the service life of the boiler can increase the efficiency.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention should be determined only by the appended utility model registration claims.

Claims (1)

In the water tank (10) for storing the heating water in the gas boiler, a heating water inlet (111) for returning the heating water passing through the heating pipe is formed and the cover (11) formed with a jaw (112) to one side inside; A water outlet 121 for supplying supplemental water to the upper portion and a drain hole 122 are formed below the position line of the prevention jaw 112 of the cover 11 so as to discharge the heating water that overflows. The bubble preventing plate 124 is formed on the inner surface of the main body 12 in which the discharge port 123 for supplying heating water to the heating pipe is formed along the position line of the heating water inlet 111 of the cover 11. The water tank of the gas boiler.